CN105459632A - Symmetrical cascading type medium conveying flat plate - Google Patents

Abstract

The invention provides a symmetrical cascading type medium conveying flat plate. The symmetrical cascading type medium conveying flat plate comprises a transmission roller. The transmission roller comprises a driving transmission roller. The front end and the rear end of the driving transmission roller are tightly sleeved with a front sleeve and a rear sleeve respectively. Driven transmission rollers are arranged on the front left side of the front sleeve and the front right side of the rear sleeve respectively, wherein the front end, the middle end and the rear end of each driven transmission roller are tightly sleeved with a front sleeve, a middle sleeve and a rear sleeve respectively. Driven transmission rollers are placed on the front left side of the front sleeve and the front right side of the rear sleeve respectively, wherein the front end and the rear end of each driven transmission roller are tightly sleeved with a front sleeve and a rear sleeve respectively. The front sleeve or the rear sleeve of each driven transmission roller of the previous stage and the rear sleeve or the front sleeve of the corresponding driven transmission roller of the next stage are kept horizontal and connected with a conveyor belt. During use, a motor drives the driving transmission roller to rotate, the ten conveyor belts which are of a symmetrical cascading structure are then driven to rotate together, all the conveyor belts rotate to drive fabric placed on the conveyor belts to move forwards, spray nozzle sets on the upper portions of the conveyor belts conduct printing on the fabric, and therefore disposable batched continuous printing is achieved.

Description

A kind of symmetrical cascade formula medium conveying tablet

Technical field

The present invention relates to digital inking printing new technical field, specifically a kind of symmetrical cascade formula medium conveying tablet.

Background technology

Digital ink jet printing technology is a kind of new high-tech product integrating machinery, computer electronic information technology formed gradually along with computer technology development, come across the mid-90 in 20th century the earliest, the appearance of this technology is with constantly perfect, a completely new concept is brought to textile printing and dyeing industry, the production principle of its advanced person and means, a unprecedented opportunity to develop is brought to textile printing and dyeing, be described as 21 century textile industry revolution technology, it becomes the capital equipment of printing in textiles by progressively replacing traditional stamp mode.In recent years, domestic and international Digital ink jet printing technology achieves significant progress, and wherein conduction band type digital inkjet printing machine is because printing continuously, and technology is constantly perfect, and the kind of product and function are also constantly perfect.

Current conduction band type digital inkjet printing machine generally adopts single conduction band, also namely only can realize the continuous printing of a kind of pattern on a kind of fabric at every turn, thus limit stamp speed and stamp kind.For this, the present invention provides a kind of symmetrical cascade formula medium conveying tablet, by adopting the flat conduction band of staggered cascade, can realize adopting the transmission simultaneously of the multiple flat conduction bands of single driven by motor, can realize disposable batch continuous printing.

Summary of the invention

Technical problem to be solved by this invention is the disposable batch continuous printing of conduction band type digital inkjet printing machine.

