CN214058148U - Paperboard placing device for packaging ceramic tiles - Google Patents

Abstract

The utility model relates to a ceramic tile packing is with putting cardboard device, its characteristics lie in including cardboard bracket, preceding conveying mechanism, back conveying mechanism's input sets up near preceding conveying mechanism's output, before the cardboard bracket is arranged in between conveying mechanism and the back conveying mechanism, its characteristics lie in still including lift rolling mechanism, lift rolling mechanism arranges the top at back conveying mechanism input. The utility model has the advantages of simple structure, reliability height, suitability are good, it can avoid appearing the condition crooked, dislocation between ceramic tile and the cardboard effectively, and this can improve the packaging quality of ceramic tile effectively.

Description

Paperboard placing device for packaging ceramic tiles

Technical Field

The utility model relates to a ceramic tile packaging machinery field, especially a ceramic tile packing is with putting cardboard device.

Background

Chinese patent application No. CN200810029848.1 discloses a technical solution entitled "method and apparatus for automatically stacking packing paper boards of wall and floor tiles and piled bricks", which includes the following technical features: the front and the rear sections of the brick pile horizontal conveying line, the upper section and the lower section of the paperboard chute. When the brick pile passes through the front and rear brick pile horizontal conveying lines, the brick pile can be pressed on the upper end of the packaging paper board so that the brick pile is pressed on the packaging paper board to move through friction pressure. In the process, the brick pile is easy to slide on the packaging paper board due to inertia or insufficient friction pressure between the brick pile and the packaging paper board, so that the brick pile is easy to incline and misplace, and the packaging quality of the ceramic tile is easy to reduce.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to solve above-mentioned problem and not enough, provide a ceramic tile packing is with putting cardboard device, should put the cardboard device and have advantages such as simple structure, reliability height, suitability are good, it can avoid appearing the condition crooked, dislocation between ceramic tile and the cardboard effectively, this can improve the packaging quality of ceramic tile effectively.

The technical scheme of the utility model is realized like this:

the utility model provides a ceramic tile packing is with putting cardboard device, includes cardboard bracket, preceding conveying mechanism, back conveying mechanism's input sets up near preceding conveying mechanism's output, the cardboard bracket is arranged in between preceding conveying mechanism and the back conveying mechanism, and its characterized in that still includes lift rolling mechanism, and wherein lift rolling mechanism arranges the top at back conveying mechanism input.

Preferably, a lifting rolling mechanism is also arranged above the output end of the front conveying mechanism.

Preferably, the lifting and rolling mechanism comprises a lifting cylinder, an installation frame and rolling wheels, wherein the lifting cylinder is vertically arranged, the installation frame is arranged at the movable end of the lifting cylinder, and the rolling wheels are arranged on the installation frame.

Preferably, the ceramic tile packaging paper board placing device further comprises a storage rack and a paper board placing and taking mechanism, the storage rack is arranged beside the front conveying mechanism, and the paper board placing and taking mechanism is arranged between the paper board bracket and the storage rack.

Preferably, get and put cardboard mechanism and include lift suction disc subassembly, oblique leading truck, centre gripping and drag the subassembly, lift suction disc subassembly sets up the top at the storage rack, oblique leading truck arranges the top at back conveying mechanism to make the lower extreme of oblique leading truck towards the cardboard bracket, centre gripping drags the subassembly to arrange between lift suction disc subassembly and oblique leading truck.

Preferably, the ceramic tile packing is with putting cardboard device still includes the swing spacing subassembly, the swing spacing subassembly is arranged on the lower end of oblique leading truck.

Preferably, the swing limiting assembly comprises a driving cylinder and a swing blocking frame, the middle of the swing blocking frame is hinged and fixed, one end of the swing blocking frame is arranged at the lower end of the inclined guide frame, one end of the driving cylinder is hinged and fixed, and the other end of the driving cylinder is hinged with the other end of the swing blocking frame.

Preferably, the top of oblique leading truck lower extreme is equipped with spacing deflector body, spacing deflector body includes swash plate, lower swash plate, riser, the swash plate is the guide inclined plane of perpendicular oblique leading truck and arranges, the swash plate is the guide inclined plane of parallel oblique leading truck and arranges down to the swash plate is located the below of swash plate under making, the upper and lower end of riser meets with the lower extreme of swash plate, the upper end of lower swash plate respectively.

