CN115092625A

CN115092625A - Nondestructive folding conveying equipment for plate surface and conveying method thereof

Info

Publication number: CN115092625A
Application number: CN202211004580.2A
Authority: CN
Inventors: 刘建雨; 胡松; 陈善伟; 林秩平; 李铭健
Original assignee: Guangdong Boshuo Coating Technology Co ltd
Current assignee: Guangdong Boshuo Coating Technology Co ltd
Priority date: 2022-08-22
Filing date: 2022-08-22
Publication date: 2022-09-23
Anticipated expiration: 2042-08-22
Also published as: CN115092625B

Abstract

The invention relates to the technical field of conveying, and discloses a nondestructive folding conveying device for a panel surface and a conveying method thereof, wherein the nondestructive folding conveying device comprises a feeding support, a conveying support and a blanking support, wherein a feeding conveying belt is horizontally movable on the feeding support in a transverse interval manner; conveying chains are horizontally and movably arranged on two sides of the conveying support, and conveying bearing brackets are arranged on the conveying chains; a blanking conveying belt is obliquely and movably arranged on the blanking support, and a conversion conveying belt is obliquely and movably arranged between the blanking conveying belt and the conveying chain in a transverse spacing mode; the feeding end of the conveying chain is in conversion fit with the feeding conveying belt; the lowest inclined position of the conversion conveying belt is in conversion fit with the discharge end or the rear part of the conveying chain; the inclined highest position of the conversion conveying belt is matched with the inclined highest position of the blanking conveying belt in a head-to-tail conversion way; the conveying bearing bracket upwards extends to form a bearing part, the bearing part inclines along the opposite direction of plate conveying, and enters the transverse interval between the feeding conveying belt and the conversion conveying belt when the conveying bearing bracket moves, so that the lossless conveying of the coating surface of the plate is realized.

Description

Nondestructive folding conveying equipment for plate surface and conveying method thereof

Technical Field

The invention relates to the technical field of conveying, in particular to a panel surface nondestructive folding conveying device and a conveying method thereof.

Background

Chinese patent document No. CN101603773B discloses a drying unit, a wood floor processing system having the drying unit, and a method for processing wood floors by using the drying unit on 25/4/2012, and the specification thereof describes: the top of the wood floor is restrained by the bars, while the bottom is transferred from the conveyor chain to the output chain, so that the bottom moves at a speed greater than the top. Thus, the wood floor is rotated around the bottom thereof while the top thereof is moved downward relative to the stopper. At this point, the back of the wood floor is separated from the working surface of the pallet set and gradually approaches the output chain. When the wood floor rotates for a certain angle, the top of the wood floor is separated from the stop lever. At this time, the bottom of the wood floor continues to move forward along with the output chain, so that the wood floor continues to rotate. Until finally, the wood floor is completely laid flat on the output chain. At this point, the wood floor is in contact with the output chain with its unpainted back.

The top and the bottom of the wood floor are respectively contacted with the working surface and the output chain of the supporting plate group in the conveying process only by depending on the top and the bottom of the wood floor, although the working surface of the supporting plate group is obliquely arranged, the top of the wood floor is contacted with the wood floor and can be gradually changed into a flat state from the inclined state, the middle position of the wood floor is always in a suspended state in the conveying process, when the unpainted back of the wood floor is contacted with the output chain, the wood floor still impacts the output chain, not only is collision noise generated, but also the wood floor and the output chain can generate vibration or shake problems to influence the conveying stability of the wood floor, and the wood floor and the output chain can be damaged in serious cases.

Therefore, further improvements are necessary.

Disclosure of Invention

The invention aims to provide a sheet surface nondestructive folding conveying device and a conveying method thereof, which overcome the defects in the prior art.

The plate surface nondestructive folding conveying device designed according to the purpose comprises a feeding support, a conveying support and a blanking support which are respectively used for supporting and conveying plates,

and a feeding conveying belt is horizontally movable on the feeding support at a transverse interval.

Conveying chains are horizontally and movably arranged on two sides of the conveying support, and conveying bearing brackets are arranged on the conveying chains.

The blanking support is provided with a blanking conveying belt in an inclined movement mode, and the blanking conveying belt and the conveying chain are provided with a conversion conveying belt in a transverse interval type inclined movement mode.

The feeding end of the conveying chain is in conversion fit with the feeding conveying belt; the lowest inclined position of the conversion conveying belt is in conversion fit with the discharge end of the conveying chain or the rear part of the conveying chain; and the inclined highest position of the conversion conveying belt is matched with the inclined highest position of the blanking conveying belt in an end-to-end conversion manner.

The conveying and supporting bracket extends upwards to form a supporting part for supporting the non-coating surface of the plate, the supporting part is obliquely arranged along the opposite direction of conveying the plate and enters the transverse space between the feeding conveying belt and the conversion conveying belt when the conveying and supporting bracket moves.

The length that the supporting part extends to set up with feeding conveyer belt, conversion conveyer belt sets up the length ratio and is 1: 3-1: 1.

the conveying support is horizontally and fixedly arranged and is provided with a conveying driving device; the two conveying chains are respectively wound at the front and rear positions of the conveying support and are in driving connection with the conveying driving device.

The conveying support bracket is provided with a plurality of conveying support brackets, the plurality of conveying support brackets are respectively provided with a transverse connecting rod, and the plurality of conveying support brackets are arranged at intervals along the conveying direction of the plates and are respectively and transversely fixed between the two conveying chains through the transverse connecting rods.

The supporting part is n-shaped or M-shaped, the bottom of the supporting part is fixedly connected with the transverse connecting rod, the top of the supporting part is also provided with an auxiliary supporting part, and the auxiliary supporting part is arc-shaped and is used for carrying out auxiliary supporting on the non-coating surface of the plate when the plate leaves the supporting part; the supporting part is also provided with a bottom supporting piece in an adjustable way; the non-coating surface of the plate is respectively placed on the supporting part and the bottom supporting piece and is obliquely conveyed on the conveying chain.

