CN109319500B

CN109319500B - Large tile lifting and turning machine

Info

Publication number: CN109319500B
Application number: CN201811220703.XA
Authority: CN
Inventors: 丁国友
Original assignee: FOSHAN JINBAILI ELECTROMECHANICAL CO LTD
Current assignee: FOSHAN JINBAILI ELECTROMECHANICAL CO LTD
Priority date: 2018-10-19
Filing date: 2018-10-19
Publication date: 2024-03-22
Anticipated expiration: 2038-10-19
Also published as: CN109319500A

Abstract

The invention relates to a large tile lifting U-turn machine, which at least comprises a rotating part, a conveying part and a lifting part; the rotating part comprises a rotating power device, a base and a rotating disc; the rotary disk is hinged with the base, and the rotary power device is fixedly arranged on the base and can drive the rotary disk to rotate; the conveying part comprises a conveying power device, a conveying frame and at least two rollers, the conveying power device is fixedly arranged on the conveying frame, the rollers are respectively hinged with the conveying frame, and each roller is driven to rotate by the conveying power device; the lifting part comprises a lifting power device and a lifting disc. The invention has higher universality and can continuously turn large ceramic tiles; the strip-shaped indentations perpendicular to each other are formed on the bottom surface of the large ceramic tile before firing, so that the flatness of the large ceramic tile before firing is guaranteed, and the large ceramic tile before firing is not easy to bend and deform; the disassembly and the installation of the cylinder body are convenient.

Description

Large tile lifting and turning machine

Technical Field

The invention relates to a large tile lifting and turning machine.

Background

Currently, ceramic market tile varieties are updated day by day, and large-sized tiles (such as 900X1800mm large-sized tiles) newly developed by various companies gradually become market-free products.

As shown in fig. 1, the conventional turning and turning device for tiles can only convey the transverse large tile W1 outputted from the large-sized tile press 7 into the drying/firing kiln 9 in a transverse posture, which is disadvantageous for the firing quality of the large tile (for example, the conveying roller forms a slight transverse strip indentation on the large tile, and the slight transverse strip indentation is deepened all the way from the large-sized tile press 7 to the drying/firing kiln 9, resulting in reduced flatness and easy bending deformation of the large tile in the drying/firing kiln 9).

However, at present, the equipment of ceramic manufacturers still can only produce small ceramic tiles, and the ceramic production equipment needs to be replaced or upgraded to meet the requirements of producing large ceramic tiles.

Among ceramic production equipment that needs replacement or upgrading, turning and turning equipment of tiles is one of the more important equipment. Therefore, a large tile lifting and turning machine which can turn a large tile and has high versatility is required.

In addition, a roller for conveying large tiles is required to be detached and cleaned frequently, and a large tile lifting and turning machine convenient for detaching the roller is required.

Disclosure of Invention

In order to solve the problems, the invention aims to provide a large tile lifting and turning machine which has high universality and can continuously turn large tiles.

The invention adopts the following detailed technical scheme: the large tile lifting U-turn machine at least comprises a rotating part, a conveying part and a lifting part; the rotating part comprises a rotating power device, a base and a rotating disc; the rotary disk is hinged with the base, and the rotary power device is fixedly arranged on the base and can drive the rotary disk to rotate; the conveying part comprises a conveying power device, a conveying frame and at least two rollers, the conveying power device is fixedly arranged on the conveying frame, the rollers are respectively hinged with the conveying frame, and each roller is driven to rotate by the conveying power device; the lifting part comprises a lifting power device and a lifting disc, wherein the fixed end of the lifting power device is fixedly connected with the rotating disc, and the extension end of the lifting power device is fixedly connected with the conveying frame.

Further, the input end of the large tile lifting and turning machine and the output end of the large tile lifting and turning machine are all power rollers which are perpendicular to each other.

The strip-shaped indentations perpendicular to each other are formed on the bottom surface of the large ceramic tile before firing, so that the flatness of the large ceramic tile before firing is guaranteed, and the large ceramic tile before firing is not easy to bend and deform.