In order to achieve the above object, the present invention relates to a kind of symmetrical cascade formula medium conveying tablet, comprise live-roller, described live-roller comprises initiatively live-roller, tightly overlap in the front end of described active live-roller and have the first protheca, cover after having first is tightly overlapped in the rear end of described active live-roller, after described first protheca and first, the length sum of cover is less than the length of initiatively live-roller, after described first protheca and first, cover is followed and is initiatively rotated together with live-roller, the first slave drive roller is placed with in the left front of described first protheca, tightly overlap in the front end of described first slave drive roller and have the second protheca, tightly overlap in the centre of described first slave drive roller and have the first intermediate sleeve, cover after having second is tightly overlapped in the rear end of described first slave drive roller, described second protheca, after first intermediate sleeve and second, the length sum of cover is less than the length of the first slave drive roller, described second protheca, first intermediate sleeve and cover after second are followed together with the first slave drive roller and are rotated, tighten cover at described first protheca and the first intermediate sleeve and have the first conveyer belt, the second slave drive roller is placed with in the left front of described second protheca, tightly overlap in the front end of described second slave drive roller and have the 3rd protheca, cover after having the 3rd is tightly overlapped in the rear end of described second slave drive roller, after described 3rd protheca and the 3rd, the length sum of cover is less than the length of the second slave drive roller, described 3rd protheca and cover after the 3rd are followed together with the second slave drive roller and are rotated, after described second protheca and the 3rd, cover tightens cover the second conveyer belt, the 3rd slave drive roller is placed with in the left front of described 3rd protheca, tighten cover at described 3rd slave drive roller and have the 4th protheca, the length of described 4th protheca equals the length of the 3rd slave drive roller, described 4th protheca is followed the 3rd slave drive roller and is rotated together, tighten cover at described 3rd protheca and the 4th protheca and have the 3rd conveyer belt, after described second, the left back of cover is placed with the 4th slave drive roller, tightly overlap in the front end of described 4th slave drive roller and have the 5th protheca, cover after having the 5th is tightly overlapped in the rear end of described 4th slave drive roller, after described 5th protheca and the 5th, the length sum of cover is less than the length of the 4th slave drive roller, described 5th protheca and cover after the 5th are followed together with the 4th slave drive roller and are rotated, after described second, cover and the 5th protheca tighten cover the 4th conveyer belt, after the described 5th, the left back of cover is placed with the 5th slave drive roller, tighten cover at described 5th slave drive roller and have the 6th protheca, the length of described 6th protheca equals the length of the 5th slave drive roller, described 6th protheca is followed the 5th slave drive roller and is rotated together, after the described 5th, cover and the 6th protheca tighten cover the 5th conveyer belt, after described first, the right front of cover is placed with the 6th slave drive roller, tightly overlap in the front end of described 6th slave drive roller and have the 7th protheca, tightly overlap in the centre of described 6th slave drive roller and have the second intermediate sleeve, cover after having the 7th is tightly overlapped in the rear end of described first slave drive roller, described 7th protheca, after second intermediate sleeve and the 7th, the length sum of cover is less than the length of the 6th slave drive roller, described 7th protheca, second intermediate sleeve and cover after the 7th are followed together with the 6th slave drive roller and are rotated, after described first, cover and the second intermediate sleeve tighten cover the 6th conveyer belt, the 7th slave drive roller is placed with in the right front of described 7th protheca, tightly overlap in the front end of described 7th slave drive roller and have the 8th protheca, cover after having the 8th is tightly overlapped in the rear end of described 7th slave drive roller, after described 8th protheca and the 8th, the length sum of cover is less than the length of the 7th slave drive roller, described 8th protheca and cover after the 8th are followed together with the 7th slave drive roller and are rotated, after described 7th protheca and the 8th, cover tightens cover the 7th conveyer belt, the 8th slave drive roller is placed with in the right front of described 8th protheca, tighten cover at described 8th slave drive roller and have the 9th protheca, the length of described 9th protheca equals the length of the 8th slave drive roller, described 9th protheca is followed the 8th slave drive roller and is rotated together, tighten cover at described 8th protheca and the 9th protheca and have the 8th conveyer belt, after the described 7th, the right back of cover is placed with the 9th slave drive roller, tightly overlap in the front end of described 9th slave drive roller and have the tenth protheca, cover after having the tenth is tightly overlapped in the rear end of described 9th slave drive roller, after described tenth protheca and the tenth, the length sum of cover is less than the length of the 9th slave drive roller, described tenth protheca and cover after the tenth are followed together with the 9th slave drive roller and are rotated, after the described 7th, cover and the tenth protheca tighten cover the 9th conveyer belt, after the described tenth, the right back of cover is placed with the tenth slave drive roller, tighten cover at described tenth slave drive roller and have the 11 protheca, the length of described 11 protheca equals the length of the tenth slave drive roller, described 11 protheca is followed the tenth slave drive roller and is rotated together, after the described tenth, cover and the 11 protheca tighten cover the tenth conveyer belt, described active live-roller, first slave drive roller, second slave drive roller, 3rd slave drive roller, 4th slave drive roller, 5th slave drive roller, 6th slave drive roller, 7th slave drive roller, 8th slave drive roller, the two ends of the 9th slave drive roller and the tenth slave drive roller support by bracing frame, the middle part of described active live-roller is by driven by motor.