The conveying driving device comprises a conveying driving motor, a main conveying driving shaft, a first transmission conveying driving shaft, a second transmission conveying driving shaft and a third transmission conveying driving shaft, wherein gears are fixedly arranged on the main conveying driving shaft, the first transmission conveying driving shaft, the second transmission conveying driving shaft and the third transmission conveying driving shaft respectively.

The conveying driving motor is fixedly arranged on the conveying support, and the power output end of the conveying driving motor is in driving connection with the main conveying driving shaft; the main conveying driving shaft and the first transmission conveying driving shaft are respectively and rotatably arranged below and above the discharging end of the conveying support; the second transmission conveying driving shaft and the third transmission conveying driving shaft are respectively and rotatably arranged above and below the feeding end of the conveying support; the two conveying chains are respectively wound on gears of the main conveying driving shaft, the first transmission conveying driving shaft, the second transmission conveying driving shaft and the third transmission conveying driving shaft.

And the two ends of the conveying support corresponding to the second transmission conveying driving shaft and the third transmission conveying driving shaft are respectively provided with a conveying shaft driving assembly, and the conveying shaft driving assembly comprises a conveying shaft cylinder, a conveying shaft sliding support and a conveying shaft sliding guide rail.

The conveying shaft cylinder is fixedly arranged on the conveying support, and the power output end of the conveying shaft cylinder is in driving connection with the conveying shaft sliding support; the conveying shaft sliding guide rail is fixedly arranged on the conveying bracket; the second transmission conveying driving shaft and the third transmission conveying driving shaft are rotatably arranged on the conveying shaft sliding support; carry and be provided with on the axle sliding bracket and carry the axle sliding block, and pass through carry the axle sliding block fore-and-aft slip to be in carry on the axle sliding guide, in order to adjust carry the rate of tension of chain.

And the feeding support is provided with a feeding bearing frame and a feeding driving device.

The feeding bearing frames are horizontally fixed on the feeding support in a transverse spacing mode, and the front end and the rear end of each feeding bearing frame are respectively and rotatably provided with a feeding conveying belt driving roller and a feeding conveying belt driven roller; the number of the feeding conveyer belts is the same as that of the feeding bearing frames, and the feeding conveyer belts are wound on the driving roller of the feeding conveyer belt and the driven roller of the feeding conveyer belt.

The feeding driving device comprises a feeding driving motor; a feeding transmission rod is fixedly arranged among the plurality of feeding conveying belt driving rollers; the feeding driving motor is fixedly arranged on the feeding support, and the power output end of the feeding driving motor is in driving connection with the feeding transmission rod through a gear and a rack so as to drive the feeding conveying belt to rotate on the feeding bearing frame.

The feeding bearing frame is also provided with a feeding adjusting chute corresponding to the feeding conveyer belt driven roller; the adjustable front and back movement of the driven idler wheel of the feeding conveying belt is in the feeding adjusting chute so as to adjust the tension degree of the feeding conveying belt.

And the blanking support is provided with a blanking bearing frame, a conversion bearing frame and a blanking driving device.

The blanking bearing frames are transversely and obliquely fixed at the discharge end of the blanking support at intervals, and the front end and the rear end of each blanking bearing frame are respectively and rotatably provided with a driving roller of a blanking conveying belt and a driven roller of the blanking conveying belt; the number of the blanking conveyer belts is the same as that of the blanking bearing frames, and the blanking conveyer belts are wound on the driving idler wheels and the driven idler wheels of the blanking conveyer belts; the conversion bearing frames are transversely and obliquely fixed at the feeding end of the blanking bracket at intervals, and the front end and the rear end of each conversion bearing frame are respectively and rotatably provided with a conversion conveying belt driving roller and a conversion conveying belt driven roller; the number of the conversion conveying belts is the same as that of the conversion bearing frames, and the conversion conveying belts are wound on the conversion conveying belt driving idler wheels and the conversion conveying belt driven idler wheels.

The blanking support is also provided with an adjusting support cylinder, a blanking positioning plate and a positioning plate driving cylinder; the adjusting support cylinder is fixedly arranged on the blanking support, and the power output end of the adjusting support cylinder is in driving connection with the middle of the blanking bearing frame and/or the conversion bearing frame; the blanking bearing frame and/or the conversion bearing frame are driven by the adjusting support cylinder to swing on the blanking bracket; the positioning plate driving cylinder is fixedly arranged at the discharging end of the blanking bracket, and the power output end of the positioning plate driving cylinder is in driving connection with the blanking positioning plate; the blanking positioning plate is driven by the positioning plate driving cylinder to turn over at the discharging end of the blanking support and carries out blanking positioning on the plate.

Linkage rods are arranged among the plurality of blanking conveyer belt driven rollers and the plurality of conversion conveyer belt driving rollers; the blanking driving device comprises a conversion driving motor, the conversion driving motor is fixedly arranged on the blanking support, and the power output end of the conversion driving motor is in driving connection with the linkage rod through a gear and a rack so as to simultaneously drive the blanking conveying belt and the conversion conveying belt to respectively rotate on the blanking bearing frame and the conversion bearing frame.

Or linkage rods are arranged among the plurality of blanking conveyer belt driven rollers and the plurality of conversion conveyer belt driving rollers; a blanking transmission rod is arranged between the plurality of active rollers of the blanking conveying belt; the blanking driving device comprises a conversion driving motor and a blanking driving motor which output the same power; the conversion driving motor is fixedly arranged on the blanking support, the power output end of the conversion driving motor is in driving connection with the linkage rod through a gear and a rack, the blanking driving motor is fixedly arranged on the blanking support, the power output end of the conversion driving motor is in driving connection with the blanking transmission rod through the gear and the rack, and the conversion driving rod is used for driving the blanking conveying belt to respectively rotate at the same speed to the blanking bearing frame and the conversion bearing frame.