As a preferred embodiment, the base is round when seen from top, the base comprises a base frame, a brake motor with a rotating power device of 1.5-3.7kw is fixedly arranged on the base frame, a rotating speed reducer is arranged at the rotating output end of the rotating power device, the rotating power device also comprises a rotating gear and a rotating bearing, the rotating gear is hinged with the base frame through the rotating bearing, and the rotating output end of the rotating speed reducer is meshed with the rotating gear; the rotating disc is fixedly connected with the rotating gear, and the axis of the rotating gear is coincident with the axis of the base.

As a preferred embodiment, the conveying part further comprises a conveying transmission device, wherein the conveying transmission device comprises a transmission shaft, a transmission gear and an intermediate gear; the conveying power device is a gear motor fixedly arranged at the bottom end of the conveying frame, one end of each roller is provided with a roller gear, one end of each transmission shaft is fixedly connected with the rotary output end of the conveying power device, the other end of each transmission shaft is fixedly connected with each transmission gear, the intermediate gear is hinged to the conveying frame, the transmission gears are meshed with one of the intermediate gears, and the intermediate gears are meshed with two adjacent roller gears respectively.

The structure has higher reliability, and simultaneously can ensure that each roller completely rotates synchronously and ensure the conveying effect on large ceramic tiles.

Further, the rotary disk frame comprises at least two stabilizing devices, a base top frame is arranged on the base frame in an outward extending mode, a round rotary disk frame is arranged on the rotary disk in an outward extending mode, a rotary disk bottom frame is arranged on the rotary disk frame in a downward extending mode, the stabilizing devices are uniformly fixed on the rotary disk frame around the axis of the rotary disk frame, and each stabilizing device is opposite to the base top frame.

The lifting disc is stable and can not shake, so that the flatness of the large ceramic tile before manufacturing is guaranteed.

Preferably, the two sides of the conveying frame are fixedly provided with a bearing seat and a mounting plate respectively, the mounting plate is provided with a mounting bayonet, and the top end of the mounting bayonet is communicated with the outside; the cylinder includes barrel, installation head and articulated head, and the installation head is fixed to be provided with the gear post, and the other end of gear post passes bearing frame and cylinder gear fixed connection, and the one end and the articulated head detachably of barrel are connected, and the installation head inserts the other end of barrel with laminating, and the articulated head articulates there is the installation card post, and the section of installation card post, the section of installation bayonet socket are the rectangle, and installation card post card goes into the installation bayonet socket.

The cylinder body and the mounting head can be detached, so that the cylinder body can be cleaned, maintained or replaced conveniently.

Further, the cylinder still includes the jump ring, and the one end and the articulated head fixed connection of jump ring are provided with the jump ring and insert the head with inwards extending of the other end of jump ring, and the articulated head is provided with columniform inner chamber, and the one end that the barrel is connected with the articulated head is for inserting the end, inserts the inner chamber of inserting the articulated head with laminating, and articulated head, inserted the end all are provided with the jump ring mouth that runs through, and the jump ring inserts the head and blocks into the jump ring mouth of articulated head in proper order, inserts the jump ring mouth of end, and the width of jump ring insert head equals with the width of jump ring mouth.

The cylinder body and the mounting head can be detached without tools, so that the cylinder body can be cleaned, maintained or replaced conveniently; meanwhile, the flatness of the large ceramic tile before manufacturing is guaranteed.

Preferably, the cross section of the snap spring insertion head is triangular.

When the insertion end paste is inserted into the inner cavity of the hinge joint, the snap spring insertion head can play a guiding role, so that the installation of the cylinder body is facilitated.

Compared with the prior art, the invention has the following beneficial effects: 1. the universality is high, and the large ceramic tile can be continuously turned; 2. the strip-shaped indentations perpendicular to each other are formed on the bottom surface of the large ceramic tile before firing, so that the flatness of the large ceramic tile before firing is guaranteed, and the large ceramic tile before firing is not easy to bend and deform; 3. the disassembly and the installation of the cylinder body are convenient.

Drawings

Fig. 1 is a top view of a prior art large tile production line. In fig. 1, the thick dotted arrow indicates the transport direction of the large tile.