During use, by driven by motor initiatively live-roller rotation, then rotation is overlapped after driving the first protheca and first on active live-roller, first protheca drives the first intermediate sleeve to rotate by the first conveyer belt, then the first slave drive roller is driven to rotate, then rotation is overlapped after driving the second protheca and second, second protheca overlaps rotation after driving the 3rd by the second conveyer belt, then the second slave drive roller is driven to rotate, then the 3rd protheca is driven to rotate, then the 3rd conveyer belt is driven to rotate, after second, cover drives the 5th protheca to rotate by the 4th conveyer belt, then the 4th slave drive roller is driven to rotate, then rotation is overlapped after driving the 5th, then the 5th conveyer belt is driven to rotate, after first, cover drives the second intermediate sleeve to rotate by the 6th conveyer belt, then the 6th slave drive roller is driven to rotate, then rotation is overlapped after driving the 7th protheca and the 7th, 7th protheca overlaps rotation after driving the 8th by the 7th conveyer belt, then the 7th slave drive roller is driven to rotate, then the 8th protheca is driven to rotate, then the 8th conveyer belt is driven to rotate, after 7th, cover drives the tenth protheca to rotate by the 9th conveyer belt, then the 9th slave drive roller is driven to rotate, then rotation is overlapped after driving the tenth, then the tenth conveyer belt is driven to rotate, then the rotation together of ten conveyer belts by single driven by motor with symmetrical cascade structure is realized, each conveyer belt rotates and drives the fabric be placed on it to travel forward, the jet head sets on conveyer belt top carries out stamp to fabric, thus realize disposable batch continuous printing.

The present invention, by adopting the flat conduction band of staggered cascade, can realize adopting the transmission simultaneously of the multiple flat conduction bands of single driven by motor, then realize disposable batch continuous printing.

Accompanying drawing explanation

Fig. 1 is overall structure schematic diagram of the present invention.