The conversion bearing frame is also provided with a conversion adjusting chute corresponding to the conversion conveying belt driven roller; the conversion conveyer belt driven roller adjustable activity around is in on the spout is adjusted in the conversion, in order to adjust the rate of tension of conversion conveyer belt.

The blanking bearing frame is also provided with a blanking adjusting roller and a blanking adjusting chute corresponding to the blanking conveying belt; the blanking conveying belt is wound on the blanking adjusting roller; the adjustable type blanking adjusting idler wheel moves up and down on the blanking adjusting chute to adjust the tension degree of the blanking conveying belt.

The plate surface nondestructive folding conveying method comprises the plate surface nondestructive folding conveying equipment and further comprises the following steps:

the method comprises the following steps: manually or mechanically placing the coated plates on the feeding conveyor belt, and gradually conveying the plates towards the feeding end of the conveying support by the driving of the feeding conveyor belt; the upper surface of the plate is a coating surface and faces upwards, and the bottom surface of the plate is a non-coating surface and is supported on the feeding conveyor belt;

step two: the conveying support brackets enter the transverse interval of the feeding conveying belt from bottom to top through the driving of the conveying chain, wherein the support parts are obliquely arranged, so that the bottom support pieces firstly enter the transverse interval of the feeding conveying belt, and the support parts then enter the transverse interval of the feeding conveying belt;

step three: when the plate is conveyed to the feeding end of the conveying support, the inner end part of the plate firstly leans against the bottom support piece, and then the support part integrally supports the non-coating surface of the plate upwards so as to enable the plate to be separated from the feeding conveying belt;

step four: the inner end part of the plate is supported on the bottom support piece, the non-coating surface of the plate obliquely depends on the supporting part, and the plate is gradually conveyed towards the discharge end of the conveying bracket by the driving of the conveying chain;

step five: because the lowest inclined position of the conversion conveying belt is in conversion fit with the discharge end of the conveying chain or the rear part of the conveying chain, the conveying support bracket enters the transverse space of the conversion conveying belt from top to bottom under the driving of the conveying chain, wherein the bottom support member firstly enters the transverse space of the conversion conveying belt, and the support part then enters the transverse space of the conversion conveying belt;

step six: when the plate is conveyed to a position close to the discharge end of the conveying support, the inner end part of the plate is supported on the lowest inclined position of the conversion conveying belt and is separated from the bottom support piece, the plate is gradually conveyed to the highest inclined position of the conversion conveying belt and the blanking conveying belt through the driving of the conversion conveying belt, meanwhile, the non-coating surface of the plate is separated from the supporting part, and the auxiliary supporting part rotatably supports the non-coating surface of the plate through an arc position;

step seven: when the plate is conveyed to the highest inclined position of the blanking conveying belt, the inner end part of the plate leaves the conversion conveying belt, then the non-coating surface of the plate is supported on the blanking conveying belt and is gradually conveyed towards the discharge end of the blanking support through the driving of the blanking conveying belt, and meanwhile, the auxiliary supporting part continuously supports the non-coating surface of the plate in a rotating manner;

step eight: when one-third to two-thirds positions of the non-coating surface of the plate are supported on the blanking conveying belt, the non-coating surface of the plate leaves the auxiliary supporting part and is continuously blanked by the driving of the blanking conveying belt;

step nine: the inner end part of the plate depends on the blanking positioning plate and completes blanking positioning.

Through the improvement of the structure, the invention not only realizes the lossless conveying of the coated surface of the plate, but also can provide continuous and effective support for the non-coated surface of the plate in the conveying process of the plate, thereby avoiding a series of problems of collision, noise, vibration, shake, damage and the like during the conveying of the plate, ensuring the lossless conveying of the coated surface of the plate and simultaneously realizing the stable blanking.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this application, illustrate embodiments of the invention and, together with the description, serve to explain the invention and not to limit the invention.

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

Fig. 1 is a schematic view of an assembly structure according to an embodiment of the present invention.

Fig. 2 is a schematic view of a partially assembled structure of a feeding support and a conveying support according to an embodiment of the invention.

Fig. 3 is a schematic view of a partial assembly structure of a conveying support and a blanking support according to an embodiment of the invention.

Fig. 4 is a partial structure diagram of a feeding end of a conveying support according to an embodiment of the invention.

Fig. 5 is a partial structure diagram of the discharging end of the conveying support according to an embodiment of the invention.

Fig. 6 is a schematic structural view of a feeding support according to an embodiment of the present invention.

Fig. 7 and 8 are schematic diagrams of a blanking bracket structure according to an embodiment of the present invention.

FIG. 9 is a schematic view of a conveyor support structure according to an embodiment of the invention.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention more comprehensible, embodiments accompanying figures are described in detail below. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein.

The invention is further described below with reference to the drawings and examples.

Referring to fig. 1-9, the sheet surface nondestructive folding conveying device comprises a feeding support 2, a conveying support 3 and a blanking support 4 which are respectively used for supporting and conveying a sheet 1.

A feeding conveyer belt 5 is horizontally arranged on the feeding support 2 in a transversely spaced mode.

Conveying chains 6 are horizontally arranged on two sides of the conveying support 3, and conveying support brackets 7 are arranged on the conveying chains 6.

The blanking support 4 is provided with a blanking conveyer belt 8 in an inclined movement mode, and a conversion conveyer belt 9 is arranged between the blanking conveyer belt 8 and the conveyer chain 6 in a transverse interval type inclined movement mode.

The feeding end of the conveying chain 6 is in conversion fit with the feeding conveying belt 5; the lowest inclined position of the conversion conveying belt 9 is in conversion fit with the discharge end of the conveying chain 6 or the rear part of the conveying chain 6; the inclined highest position of the conversion conveying belt 9 is matched with the inclined highest position of the blanking conveying belt 8 in an end-to-end conversion way.