Fig. 2 is a schematic top view of a large tile production line using the large tile elevator and U-turn machine of the present invention. In fig. 2, the thick dotted arrow indicates the transport direction of the large tile.

Fig. 3 is a schematic perspective view of a large tile lift and turn-around machine according to the present invention.

Fig. 4 is a schematic top view of the large tile lift u-turn machine of the present invention.

Fig. 5 is a schematic side view of a large tile lift and turn around machine in accordance with the present invention.

FIG. 6 is a schematic view of section II-II of FIG. 5.

FIG. 7 is a schematic perspective view of section I-I of FIG. 4.

Fig. 8 is an enlarged perspective view of the drum 23.

Fig. 9 is an enlarged exploded perspective view of the drum 23.

Fig. 10 is an enlarged semi-sectional schematic view at the drum 23.

A rotating unit 1; a rotary power unit 11; a rotation speed reducer 111; a rotation gear 112; a rotating bearing 113; a base 12; a base frame 121; a base top frame 122; a support leg 123; a base shield 124; a rotating disc 13; a rotating disc frame 131; a rotary disk bottom frame 132; a rotary disc shield 133; a conveying section 2; a conveying power device 21; a conveying frame 22; a bearing support 221; a mounting plate 222; mounting bayonet 223; a roller 23; a roller gear 231; a cylinder 232; insertion end 2321; a hinge 233; gear post 2331; a limit table 2332; a mounting head 234; mounting a clamping column 2341; snap springs 235; a clip spring insertion head 2351; clip spring opening 2352; a conveying transmission 24; a transmission shaft 241; a transmission gear 242; an intermediate gear 243; a lifting part 3; a lifting power device 31; a lifting plate 32; a securing means 33; a lifting rail 34; a large brick press 7; a conveyor line 8; a power roller way 81; a conveyor belt 82; a drying/firing kiln 9; a transverse large ceramic tile W1; longitudinal large tile W2.

Detailed Description

The technical scheme of the invention will be described below with reference to the accompanying drawings.

The invention relates to a large tile lifting and turning machine, which at least comprises a rotating part 1, a conveying part 2 and a lifting part 3.

The rotating section 1 includes a rotation power device 11, a base 12, and a rotating disk 13; the rotary disk 13 is hinged with the base 12, and the rotary power device 11 is fixedly arranged on the base 12 and can drive the rotary disk 13 to rotate. As a preferred embodiment, the base 12 is circular when seen from a top view, the base 12 comprises a base frame 121, the rotary power device 11 is a brake motor of 1.5-3.7kw, the rotary power device 11 is fixedly arranged on the base frame 121, a rotary speed reducer 111 is arranged at a rotary output end of the rotary power device 11, the rotary power device 11 also comprises a rotary gear 112 and a rotary bearing 113, the rotary gear 112 is hinged with the base frame 121 through the rotary bearing 113, and a rotary output end of the rotary speed reducer 111 is meshed with the rotary gear 112; the rotary disk 13 is fixedly connected with the rotary gear 112, and the axis of the rotary gear 112 coincides with the axis of the base 12.

The conveying part 2 comprises a conveying power device 21, a conveying frame 22 and at least two rollers 23, wherein the conveying power device 21 is fixedly arranged on the conveying frame 22, the rollers 23 are respectively hinged with the conveying frame 22, and each roller 23 is driven to rotate by the conveying power device 21. As a preferred embodiment, the conveying part 2 further comprises a conveying transmission device 24, and the conveying transmission device 24 comprises a transmission shaft 241, a transmission gear 242 and an intermediate gear 243; the conveying power device 21 is a gear motor fixedly arranged at the bottom end of the conveying frame 22, one end of each roller 23 is provided with a roller gear 231, one end of a transmission shaft 241 is fixedly connected with the rotary output end of the conveying power device 21, the other end of the transmission shaft 241 is fixedly connected with a transmission gear 242, an intermediate gear 243 is hinged on the conveying frame 22, the transmission gear 242 is meshed with one of the intermediate gears 243, and the intermediate gears 243 are respectively meshed with two adjacent roller gears 231. The reliability of this structure is higher, can guarantee simultaneously that each cylinder 23 rotates in step completely [ compare in chain drive's mode, the chain needs to reserve certain length in order to install on the sprocket, can't guarantee cylinder 23 and rotate in step completely, [ guarantee can not be prolonged or press to shorten because of cylinder 23 synchronous rotation is asynchronous, leads to the conveying effect relatively poor ] to the conveying effect of large-scale ceramic tile.