Preferably, the cardboard bracket is provided with a bearing inclined plane, the bearing inclined plane is arranged below the front conveying mechanism, the inclined direction of the bearing inclined plane is the same as that of the inclined guide frame, and the lower end of the bearing inclined plane is provided with a limit stop.

Preferably, an inclined baffle frame is arranged above the bearing inclined plane.

The utility model has the advantages that: the utility model discloses in, the cardboard bracket can be used for lifting the cardboard to play the effect of accurate location to the cardboard. By arranging the lifting rolling mechanism above the input end of the rear conveying mechanism, the lifting rolling mechanism can be pressed on the ceramic tile when the ceramic tile is pressed on the paper board. The rolling can not only enhance the friction between the ceramic tile and the paper board, but also effectively reduce the friction of the lifting rolling mechanism acting on the ceramic tile, thereby effectively avoiding the situation that the ceramic tile is inclined and misplaced relative to the paper board; the lifting rolling mechanism is arranged, so that the purpose of slowing down the tile conveying speed can be achieved, and the tile is prevented from sliding on the paperboard due to inertia; this can improve the quality of ceramic tile packing effectively, and this puts cardboard device's structure is very simple reliable, and it has very high suitability. Through the lift rolling mechanism that adopts the ability to go up and down, not only can compress tightly different thickness ceramic tiles, can also increase and decrease the pressure of being used in on the ceramic tile as required, this cardboard device of should putting can satisfy multiple user demand like this, and this application scope that can improve this cardboard device of putting effectively.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is the structural schematic diagram of the middle lifting rolling mechanism of the present invention.

Fig. 3 is a schematic view of a part of the structure of the present invention.

Fig. 4 is a schematic structural diagram of the usage state of the present invention.

Detailed Description

As shown in fig. 1, the utility model provides a ceramic tile packing is with putting cardboard device, including cardboard bracket 1, preceding conveying mechanism 2, back conveying mechanism 3, the input of back conveying mechanism 3 is close to the output setting of preceding conveying mechanism 2, cardboard bracket 1 is arranged in between preceding conveying mechanism 2 and back conveying mechanism 3, for realizing the utility model discloses an inventive purpose still includes lift rolling mechanism 4, wherein lift rolling mechanism 4 arranges in the top of back conveying mechanism 3 input. The utility model discloses in, cardboard bracket 1 can be used for lifting the cardboard to play the effect of accurate location to the cardboard. By arranging the lifting and rolling mechanism 4 above the input end of the rear conveying mechanism 3, the lifting and rolling mechanism 4 can be pressed on the ceramic tile when the ceramic tile is pressed on the paper board. The rolling can not only enhance the friction between the ceramic tile and the paper board, but also effectively reduce the friction of the lifting rolling mechanism 4 acting on the ceramic tile, thereby effectively avoiding the situation that the ceramic tile is inclined and misplaced relative to the paper board; the lifting rolling mechanism 4 is arranged, so that the purpose of slowing down the tile conveying speed can be achieved, and the tile is prevented from sliding on the paperboard due to inertia; this can improve the quality of ceramic tile packing effectively, and this puts cardboard device's structure is very simple reliable, and it has very high suitability. Through the lift rolling mechanism 4 that adopts the ability to go up and down, not only can compress tightly different thickness ceramic tiles, can also increase and decrease the pressure of being used in on the ceramic tile as required, this cardboard device of should putting can satisfy multiple user demand like this, and this application scope that can improve this cardboard device of putting effectively.

During the actual use process, the paper boards can be placed on the paper board bracket 1 manually or by a mechanical device.

As shown in fig. 1, the front conveying mechanism 2 and the rear conveying mechanism 3 both convey the tiles by the conveying belts. This enables the front conveying mechanism 2 and the rear conveying mechanism 3 to achieve a good conveying effect.

As shown in fig. 1, a lifting and rolling mechanism 4 is also arranged above the output end of the front conveying mechanism 2. The two lifting rolling mechanisms 4 can better play roles in reducing inertia and increasing friction, thereby being beneficial to further improving the reliability of the paper board placing device.