The conveying support bracket 7 extends upwards to form a support part 10 for supporting the non-coating surface of the plate 1, and the support part 10 is obliquely arranged along the opposite conveying direction of the plate 1 and enters the transverse space between the feeding conveying belt 5 and the conversion conveying belt 9 when the conveying support bracket 7 moves.

The embodiment not only realizes the lossless conveying of the coating surface of the plate 1, but also can provide continuous and effective support for the non-coating surface of the plate 1 in the conveying process of the plate 1, thereby avoiding a series of problems of collision, noise, vibration, shaking, damage and the like when the plate 1 is conveyed, and ensuring that the coating surface of the plate 1 can be conveyed in a lossless manner and blanking can be stable.

Specifically, the ratio of the extended length of the supporting part 10 to the length of the feeding conveyer belt 5 and the converting conveyer belt 9 is 1: 3-1: 1.

as shown in fig. 2, the ratio of the extended length of the supporting part 10 to the length of the feeding conveyer belt 5 is 1: 2, so that the bearing parts 10 can effectively bear the position of the non-coated surface of the plate 1 when entering into the transverse space of the feeding conveyer belt 5.

As shown in fig. 3, the ratio of the extended length of the supporting part 10 to the length of the converting conveyor 9 is 3: 4, when the supporting part 10 enters the transverse interval of the conversion conveying belt 9, the conversion conveying belt 9 can support the position of the non-coating surface of the supporting part 10, and simultaneously the supporting part 10 can effectively support the position of the non-coating surface of the plate 1.

The conveying bracket 3 is horizontally and fixedly arranged and is provided with a conveying driving device; the two conveying chains 6 are respectively wound at the front and rear positions of the conveying bracket 3, and the two conveying chains 6 are in driving connection with the conveying driving device.

The conveying and supporting brackets 7 are provided with a plurality of transverse connecting rods 11, the plurality of conveying and supporting brackets 7 are respectively provided with the transverse connecting rods 11, and the plurality of conveying and supporting brackets 7 are arranged at intervals along the conveying direction of the plate 1 and are respectively and transversely fixed between the two conveying chains 6 through the transverse connecting rods 11.

The supporting part 10 is n-shaped or M-shaped, the bottom of the supporting part is fixedly connected with the transverse connecting rod 11, the top of the supporting part 10 is also provided with an auxiliary supporting part 12, and the auxiliary supporting part 12 is arc-shaped and is used for carrying out auxiliary supporting on the non-coating surface of the plate 1 when the plate 1 leaves the supporting part 10; the supporting part 10 is also provided with a bottom support piece 13 in an adjustable way; the non-coating surface of the plate 1 is respectively placed on a bearing part 10 and a bottom support piece 13 and is obliquely conveyed on a conveying chain 6. The above-mentioned base 13 can be adjusted up and down along the direction in which the support 10 extends, so that the transport support bracket 7 can transport sheet materials 1 of different sizes, and the auxiliary support 12 can be ensured to support the non-coated surface of the sheet material 1 when the sheet material 1 is transported onto the transfer conveyor 9.

The conveying driving device comprises a conveying driving motor 14, a main conveying driving shaft 15, a first transmission conveying driving shaft 16, a second transmission conveying driving shaft 17 and a third transmission conveying driving shaft 18, wherein gears are fixedly arranged on the main conveying driving shaft, the first transmission conveying driving shaft 16, the second transmission conveying driving shaft 17 and the third transmission conveying driving shaft 18 respectively.

The conveying driving motor 14 is fixedly arranged on the conveying bracket 3, and the power output end of the conveying driving motor is in driving connection with the main conveying driving shaft 15; the main conveying driving shaft 15 and the first transmission conveying driving shaft 16 are respectively and rotatably arranged below and above the discharging end of the conveying support 3; the second transmission conveying driving shaft 17 and the third transmission conveying driving shaft 18 are respectively and rotatably arranged above and below the feeding end of the conveying support 3; the two conveying chains 6 are respectively wound on gears of a main conveying driving shaft 15, a first transmission conveying driving shaft 16, a second transmission conveying driving shaft 17 and a third transmission conveying driving shaft 18. I.e. the two conveyor chains 6 can be pivoted synchronously on the conveyor carriage 3.

And the two ends of the conveying support 3 corresponding to the second transmission conveying driving shaft 17 and the third transmission conveying driving shaft 18 are respectively provided with a conveying shaft driving assembly, and the conveying shaft driving assembly comprises a conveying shaft cylinder 19, a conveying shaft sliding support 20 and a conveying shaft sliding guide rail 21.

The conveying shaft cylinder 19 is fixedly arranged on the conveying bracket 3, and the power output end of the conveying shaft cylinder is in driving connection with the conveying shaft sliding bracket 20; the conveying shaft sliding guide rail 21 is fixedly arranged on the conveying bracket 3; the second transmission conveying driving shaft 17 and the third transmission conveying driving shaft 18 are rotatably arranged on the conveying shaft sliding bracket 20; the conveying shaft sliding support 20 is provided with a conveying shaft sliding block, and the conveying shaft sliding block slides forwards and backwards on a conveying shaft sliding guide rail 21 through the conveying shaft sliding block so as to adjust the tension degree of the conveying chain 6.

The feeding support 2 is provided with a feeding bearing frame 22 and a feeding driving device.

The feeding bearing frames 22 are arranged in a plurality, the feeding bearing frames 22 are horizontally fixed on the feeding support 2 in a transverse interval mode, and the front end and the rear end of each feeding bearing frame 22 are respectively and rotatably provided with a feeding conveying belt driving roller 23 and a feeding conveying belt driven roller 24; the feeding conveyer belts 5 are arranged in the same number as the feeding bearing frames 22 and are wound on the feeding conveyer belt driving rollers 23 and the feeding conveyer belt driven rollers 24.