Detailed description of the invention

As shown in Figure 1, a kind of symmetrical cascade formula medium conveying tablet, comprise live-roller, live-roller comprises initiatively live-roller 1, tightly overlap in the front end of active live-roller and have the first protheca 2, cover 3 after having first is tightly overlapped in the rear end of active live-roller 1, the length sum of the first protheca 2 and the first rear cover 3 is less than the length of initiatively live-roller 1, after first protheca 2 and first, cover 3 is followed and is initiatively rotated together with live-roller 1, the first slave drive roller 23 is placed with in the left front of the first protheca 2, tightly overlap in the front end of the first slave drive roller 23 and have the second protheca 24, tightly overlap in the centre of the first slave drive roller 23 and have the first intermediate sleeve 25, cover 26 after having second is tightly overlapped in the rear end of the first slave drive roller 23, second protheca 24, the length sum of the first intermediate sleeve 25 and the second rear cover 26 is less than the length of the first slave drive roller 23, second protheca 24, first intermediate sleeve 25 and cover 26 after second are followed together with the first slave drive roller 23 and are rotated, tighten cover at the first protheca 2 and the first intermediate sleeve 25 and have the first conveyer belt 30, the second slave drive roller 35 is placed with in the left front of the second protheca 24, the front end of the second slave drive roller 35 is tightly overlapped the 3rd protheca 36, cover 37 after having the 3rd is tightly overlapped in the rear end of the second slave drive roller 35, after 3rd protheca 36 and the 3rd, the length sum of cover 37 is less than the length of the second slave drive roller 35, 3rd protheca 36 and cover 37 after the 3rd are followed together with the second slave drive roller 35 and are rotated, after the second protheca 24 and the 3rd, cover 37 tightens cover the second conveyer belt 38, the 3rd slave drive roller 39 is placed with in the left front of the 3rd protheca 36, tighten cover at the 3rd slave drive roller 39 and have the 4th protheca 40, the length of the 4th protheca 40 equals the length of the 3rd slave drive roller 39, 4th protheca 40 is followed the 3rd slave drive roller 39 and is rotated together, tighten cover at the 3rd protheca 36 and the 4th protheca 40 and have the 3rd conveyer belt 41, the left back overlapping 26 is in the second rear placed with the 4th slave drive roller 27, tightly overlap in the front end of the 4th slave drive roller 27 and have the 5th protheca 28, cover 29 after having the 5th is tightly overlapped in the rear end of the 4th slave drive roller 27, after 5th protheca 28 and the 5th, the length sum of cover 29 is less than the length of the 4th slave drive roller 27, 5th protheca 28 and cover 29 after the 5th are followed together with the 4th slave drive roller 27 and are rotated, cover 26 and the 5th protheca 28 tighten cover in the second rear the 4th conveyer belt 31, after the 5th, the left back of cover 29 is placed with the 5th slave drive roller 32, tighten cover at the 5th slave drive roller 32 and have the 6th protheca 33, the length of the 6th protheca 33 equals the length of the 5th slave drive roller 32, 6th protheca 33 is followed the 5th slave drive roller 32 and is rotated together, after the 5th, cover 29 and the 6th protheca 33 tighten cover the 5th conveyer belt 34, after first, the right front of cover 3 is placed with the 6th slave drive roller 4, tightly overlap in the front end of the 6th slave drive roller 4 and have the 7th protheca 5, tightly overlap in the centre of the 6th slave drive roller 4 and have the second intermediate sleeve 6, cover 7 after having the 7th is tightly overlapped in the rear end of the first slave drive roller 4, 7th protheca 5, after second intermediate sleeve 6 and the 7th, the length sum of cover 7 is less than the length of the 6th slave drive roller 4, 7th protheca 5, second intermediate sleeve 6 and cover 7 after the 7th are followed together with the 6th slave drive roller 4 and are rotated, after first, cover 3 and the second intermediate sleeve 6 tighten cover the 6th conveyer belt 8, the 7th slave drive roller 9 is placed with in the right front of the 7th protheca 5, tightly overlap in the front end of the 7th slave drive roller 9 and have the 8th protheca 10, cover 11 after having the 8th is tightly overlapped in the rear end of the 7th slave drive roller 9, after 8th protheca 10 and the 8th, the length sum of cover 11 is less than the length of the 7th slave drive roller 9, 8th protheca 10 and cover 11 after the 8th are followed together with the 7th slave drive roller 9 and are rotated, after the 7th protheca 5 and the 8th, cover 11 tightens cover the 7th conveyer belt 12, the 8th slave drive roller 13 is placed with in the right front of the 8th protheca 10, tighten cover at the 8th slave drive roller 13 and have the 9th protheca 14, the length of the 9th protheca 14 equals the length of the 8th slave drive roller 13, 9th protheca 14 is followed the 8th slave drive roller 13 and is rotated together, tighten cover at the 8th protheca 10 and the 9th protheca 14 and have the 8th conveyer belt 15, after the 7th, the right back of cover 7 is placed with the 9th slave drive roller 16, tightly overlap in the front end of the 9th slave drive roller 16 and have the tenth protheca 17, cover 18 after having the tenth is tightly overlapped in the rear end of the 9th slave drive roller 16, after tenth protheca 17 and the tenth, the length sum of cover 18 is less than the length of the 9th slave drive roller 16, tenth protheca 17 and cover 18 after the tenth are followed together with the 9th slave drive roller 16 and are rotated, after the 7th, cover 7 and the tenth protheca 17 tighten cover the 9th conveyer belt 19, after the tenth, the right back of cover 18 is placed with the tenth slave drive roller 20, tighten cover at the tenth slave drive roller 20 and have the 11 protheca 21, the length of the 11 protheca 21 equals the length of the tenth slave drive roller 20, 11 protheca 21 is followed the tenth slave drive roller 20 and is rotated together, after the tenth, cover the 18 and the 11 protheca 21 tightens cover the tenth conveyer belt 22, initiatively live-roller 1, first slave drive roller 23, second slave drive roller 35, 3rd slave drive roller 39, 4th slave drive roller 27, 5th slave drive roller 32, 6th slave drive roller 4, 7th slave drive roller 9, 8th slave drive roller 13, the two ends of the 9th slave drive roller 16 and the tenth slave drive roller 20 support by bracing frame 43, initiatively the middle part of live-roller 1 is driven by motor 42.