As shown in fig. 1 and 2, the lifting and rolling mechanism 4 includes a lifting cylinder 41, a mounting bracket 42, and rolling wheels 43, wherein the lifting cylinder 41 is vertically disposed, the mounting bracket 42 is disposed on a movable end of the lifting cylinder 41, and the rolling wheels 43 are disposed on the mounting bracket 42. The lifting rolling mechanism 4 is very simple and reliable in structure, not only can be conveniently manufactured, but also can play a very good rolling effect.

As shown in fig. 1, the paper placing device for packaging ceramic tiles further comprises a storage rack 5 and a paper placing and taking mechanism 6, wherein the storage rack 5 is arranged beside the front conveying mechanism 2, and the paper placing and taking mechanism 6 is arranged between the paper board bracket 1 and the storage rack 5. Through the structural design, the purpose of automatically placing the paper boards can be achieved, and the convenience in use of the paper board placing device is improved.

As shown in fig. 1, the paper board taking and placing mechanism 6 includes a lifting suction plate assembly 61, an inclined guide frame 62, and a clamping dragging assembly 63, wherein the lifting suction plate assembly 61 is disposed above the storage rack 5, the inclined guide frame 62 is disposed above the rear conveying mechanism 3, and the lower end of the inclined guide frame 62 faces the paper board bracket 1, and the clamping dragging assembly 63 is disposed between the lifting suction plate assembly 61 and the inclined guide frame 62. The structure of the paper board placing mechanism 6 is very simple and reliable, and the purpose of outputting paper boards quickly and accurately can be achieved, so that the reliability of the paper board placing device is further improved. Wherein the inclined guide 62 facilitates accurate guiding of the cardboard sheets onto the cardboard pallet 1.

As shown in fig. 4, the clamping and dragging assembly 63 can reciprocate between the lifting suction plate assembly 61 and the inclined guide frame 62. After the lifting suction plate assembly 61 sucks up the paper board 10; the clamping dragging component 63 clamps the side edge of the paper board 10; then the clamping dragging component 63 drags the paper board 10 to the upper part of the inclined guide frame 62; then, the paper sheet 10 is released by the holding and pulling assembly 63, and the paper sheet 10 naturally falls down on the inclined guide frame 62 and slides onto the paper sheet bracket 1 under the guidance of the inclined guide frame 62, and the upper end of the paper sheet 10 is higher than the conveying surfaces of the front conveying mechanism 2 and the rear conveying mechanism 3. When the ceramic tile 20 moves from the front conveying mechanism 2 to the rear conveying mechanism 3, the ceramic tile 20 is firstly pressed on the upper end of the paper board 10, and then the lifting rolling mechanism 4 is pressed on the ceramic tile 20, so that the paper board 10 and the ceramic tile 20 can be stably and accurately conveyed out through the rear conveying mechanism 3, and the packaging quality can be improved conveniently. Wherein, when the tile 20 is moved to the cardboard 10, the lower corner of the tile 20 is just pressed against the inner fold of the cardboard 10; and the tiles 20 are integral to the middle of the cardboard 10 after stacking. This facilitates subsequent turning up of the sides of the sheet 10 for packaging on the side walls of the tiles 20, which facilitates good packaging.

As shown in FIG. 4, when the sheet placing device is operated, the operation sequence is sequentially performed according to the marks from (i) to (c) in FIG. 4.

As shown in fig. 1, the lifting suction plate assembly 61 includes a suction cup holder 612 with a plurality of suction cups 611, a vertical cylinder 613, and the suction cup holder 612 is disposed on a movable end of the vertical cylinder 613. The lifting suction plate assembly 61 is simple and reliable in structure.

As shown in fig. 1, the clamping dragging assembly 63 includes a reciprocating driving assembly (not shown in the figure, which uses a transmission belt to drive other components to displace), a swinging assembly (not shown in the figure, which uses an air cylinder to drive a swinging frame to swing, or uses a motor to drive the swinging frame to swing), and a mechanical clamp 631, the reciprocating driving assembly is disposed between the lifting suction plate assembly 61 and the inclined guide frame 62, the swinging assembly is disposed on the reciprocating driving assembly, and the mechanical clamp 631 is disposed on the swinging assembly. When the paper board is clamped, the mechanical clamp 631 is in a horizontal state through the swinging assembly, so that the paper board can be conveniently clamped; when the paper sheet is released, the swinging component swings the clamping opening of the mechanical clamp 631 to the inclined guide frame 62 to enable the paper sheet to be better attached to the inclined guide frame 62, and recently, the mechanical clamp 631 releases the paper sheet, so that the paper sheet can be well released.