The feeding driving device comprises a feeding driving motor 25; a feeding transmission rod 26 is fixedly arranged among the plurality of feeding conveyer belt driving rollers 23; the feeding driving motor 25 is fixedly arranged on the feeding support 2, and the power output end of the feeding driving motor is in driving connection with the feeding transmission rod 26 through a gear and a rack so as to drive the feeding conveyer belt 5 to rotate on the feeding bearing frame 22.

The feeding bearing frame 22 is also provided with a feeding adjusting chute 27 corresponding to the feeding conveyer belt driven roller 24; the feed conveyor belt driven roller 24 is movable on the feed adjusting chute 27 in a front-back adjustable manner to adjust the tension of the feed conveyor belt 5.

The blanking support 4 is provided with a blanking bearing frame 28, a conversion bearing frame 29 and a blanking driving device.

A plurality of blanking bearing frames 28 are arranged, the plurality of blanking bearing frames 28 are transversely and obliquely fixed at the discharge end of the blanking bracket 4 at intervals, and a driving roller 30 of a blanking conveyer belt and a driven roller 31 of the blanking conveyer belt are respectively and rotatably arranged at the front end and the rear end of each blanking bearing frame 28; the number of the blanking conveyer belts 8 is the same as that of the blanking bearing frames 28, and the blanking conveyer belts are wound on a driving roller 30 and a driven roller 31 of the blanking conveyer belts; the plurality of conversion bearing frames 29 are transversely and obliquely fixed at the feeding end of the blanking bracket 4 at intervals, and the front end and the rear end of each conversion bearing frame 29 are respectively and rotatably provided with a conversion conveying belt driving roller 32 and a conversion conveying belt driven roller 33; the number of the conversion conveyer belts 9 is the same as that of the conversion containing racks 29, and the conversion conveyer belts are wound on the conversion conveyer belt driving roller 32 and the conversion conveyer belt driven roller 33.

The blanking support 4 is also provided with an adjusting support cylinder 34, a blanking positioning plate 42 and a positioning plate driving cylinder 36; the adjusting and supporting cylinder 34 is fixedly arranged on the blanking support 4, and the power output end of the adjusting and supporting cylinder is in driving connection with the middle part of the blanking bearing frame 28 and/or the conversion bearing frame 29; the blanking bearing frame 28 and/or the conversion bearing frame 29 swing on the blanking bracket 4 through the driving of the adjusting and supporting cylinder 34; the positioning plate driving cylinder 36 is fixedly arranged at the discharging end of the blanking bracket 4, and the power output end of the positioning plate driving cylinder is in driving connection with the blanking positioning plate 42; the blanking positioning plate 42 is driven by the positioning plate driving cylinder 36 to turn over at the discharging end of the blanking support 4 and carries out blanking positioning on the plate 1. When the blanking positioning plate 42 is turned over and lifted, the plate 1 can be positioned on the blanking positioning plate 42, so that the blanking positioning of the plate 1 is facilitated, and the plate 1 is blanked; when 4 discharge ends of unloading support and other processing equipment conversion cooperations, unloading locating plate 42 can overturn the decline, and panel 1 can follow 4 discharge ends of unloading support and carry out the ejection of compact, and directly get into other processing equipment and process this moment.

A linkage rod 35 is arranged between the plurality of blanking conveyer belt driven rollers 31 and the plurality of conversion conveyer belt driving rollers 32; the blanking driving device comprises a conversion driving motor 56, the conversion driving motor 56 is fixedly arranged on the blanking support 4, and the power output end of the conversion driving motor 56 is in driving connection with the linkage rod 35 through a gear and a rack so as to simultaneously drive the blanking conveying belt 8 and the conversion conveying belt 9 to respectively rotate on the blanking bearing and placing frame 28 and the conversion bearing and placing frame 29. Therefore, the blanking conveying belt 8 and the conversion conveying belt 9 can realize rotary movement through one power source.

In addition, a linkage rod 35 is arranged between the plurality of blanking conveyer belt driven rollers 31 and the plurality of conversion conveyer belt driving rollers 32; a blanking transmission rod 37 is arranged between the plurality of blanking conveying belt driving rollers 30; the blanking driving device comprises a conversion driving motor 56 and a blanking driving motor 38 which output the same power; the conversion driving motor 56 is fixedly arranged on the blanking support 4, the power output end of the conversion driving motor is in driving connection with the linkage rod 35 through a gear and a rack, the blanking driving motor 38 is fixedly arranged on the blanking support 4, and the power output end of the conversion driving motor is in driving connection with the blanking transmission rod 37 through the gear and the rack so as to drive the blanking conveying belt 8 and the conversion conveying belt 9 to respectively rotate on the blanking bearing and placing frame 28 and the conversion bearing and placing frame 29 at the same speed. Therefore, the blanking conveyer belt 8 and the conversion conveyer belt 9 can respectively realize the rotary motion at the same speed through different power sources.

The adjusting support cylinder 34 of the embodiment is in driving connection with the middle of the conversion bearing frame 29, the inclined highest position of the conversion bearing frame 29 swings on the blanking support 4 by taking the linkage rod 35 as an axis, the inclined lowest position of the conversion bearing frame 29 is in conversion fit with the conveying support 3, namely the inclined lowest position of the conversion bearing frame 29 is close to the discharging end of the conveying support 3, and meanwhile, the conversion bearing frame 29 can adjust the inclination angle through the adjusting support cylinder 34.

The conversion bearing frame 29 is also provided with a conversion adjusting chute 39 corresponding to the conversion conveying belt driven roller 33; the conversion conveyer belt driven roller 33 is movably arranged on the conversion adjusting sliding groove 39 in a front-back adjustable mode so as to adjust the tension degree of the conversion conveyer belt 9.

The blanking bearing frame 28 is also provided with a blanking adjusting roller 40 and a blanking adjusting chute 41 corresponding to the blanking conveying belt 8; the blanking conveying belt 8 is wound on the blanking adjusting roller 40; the discharging adjusting roller 40 is adjustable and movable up and down on the discharging adjusting chute 41 to adjust the tension of the discharging conveyer belt 8.