During use, initiatively live-roller 1 is driven to rotate by motor 42, then the first protheca 2 on active live-roller 1 and the first rear cover 3 is driven to rotate, first protheca 2 drives the first intermediate sleeve 25 to rotate by the first conveyer belt 30, then the first slave drive roller 23 is driven to rotate, then the second protheca 24 and the second rear cover 26 is driven to rotate, after second protheca 24 drives the 3rd by the second conveyer belt 38, cover 37 rotates, then the second slave drive roller 35 is driven to rotate, then the 3rd protheca 36 is driven to rotate, then the 3rd conveyer belt 41 is driven to rotate, after second, cover 26 drives the 5th protheca 28 to rotate by the 4th conveyer belt 31, then the 4th slave drive roller 27 is driven to rotate, then after driving the 5th, cover 29 rotates, then the 5th conveyer belt 34 is driven to rotate, after first, cover 3 drives the second intermediate sleeve 6 to rotate by the 6th conveyer belt 8, then the 6th slave drive roller 4 is driven to rotate, then after driving the 7th protheca and 5 the 7th, cover 7 rotates, after 7th protheca 5 drives the 8th by the 7th conveyer belt 12, cover 11 rotates, then the 7th slave drive roller 9 is driven to rotate, then the 8th protheca 10 is driven to rotate, then the 8th conveyer belt 15 is driven to rotate, after 7th, cover 7 drives the tenth protheca 17 to rotate by the 9th conveyer belt 19, then the 9th slave drive roller 16 is driven to rotate, then after driving the tenth, cover 18 rotates, then the tenth conveyer belt 22 is driven to rotate, then the rotation together of ten conveyer belts by single driven by motor with symmetrical cascade structure is realized, each conveyer belt rotates and drives the fabric be placed on it to travel forward, the jet head sets on conveyer belt top carries out stamp to fabric, thus realize disposable batch continuous printing.

Claims (1)