As shown in FIG. 4, the storage rack 5 is used for stacking the paper boards 10, so that the paper boards 10 can be conveniently sucked by lifting the suction plate assembly 61 in turn.

As shown in fig. 1 and 3, the tile packing and placing device further comprises a swing limiting assembly 7, wherein the swing limiting assembly 7 is arranged on the lower end of the inclined guide frame 62. When the swing limiting assembly 7 is needed to limit the paperboard, the swing limiting assembly 7 can be located at the lower end of the inclined guide frame 62 to prevent the paperboard from sliding down from the inclined guide frame 62. When the paper board slides down from the inclined guide frame 62, the swing limiting assembly 7 only needs to swing away from the lower end of the inclined guide frame 62, so that the paper board can easily slide down from the inclined guide frame 62 to the paper board bracket 1.

As shown in fig. 4, when the tile passes through the space between the front conveying mechanism 2 and the rear conveying mechanism 3, a piece of paper board is temporarily placed on the inclined guide frame 62 by the clamping and dragging assembly 63, and then the next piece of paper board is clamped by the clamping and dragging assembly 63, so that the efficiency of paper board output on the paper board taking and placing mechanism 6 can be effectively improved, and the efficiency of tile packaging can be effectively improved by the paper board placing device.

As shown in fig. 1 and 3, the swing limiting assembly 7 includes a driving cylinder 71 and a swing blocking frame 72, the middle of the swing blocking frame 72 is hinged and fixed, and one end of the swing blocking frame 72 is disposed at the lower end of the inclined guide frame 62, one end of the driving cylinder 71 is hinged and fixed, and the other end of the driving cylinder 71 is hinged with the other end of the swing blocking frame 72. The swing limiting assembly 7 is very simple and reliable in structure. When the limit is needed, the paper board is prevented from sliding down from the inclined guide frame 62 by swinging one end of the blocking frame 72; when the position limitation is not needed, one end of the swing blocking frame 72 swings away from the lower end of the inclined guide frame 62, so that the paper board can be ensured to smoothly slide down from the inclined guide frame 62.

The inclined guide frame 62, the driving cylinder 71 and the swing blocking frame 72 are arranged on the same frame (not shown in the figure), so that the installation and positioning requirements of the inclined guide frame 62, the driving cylinder 71 and the swing blocking frame 72 can be met.

As shown in fig. 1 and 3, a limiting guide plate body 8 is arranged above the lower end of the inclined guide frame 62, the limiting guide plate body 8 includes an upper inclined plate 81, a lower inclined plate 82 and a vertical plate 83, the upper inclined plate 81 is arranged in a manner of being perpendicular to the guide inclined surface 621 of the inclined guide frame 62, the lower inclined plate 82 is arranged in a manner of being parallel to the guide inclined surface 621 of the inclined guide frame 62, the lower inclined plate 82 is located below the upper inclined plate 81, and the upper end and the lower end of the vertical plate 83 are respectively connected with the lower end of the upper inclined plate 81 and the upper end of the lower inclined plate 82. This spacing deflector body 8 can reach very good limiting displacement to the cardboard to make the cardboard can accurately enter into on cardboard bracket 1, this reliability that helps improving the putting cardboard device. And the structure of the limiting guide plate body 8 is very simple, and the limiting guide plate body is very convenient to manufacture.

As shown in fig. 1, a supporting inclined plane 11 is provided on the cardboard bracket 1, the supporting inclined plane 11 is disposed below the front conveying mechanism 2, the inclined direction of the supporting inclined plane 11 is the same as the inclined direction of the inclined guide frame 62, and a limit stopper 12 is provided at the lower end of the supporting inclined plane 11. Through such structural design, enable cardboard bracket 1 to reach better cardboard bearing effect to help further improving this reliability of putting the cardboard device.

As shown in fig. 1, a slope frame 13 is disposed above the supporting slope 11. This allows a better stop of the cardboard to be obtained, so as to accurately limit it on the bearing ramp 11, which also contributes to further increase the reliability of the cardboard-laying device.