The conveying method of the sheet surface nondestructive folding conveying equipment comprises the following steps:

the method comprises the following steps: manually or mechanically placing the coated plate 1 on a feeding conveyer belt 5, and gradually conveying the plate 1 towards the feeding end of a conveying bracket 3 by driving of the feeding conveyer belt 5; wherein, the upper surface of the plate 1 is a coating surface and faces upwards, and the bottom surface of the plate 1 is a non-coating surface and is supported on the feeding conveyer belt 5;

step two: the conveying support brackets 7 are driven by the conveying chain 6 to enter the transverse space of the feeding conveying belt 5 from bottom to top, wherein the support parts 10 are arranged obliquely, so that the bottom support parts 13 firstly enter the transverse space of the feeding conveying belt 5, and the support parts 10 later enter the transverse space of the feeding conveying belt 5;

step three: when the plate 1 is conveyed to the feeding end of the conveying support 3, the inner end part of the plate 1 firstly depends on the bottom support piece 13, and the support part 10 then integrally supports the non-coating surface of the plate 1 upwards to enable the plate 1 to leave the feeding conveying belt 5;

step four: the inner end part of the plate 1 is supported on a bottom support piece 13, the non-coating surface of the plate 1 obliquely depends on a support part 10, and the plate 1 is gradually conveyed towards the discharge end of the conveying bracket 3 by the driving of the conveying chain 6;

step five: because the lowest inclined position of the conversion conveyor belt 9 is in conversion fit with the discharge end of the conveyor chain 6 or the rear part of the conveyor chain 6, the conveying support brackets 7 are driven by the conveyor chain 6 to enter the transverse space of the conversion conveyor belt 9 from top to bottom, wherein the bottom support piece 13 enters the transverse space of the conversion conveyor belt 9 first, and the support part 10 enters the transverse space of the conversion conveyor belt 9 later;

step six: when the plate 1 is conveyed to a position close to the discharge end of the conveying support 3, the inner end part of the plate 1 is supported on the lowest inclined position of the conversion conveying belt 9 and leaves away from the bottom support piece 13, and is gradually conveyed to the highest inclined position of the conversion conveying belt 9 and the blanking conveying belt 8 by the driving of the conversion conveying belt 9, meanwhile, the non-coating surface of the plate 1 leaves away from the supporting part 10, and the auxiliary supporting part 12 rotatably supports the non-coating surface of the plate 1 through an arc-shaped position;

step seven: when the plate 1 is conveyed to the highest inclined position of the blanking conveyor belt 8, the inner end part of the plate 1 leaves the conversion conveyor belt 9, then the non-coated surface of the plate 1 is supported on the blanking conveyor belt 8 and is gradually conveyed towards the discharge end of the blanking support 4 under the driving of the blanking conveyor belt 8, and meanwhile, the auxiliary support part 12 continuously supports the non-coated surface of the plate 1 in a rotating manner;

step eight: when one-third to two-thirds positions of the non-coating surface of the plate 1 are supported on the blanking conveyer belt 8, the non-coating surface of the plate 1 leaves the auxiliary supporting part 12 and is continuously blanked by the driving of the blanking conveyer belt 8;

step nine: the inner end part of the plate 1 is leaned on the blanking positioning plate 42 and completes blanking positioning.

The foregoing is a preferred embodiment of the present invention, and the basic principles, principal features and advantages of the invention are shown and described. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are merely illustrative of the principles of the present invention, but various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims and their equivalents.

Claims

1. The utility model provides a panel face can't harm conveying equipment of folding paper, is including feeding support (2), conveying support (3), unloading support (4) that are used for panel (1) supporting and transport respectively, its characterized in that:

a feeding conveyer belt (5) is horizontally arranged on the feeding support (2) in a transversely spaced mode;

conveying chains (6) are horizontally and movably arranged on two sides of the conveying support (3), and conveying support brackets (7) are arranged on the conveying chains (6);

a blanking conveying belt (8) is obliquely and movably arranged on the blanking support (4), and a conversion conveying belt (9) is obliquely and movably arranged between the blanking conveying belt (8) and the conveying chain (6) in a transverse spacing mode;

the feeding end of the conveying chain (6) is in conversion fit with the feeding conveying belt (5); the lowest inclined position of the conversion conveying belt (9) is in conversion fit with the discharge end of the conveying chain (6) or the rear part of the conveying chain (6); the inclined highest position of the conversion conveying belt (9) is in head-to-tail conversion fit with the inclined highest position of the blanking conveying belt (8);

the conveying and supporting bracket (7) upwards extends to form a supporting part (10) for supporting the non-coating surface of the plate (1), the supporting part (10) is obliquely arranged along the opposite conveying direction of the plate (1) and enters the transverse space between the feeding conveying belt (5) and the conversion conveying belt (9) when the conveying and supporting bracket (7) moves.

2. The sheet face lossless folding conveying apparatus according to claim 1, wherein: the length that bearing portion (10) extend to set up with feeding conveyer belt (5), conversion conveyer belt (9) set up the length proportion and are 1: 3-1: 1.

3. the sheet face lossless folding conveying apparatus according to claim 2, wherein: the conveying bracket (3) is horizontally and fixedly arranged and is provided with a conveying driving device; the two conveying chains (6) are respectively wound at the front and rear positions of the conveying bracket (3), and the two conveying chains (6) are in driving connection with the conveying driving device;

the conveying support bracket (7) is provided with a plurality of conveying support brackets (7), the plurality of conveying support brackets (7) are respectively provided with a transverse connecting rod (11), and the plurality of conveying support brackets (7) are arranged at intervals along the conveying direction of the plate (1) and are respectively and transversely fixed between the two conveying chains (6) through the transverse connecting rods (11).