The lifting part 3 comprises a lifting power device 31 and a lifting disk 32, wherein the fixed end of the lifting power device 31 is fixedly connected with the rotating disk 13, and the extension end of the lifting power device 31 is fixedly connected with the conveying frame 22. The lifting power device 31 is a telescopic power device, and is typically a cylinder, such as an SC-250 type cylinder. In general, the lifting unit 3 further includes a lifting rail 34, and the slider of the lifting rail 34 and the lifting rail 34 are respectively connected to the lifting disk 32 and the rotating disk 13, so as to ensure that the lifting disk 32 does not skew and can be lifted smoothly.

The working principle of the large tile lifting U-turn machine is as follows: before use, the large tile lifting and turning machine is placed at the corner of a large tile production line, and then is controlled (by a conventional control mode, such as an electromagnetic valve electrically connected with a PLC or an industrial computer, etc.) to lift the lifting power device 31 until the roller 23 is level with the large tile production line. The roller 23 can be aligned with the large-sized tile production line by adjusting the length of the lifting power device 31 according to different large-sized tile production lines, namely, the universality is higher.

When the horizontal large tile W1 output from the large brick press 7 is conveyed to the roller 23 in use, the conveying power device 21 is controlled (usually, the conveying power device 21 is electrically connected with an electric frequency device by a conventional control mode such as a relay electrically connected with a PLC or an industrial computer, etc.), the driving roller 23 is started to rotate and convey the large tile until the large tile completely enters the conveying part 2, then the conveying power device 21 is controlled to stop, meanwhile, the rotating power device 11 is controlled to start to drive the conveying part 2 to rotate, so that the horizontal large tile W1 is changed into a longitudinal large tile W2, and then the conveying power device 21 is controlled to start the driving roller 23 to rotate and convey the large tile until the large tile is completely output from the conveying part 2. The process is repeated to continuously turn the large ceramic tile.

Preferably, the input end of the large tile lifting and turning machine and the output end of the large tile lifting and turning machine are all power rollers (i.e. the axes of the rollers on the power rollers are mutually perpendicular). The strip-shaped indentations perpendicular to each other are formed on the bottom end surface of the large ceramic tile before firing after passing through the input end of the large ceramic tile lifting and turning machine, the conveying part 2 and the output end of the large ceramic tile lifting and turning machine in sequence, so that the flatness of the large ceramic tile before firing is guaranteed, and the large ceramic tile before firing is not easy to bend and deform.

The large tile lifting U-turn machine of the invention further comprises at least two stabilizing devices 33, a base top frame 122 is arranged on the base frame 121 in an outward extending manner, a rotary disc frame 131 with a round shape (round shape when seen from the top) is arranged on the rotary disc 13 in an outward extending manner, a rotary disc bottom frame 132 is arranged on the rotary disc frame 131 in a downward extending manner, the stabilizing devices 33 are uniformly fixed on the rotary disc frame 131 around the axis of the rotary disc frame 131, each stabilizing device 33 is opposite to the base top frame 122, and the projection of the stabilizing device 33 on the top end face of the base top frame 122 is completely positioned in the top end face of the base top frame 122. The securing device 33 is a telescopic power device, such as a cylinder. When the rotation power device 11 stops running, the stabilizer 33 is controlled to extend to abut against the base top frame 122 in a conventional control manner, such as an electromagnetic valve electrically connected with a PLC or an industrial computer, so that the lifting disk 32 is relatively stable and can not shake (shake caused by machining errors of mechanical parts), which is beneficial to ensuring the flatness of the large ceramic tile before manufacturing.