As shown in fig. 1, the upper end of the cardboard carrier 1 is curved toward the rear feeding mechanism 3, and the upper end of the inclined barrier 13 is curved toward the front feeding mechanism 2. Between the upper end of cardboard bracket 1 and sloping fender frame 13 like this, can form the horn mouth, this can make things convenient for the cardboard to enter into between cardboard bracket 1 and the sloping fender frame 13 to help improving convenience and the smoothness nature that the cardboard got into.

Claims (10)

1. The utility model provides a ceramic tile packing is with putting cardboard device, includes cardboard bracket (1), preceding conveying mechanism (2), back conveying mechanism (3), the input of back conveying mechanism (3) is close to the output setting of preceding conveying mechanism (2), before arranging in cardboard bracket (1) between conveying mechanism (2) and back conveying mechanism (3), its characterized in that: the device also comprises a lifting rolling mechanism (4), wherein the lifting rolling mechanism (4) is arranged above the input end of the rear conveying mechanism (3).

2. A sheet placement device for packaging ceramic tiles according to claim 1, characterized in that: and a lifting rolling mechanism (4) is also arranged above the output end of the front conveying mechanism (2).

3. A tile placing board device for packaging ceramic tiles according to claim 1 or 2, characterized in that: lifting rolling mechanism (4) are including lift cylinder (41), mounting bracket (42), rolling wheel (43), lift cylinder (41) are vertical layout, mounting bracket (42) set up on the activity of lift cylinder (41) is served, rolling wheel (43) set up on mounting bracket (42).

4. A sheet placement device for packaging ceramic tiles according to claim 1, characterized in that: still include storage rack (5), get and put cardboard mechanism (6), storage rack (5) are arranged by the side of preceding conveying mechanism (2), get and put cardboard mechanism (6) and arrange between cardboard bracket (1) and storage rack (5).

5. A tile placement machine for packaging ceramic tiles according to claim 4, characterized in that: get and put cardboard mechanism (6) and drag subassembly (63) including lift suction disc subassembly (61), oblique leading truck (62), centre gripping, lift suction disc subassembly (61) sets up the top at storage rack (5), the top at back conveying mechanism (3) is arranged to oblique leading truck (62) to the lower extreme that makes oblique leading truck (62) is towards cardboard bracket (1), centre gripping drags subassembly (63) to be arranged and is being gone up and down between suction disc subassembly (61) and oblique leading truck (62).

6. A tile placement machine for packaging ceramic tiles according to claim 5, characterized in that: the swing limiting device is characterized by further comprising a swing limiting assembly (7), wherein the swing limiting assembly (7) is arranged on the lower end of the inclined guide frame (62).

7. A tile placement machine for packaging ceramic tiles according to claim 6, characterized in that: the swing limiting assembly (7) comprises a driving cylinder (71) and a swing blocking frame (72), the middle of the swing blocking frame (72) is hinged and fixed, one end of the swing blocking frame (72) is arranged at the lower end of the inclined guide frame (62), one end of the driving cylinder (71) is hinged and fixed, and the other end of the driving cylinder (71) is hinged with the other end of the swing blocking frame (72).

8. A tile placing board device for packaging ceramic tiles according to any one of claims 5 to 7, wherein: the top of oblique leading truck (62) lower extreme is equipped with spacing deflector body (8), spacing deflector body (8) include swash plate (81), down swash plate (82), riser (83), it arranges to go up guide inclined plane (621) that swash plate (81) are perpendicular oblique leading truck (62), down swash plate (82) are parallel oblique leading truck (62) guide inclined plane (621) and arrange to make down swash plate (82) be located the below of swash plate (81), the upper and lower end of riser (83) meets with the lower extreme of last swash plate (81), the upper end of down swash plate (82) respectively.

9. A sheet placement device for packaging ceramic tiles according to claim 1, characterized in that: be equipped with bearing inclined plane (11) on cardboard bracket (1) to make bearing inclined plane (11) arrange the below of preceding conveying mechanism (2) in, still make the incline direction on bearing inclined plane (11) the same with the incline direction of oblique leading truck (62), the lower extreme of bearing inclined plane (11) is equipped with limit stop (12).

10. A sheet placement device for packaging ceramic tiles according to claim 9, characterized in that: an inclined baffle frame (13) is arranged above the bearing inclined plane (11).

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