4. The sheet face lossless folding conveying apparatus according to claim 3, wherein: the supporting part (10) is n-shaped or M-shaped, the bottom of the supporting part is fixedly connected with the transverse connecting rod (11), the top of the supporting part (10) is also provided with an auxiliary supporting part (12), and the auxiliary supporting part (12) is arc-shaped and is used for carrying out auxiliary supporting on the non-coating surface of the plate (1) when the plate (1) leaves the supporting part (10); the supporting part (10) is also provided with a bottom supporting piece (13) in an adjustable way; the non-coating surfaces of the plates (1) are respectively placed on the bearing part (10) and the bottom support piece (13) and are obliquely conveyed on the conveying chain (6).

5. The sheet face lossless folding conveying apparatus according to claim 4, wherein: the conveying driving device comprises a conveying driving motor (14), a main conveying driving shaft (15), a first transmission conveying driving shaft (16), a second transmission conveying driving shaft (17) and a third transmission conveying driving shaft (18), wherein gears are fixedly arranged on the main conveying driving shaft, the first transmission conveying driving shaft, the second transmission conveying driving shaft and the third transmission conveying driving shaft respectively;

the conveying driving motor (14) is fixedly arranged on the conveying support (3), and the power output end of the conveying driving motor is in driving connection with the main conveying driving shaft (15); the main conveying driving shaft (15) and the first transmission conveying driving shaft (16) are respectively and rotatably arranged below and above the discharging end of the conveying support (3); the second transmission conveying driving shaft (17) and the third transmission conveying driving shaft (18) are respectively and rotatably arranged above and below the feeding end of the conveying support (3); the two conveying chains (6) are respectively wound on gears of the main conveying driving shaft (15), the first transmission conveying driving shaft (16), the second transmission conveying driving shaft (17) and the third transmission conveying driving shaft (18).

6. The sheet face lossless folding conveying apparatus according to claim 5, wherein: two ends of the conveying support (3) corresponding to the second transmission conveying driving shaft (17) and the third transmission conveying driving shaft (18) are respectively provided with a conveying shaft driving assembly, and the conveying shaft driving assembly comprises a conveying shaft cylinder (19), a conveying shaft sliding support (20) and a conveying shaft sliding guide rail (21);

the conveying shaft air cylinder (19) is fixedly arranged on the conveying support (3), and the power output end of the conveying shaft air cylinder is in driving connection with the conveying shaft sliding support (20); the conveying shaft sliding guide rail (21) is fixedly arranged on the conveying bracket (3); the second transmission conveying driving shaft (17) and the third transmission conveying driving shaft (18) are rotatably arranged on the conveying shaft sliding bracket (20); the conveying shaft sliding support (20) is provided with a conveying shaft sliding block, and the conveying shaft sliding block slides forwards and backwards on the conveying shaft sliding guide rail (21) so as to adjust the tension degree of the conveying chain (6).

7. The sheet surface nondestructive folding conveying apparatus according to claim 6, characterized in that: the feeding support (2) is provided with a feeding bearing frame (22) and a feeding driving device;

a plurality of feeding bearing frames (22) are arranged, the feeding bearing frames (22) are horizontally fixed on the feeding support (2) in a transverse interval mode, and the front end and the rear end of each feeding bearing frame are respectively and rotatably provided with a feeding conveyer belt driving roller (23) and a feeding conveyer belt driven roller (24); the number of the feeding conveyer belts (5) is the same as that of the feeding bearing frames (22), and the feeding conveyer belts are wound on the feeding conveyer belt driving roller (23) and the feeding conveyer belt driven roller (24);

the feeding driving device comprises a feeding driving motor (25); a feeding transmission rod (26) is fixedly arranged among the plurality of feeding conveyer belt driving rollers (23); the feeding driving motor (25) is fixedly arranged on the feeding support (2), and the power output end of the feeding driving motor is in driving connection with the feeding transmission rod (26) through a gear and a rack so as to drive the feeding conveying belt (5) to rotate on the feeding bearing frame (22);

the feeding bearing frame (22) is also provided with a feeding adjusting chute (27) corresponding to the feeding conveying belt driven roller (24); the adjustable front and back movement of the feeding conveying belt driven roller (24) is in the feeding adjusting chute (27) to adjust the tension degree of the feeding conveying belt (5).

8. The sheet face lossless folding conveying apparatus according to claim 7, wherein: the blanking support (4) is provided with a blanking bearing frame (28), a conversion bearing frame (29) and a blanking driving device;

a plurality of blanking bearing frames (28) are arranged, the plurality of blanking bearing frames (28) are transversely and obliquely fixed at the discharge end of the blanking support (4) at intervals, and the front end and the rear end of each blanking bearing frame are respectively and rotatably provided with a blanking conveying belt driving roller (30) and a blanking conveying belt driven roller (31); the number of the blanking conveyor belts (8) is the same as that of the blanking bearing frames (28), and the blanking conveyor belts are wound on the driving idler wheels (30) of the blanking conveyor belts and the driven idler wheels (31) of the blanking conveyor belts; a plurality of conversion bearing frames (29) are arranged, the plurality of conversion bearing frames (29) are transversely and obliquely fixed at the feeding end of the blanking bracket (4) at intervals, and the front end and the rear end of each conversion bearing frame are respectively and rotatably provided with a conversion conveying belt driving roller (32) and a conversion conveying belt driven roller (33); the number of the conversion conveyor belts (9) is the same as that of the conversion bearing frames (29), and the conversion conveyor belts are wound on the conversion conveyor belt driving idler wheels (32) and the conversion conveyor belt driven idler wheels (33);

the blanking support (4) is also provided with an adjusting support cylinder (34), a blanking positioning plate (42) and a positioning plate driving cylinder (36); the adjusting support cylinder (34) is fixedly arranged on the blanking support (4), and the power output end of the adjusting support cylinder is in driving connection with the middle part of the blanking bearing frame (28) and/or the conversion bearing frame (29); the blanking bearing frame (28) and/or the conversion bearing frame (29) are driven by the adjusting support cylinder (34) to swing on the blanking support (4); the positioning plate driving cylinder (36) is fixedly arranged at the discharge end of the blanking bracket (4), and the power output end of the positioning plate driving cylinder is in driving connection with the blanking positioning plate (42); the blanking positioning plate (42) is driven by the positioning plate driving cylinder (36) to overturn at the discharging end of the blanking support (4), and carries out blanking positioning on the plate (1).