Preferably, bearing seats 221 and mounting plates 222 are fixedly arranged on two sides of the conveying frame 22 respectively, mounting plates 222 are provided with mounting bayonets 223, and the top ends of the mounting bayonets 223 are communicated with the outside; the drum 23 includes a drum 232, an installation head 234 and a hinge 233, the installation head 234 is fixedly provided with a gear column 2331, the other end of the gear column 2331 passes through the bearing seat 221 and is fixedly connected with the drum gear 231, one end of the drum 232 is detachably connected with the hinge 233 [ for example, detachable connection is realized through fasteners such as screws and the like ], the installation head 234 is inserted into the other end of the drum 232 in a fitting manner [ the installation head 234 can translate along the axis of the drum 232 ], the hinge 233 is hinged with an installation clamping column 2341, the section of the installation clamping column 2341 and the section of the installation clamping opening 223 are rectangular, and the installation clamping column 2341 is clamped into the installation clamping opening 223. When the roller 23 needs to be disassembled, the mounting head 234 is pushed to enable the mounting clamping posts 2341 to slide out of the mounting bayonets 223, so that the roller 232 and the mounting head 234 can be disassembled, and the roller 232 can be cleaned, maintained or replaced conveniently.

Preferably, the roller 23 further includes a clamp spring 235, one end of the clamp spring 235 is fixedly connected with the hinge joint 233, the other end of the clamp spring 235 is provided with a clamp spring inserting head 2351 extending inwards (i.e. toward the axis of the roller 23), the hinge joint 233 is provided with a cylindrical inner cavity, one end of the cylinder 232 connected with the hinge joint 233 is an inserting end 2321, the inserting end 2321 is inserted into the inner cavity of the hinge joint 233 in a fitting manner, the hinge joint 233 and the inserting end 2321 are both provided with a clamp spring opening 2352 penetrating through, the clamp spring inserting head 2351 is sequentially clamped into the clamp spring opening 2352 of the hinge joint 233 and the clamp spring opening 2352 of the inserting end 2321, and the width of the clamp spring inserting head 2351 is equal to the width of the clamp spring opening 2352, so that one end of the cylinder 232 is detachably connected with the hinge joint 233. When the roller 23 needs to be disassembled, the mounting head 234 is pushed to enable the mounting clamping post 2341 to slide out of the mounting bayonet 223, the insertion end 2321 is forcibly pulled out of the inner cavity of the hinge 233, and the cylinder 232 and the mounting head 234 can be disassembled without tools, so that the cylinder 232 is convenient to clean, maintain or replace. Meanwhile, the width of the clamp spring inserting head 2351 is equal to that of the clamp spring opening 2352, and no gap exists between the clamp spring inserting head 2351 and the clamp spring opening 2352 [ no gap exists in the width direction ], so that the hinge joint 233 can be guaranteed not to shake when the cylinder 232 is driven to rotate, and flatness of a large ceramic tile before manufacturing can be guaranteed.

Preferably, the snap spring insert 2351 is triangular in cross section. When the insertion end 2321 is stuck and inserted into the inner cavity of the hinge joint 233, the clamp spring insertion head 2351 can play a guiding role, so that the installation of the cylinder 232 is facilitated [ the installation process needs to reset the installation head 234 ]; the snap spring 235 does not abut the insertion end 2321 such that the insertion end 2321 cannot be inserted into the cavity of the joint 233.

It is to be understood that the terms "center," "longitudinal," "transverse," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like indicate orientations or positional relationships based on the orientation or positional relationships shown in the drawings, merely to facilitate describing the invention and simplify the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be configured and operated in a particular orientation, and thus should not be construed as limiting the scope of the invention.

The above embodiments are only preferred embodiments of the present invention, and are not intended to limit the present invention, but any modifications, equivalent substitutions, improvements, etc. within the spirit and principles of the present invention should be included in the scope of the present invention.

Claims

1. Large tile lifting U-turn machine, which is characterized in that: comprises at least a rotating part (1), a conveying part (2) and a lifting part (3); the rotating part (1) comprises a rotating power device (11), a base (12) and a rotating disc (13); the rotary disk (13) is hinged with the base (12), and the rotary power device (11) is fixedly arranged on the base (12) and can drive the rotary disk (13) to rotate; the conveying part (2) comprises a conveying power device (21), a conveying frame (22) and at least two rollers (23), wherein the conveying power device (21) is fixedly arranged on the conveying frame (22), the rollers (23) are respectively hinged with the conveying frame (22), and each roller (23) is driven to rotate by the conveying power device (21); the lifting part (3) comprises a lifting power device (31) and a lifting disc (32), the fixed end of the lifting power device (31) is fixedly connected with the rotary disc (13), and the extension end of the lifting power device (31) is fixedly connected with the conveying frame (22);

the input end of the large tile lifting U-turn machine and the output end of the large tile lifting U-turn machine are power rollers which are perpendicular to each other;

the base (12) is circular in plan view, the base (12) comprises a base frame (121), a brake motor with a rotary power device (11) of 1.5-3.7kw, the rotary power device (11) is fixedly arranged on the base frame (121), a rotary speed reducer (111) is arranged at the rotary output end of the rotary power device (11), the rotary power device (11) further comprises a rotary gear (112) and a rotary bearing (113), the rotary gear (112) is hinged with the base frame (121) through the rotary bearing (113), and the rotary output end of the rotary speed reducer (111) is meshed with the rotary gear (112); the rotary disk (13) is fixedly connected with the rotary gear (112), and the axle center of the rotary gear (112) is superposed with the axle center of the base (12);

the conveying part (2) also comprises a conveying transmission device (24), and the conveying transmission device (24) comprises a transmission shaft (241), a transmission gear (242) and an intermediate gear (243); the conveying power device (21) is a reducing motor fixedly arranged at the bottom end of the conveying frame (22), one end of each roller (23) is provided with a roller gear (231), one end of a transmission shaft (241) is fixedly connected with the rotary output end of the conveying power device (21), the other end of the transmission shaft (241) is fixedly connected with a transmission gear (242), an intermediate gear (243) is hinged on the conveying frame (22), the transmission gear (242) is meshed with one of the intermediate gears (243), and the intermediate gears (243) are respectively meshed with two adjacent roller gears (231);

the rotary table comprises a base frame (121), a rotary table frame (131), a rotary table frame (132) and at least two stabilizing devices (33), wherein the base frame (121) is provided with a base top frame (122) in an outward extending mode, the rotary table frame (13) is provided with a round rotary table frame (131) in an outward extending mode, the rotary table frame (131) is provided with a rotary table bottom frame (132) in a downward extending mode, the stabilizing devices (33) are uniformly fixed on the rotary table frame (131) around the axis of the rotary table frame (131), and each stabilizing device (33) is opposite to the base top frame (122);

bearing seats (221) and mounting plates (222) are fixedly arranged on two sides of the conveying frame (22), mounting plates (222) are provided with mounting bayonets (223), and the top ends of the mounting bayonets (223) are communicated with the outside; the roller (23) comprises a roller body (232), an installation head (234) and a hinge joint (233), wherein the installation head (234) is fixedly provided with a gear column (2331), the other end of the gear column (2331) penetrates through a bearing seat (221) to be fixedly connected with a roller gear (231), one end of the roller body (232) is detachably connected with the hinge joint (233), the installation head (234) is inserted into the other end of the roller body (232) in a fitting manner, the hinge joint (233) is hinged with an installation clamping column (2341), the section of the installation clamping column (2341) and the section of an installation bayonet (223) are rectangular, and the installation clamping column (2341) is clamped into the installation bayonet (223);

the cylinder (23) still includes jump ring (235), the one end and articulated head (233) fixed connection of jump ring (235), the other end of jump ring (235) inwards extends to be provided with jump ring insertion head (2351), articulated head (233) are provided with columniform inner chamber, the one end that is connected with articulated head (233) of barrel (232) is inserted end (2321), insert the inner chamber of articulated head (233) with inserting end (2321) laminating, articulated head (233), insert end (2321) all to be provided with jump ring mouth (2352) that run through, jump ring insertion head (2351) block jump ring mouth (2352) of articulated head (233) in proper order, insert jump ring mouth (2352) of end (2321), the width of jump ring insertion head (2351) equals with the width of jump ring mouth (2352).

2. The large tile lift u-turn machine of claim 1 wherein: the section of the snap spring insertion head (2351) is triangular.