9. The sheet face lossless folding conveying apparatus according to claim 8, wherein: linkage rods (35) are arranged between the plurality of blanking conveyer belt driven rollers (31) and the plurality of conversion conveyer belt driving rollers (32); the blanking driving device comprises a conversion driving motor (56), the conversion driving motor (56) is fixedly arranged on the blanking support (4), and the power output end of the conversion driving motor is in driving connection with the linkage rod (35) through a gear and a rack so as to simultaneously drive the blanking conveying belt (8) and the conversion conveying belt (9) to respectively rotate on the blanking bearing frame (28) and the conversion bearing frame (29);

or a linkage rod (35) is arranged between the plurality of blanking conveyer belt driven rollers (31) and the plurality of conversion conveyer belt driving rollers (32); a blanking transmission rod (37) is arranged between the plurality of the blanking conveyer belt driving rollers (30); the blanking driving device comprises a conversion driving motor (56) and a blanking driving motor (38) which output the same power; the conversion driving motor (56) is fixedly arranged on the blanking support (4), the power output end of the conversion driving motor is in driving connection with the linkage rod (35) through a gear and a rack, the blanking driving motor (38) is fixedly arranged on the blanking support (4), and the power output end of the conversion driving motor is in driving connection with the blanking transmission rod (37) through the gear and the rack so as to drive the blanking conveying belt (8) and the conversion conveying belt (9) to respectively rotate on the blanking bearing frame (28) and the conversion bearing frame (29) at the same speed;

the conversion bearing frame (29) is also provided with a conversion adjusting sliding groove (39) corresponding to the conversion conveying belt driven roller (33); the conversion conveying belt driven roller (33) is movably arranged on the conversion adjusting chute (39) in a front-back adjustable mode so as to adjust the tension degree of the conversion conveying belt (9);

the blanking bearing frame (28) is also provided with a blanking adjusting roller (40) and a blanking adjusting chute (41) corresponding to the blanking conveying belt (8); the blanking conveying belt (8) is wound on the blanking adjusting roller (40); the adjustable type blanking adjusting roller (40) moves up and down on the blanking adjusting sliding groove (41) to adjust the tension degree of the blanking conveying belt (8).

10. The method for conveying the face of the plate without damaging the folding is characterized by comprising the following steps: comprising the sheet face lossless folder transport apparatus as recited in claim 9, and further comprising the steps of:

the method comprises the following steps: manually or mechanically placing the coated plate (1) on the feeding conveyer belt (5), and gradually conveying the plate (1) towards the feeding end of the conveying bracket (3) by driving of the feeding conveyer belt (5); the upper surface of the plate (1) is a coated surface and faces upwards, and the bottom surface of the plate (1) is a non-coated surface and is supported on the feeding conveyor belt (5);

step two: the conveying support brackets (7) enter the transverse interval of the feeding conveying belt (5) from bottom to top through the driving of the conveying chain (6), wherein the support parts (10) are arranged obliquely, so that the bottom support pieces (13) enter the transverse interval of the feeding conveying belt (5) firstly, and the support parts (10) enter the transverse interval of the feeding conveying belt (5) secondly;

step three: when the plate (1) is conveyed to the feeding end of the conveying bracket (3), the inner end part of the plate firstly leans against the bottom support piece (13), and the support part (10) integrally supports the non-coating surface of the plate (1) upwards to enable the plate (1) to leave the feeding conveying belt (5);

step four: the inner end part of the plate (1) is supported on the bottom support piece (13), the non-coating surface of the plate (1) leans against the support part (10) in an inclined mode, and the plate is gradually conveyed towards the discharge end of the conveying support (3) through the driving of the conveying chain (6);

step five: as the lowest inclined position of the conversion conveyor belt (9) is in conversion fit with the discharge end of the conveying chain (6) or the rear part of the conveying chain (6), the conveying bearing bracket (7) enters the transverse space of the conversion conveyor belt (9) from top to bottom under the driving of the conveying chain (6), wherein the bottom support piece (13) firstly enters the transverse space of the conversion conveyor belt (9), and the bearing part (10) then enters the transverse space of the conversion conveyor belt (9);

step six: when the plate (1) is conveyed to a position close to the discharge end of the conveying bracket (3), the inner end part of the plate (1) is supported on the lowest position of the inclined conversion conveying belt (9) and is separated from the bottom support piece (13), the plate is gradually conveyed towards the highest position of the inclined conversion conveying belt (9) and the inclined blanking conveying belt (8) under the driving of the conversion conveying belt (9), meanwhile, the non-coating surface of the plate (1) is separated from the supporting part (10), and the auxiliary supporting part (12) rotatably supports the non-coating surface of the plate (1) through an arc position;

step seven: when the plate (1) is conveyed to the highest inclined position of the blanking conveyor belt (8), the inner end part of the plate (1) leaves the conversion conveyor belt (9), then the non-coated surface of the plate (1) is supported on the blanking conveyor belt (8) and is gradually conveyed towards the discharge end of the blanking support (4) through the driving of the blanking conveyor belt (8), and meanwhile, the auxiliary support part (12) continuously supports the non-coated surface of the plate (1) in a rotating manner;

step eight: when one third to two thirds of the non-coating surface of the plate (1) is supported on the blanking conveyer belt (8), the non-coating surface of the plate (1) leaves the auxiliary supporting part (12) and is continuously blanked by the driving of the blanking conveyer belt (8);

step nine: the inner end part of the plate (1) is leaned on the blanking positioning plate (42) and completes blanking positioning.