1. a symmetrical cascade formula medium conveying tablet, comprise live-roller, it is characterized in that: described live-roller comprises initiatively live-roller, tightly overlap in the front end of described active live-roller and have the first protheca, cover after having first is tightly overlapped in the rear end of described active live-roller, after described first protheca and first, the length sum of cover is less than the length of initiatively live-roller, after described first protheca and first, cover is followed and is initiatively rotated together with live-roller, the first slave drive roller is placed with in the left front of described first protheca, tightly overlap in the front end of described first slave drive roller and have the second protheca, tightly overlap in the centre of described first slave drive roller and have the first intermediate sleeve, cover after having second is tightly overlapped in the rear end of described first slave drive roller, described second protheca, after first intermediate sleeve and second, the length sum of cover is less than the length of the first slave drive roller, described second protheca, first intermediate sleeve and cover after second are followed together with the first slave drive roller and are rotated, tighten cover at described first protheca and the first intermediate sleeve and have the first conveyer belt, the second slave drive roller is placed with in the left front of described second protheca, tightly overlap in the front end of described second slave drive roller and have the 3rd protheca, cover after having the 3rd is tightly overlapped in the rear end of described second slave drive roller, after described 3rd protheca and the 3rd, the length sum of cover is less than the length of the second slave drive roller, described 3rd protheca and cover after the 3rd are followed together with the second slave drive roller and are rotated, after described second protheca and the 3rd, cover tightens cover the second conveyer belt, the 3rd slave drive roller is placed with in the left front of described 3rd protheca, tighten cover at described 3rd slave drive roller and have the 4th protheca, the length of described 4th protheca equals the length of the 3rd slave drive roller, described 4th protheca is followed the 3rd slave drive roller and is rotated together, tighten cover at described 3rd protheca and the 4th protheca and have the 3rd conveyer belt, after described second, the left back of cover is placed with the 4th slave drive roller, tightly overlap in the front end of described 4th slave drive roller and have the 5th protheca, cover after having the 5th is tightly overlapped in the rear end of described 4th slave drive roller, after described 5th protheca and the 5th, the length sum of cover is less than the length of the 4th slave drive roller, described 5th protheca and cover after the 5th are followed together with the 4th slave drive roller and are rotated, after described second, cover and the 5th protheca tighten cover the 4th conveyer belt, after the described 5th, the left back of cover is placed with the 5th slave drive roller, tighten cover at described 5th slave drive roller and have the 6th protheca, the length of described 6th protheca equals the length of the 5th slave drive roller, described 6th protheca is followed the 5th slave drive roller and is rotated together, after the described 5th, cover and the 6th protheca tighten cover the 5th conveyer belt, after described first, the right front of cover is placed with the 6th slave drive roller, tightly overlap in the front end of described 6th slave drive roller and have the 7th protheca, tightly overlap in the centre of described 6th slave drive roller and have the second intermediate sleeve, cover after having the 7th is tightly overlapped in the rear end of described first slave drive roller, described 7th protheca, after second intermediate sleeve and the 7th, the length sum of cover is less than the length of the 6th slave drive roller, described 7th protheca, second intermediate sleeve and cover after the 7th are followed together with the 6th slave drive roller and are rotated, after described first, cover and the second intermediate sleeve tighten cover the 6th conveyer belt, the 7th slave drive roller is placed with in the right front of described 7th protheca, tightly overlap in the front end of described 7th slave drive roller and have the 8th protheca, cover after having the 8th is tightly overlapped in the rear end of described 7th slave drive roller, after described 8th protheca and the 8th, the length sum of cover is less than the length of the 7th slave drive roller, described 8th protheca and cover after the 8th are followed together with the 7th slave drive roller and are rotated, after described 7th protheca and the 8th, cover tightens cover the 7th conveyer belt, the 8th slave drive roller is placed with in the right front of described 8th protheca, tighten cover at described 8th slave drive roller and have the 9th protheca, the length of described 9th protheca equals the length of the 8th slave drive roller, described 9th protheca is followed the 8th slave drive roller and is rotated together, tighten cover at described 8th protheca and the 9th protheca and have the 8th conveyer belt, after the described 7th, the right back of cover is placed with the 9th slave drive roller, tightly overlap in the front end of described 9th slave drive roller and have the tenth protheca, cover after having the tenth is tightly overlapped in the rear end of described 9th slave drive roller, after described tenth protheca and the tenth, the length sum of cover is less than the length of the 9th slave drive roller, described tenth protheca and cover after the tenth are followed together with the 9th slave drive roller and are rotated, after the described 7th, cover and the tenth protheca tighten cover the 9th conveyer belt, after the described tenth, the right back of cover is placed with the tenth slave drive roller, tighten cover at described tenth slave drive roller and have the 11 protheca, the length of described 11 protheca equals the length of the tenth slave drive roller, described 11 protheca is followed the tenth slave drive roller and is rotated together, after the described tenth, cover and the 11 protheca tighten cover the tenth conveyer belt, described active live-roller, first slave drive roller, second slave drive roller, 3rd slave drive roller, 4th slave drive roller, 5th slave drive roller, 6th slave drive roller, 7th slave drive roller, 8th slave drive roller, the two ends of the 9th slave drive roller and the tenth slave drive roller support by bracing frame, the middle part of described active live-roller is by driven by motor, during use, by driven by motor initiatively live-roller rotation, then rotation is overlapped after driving the first protheca and first on active live-roller, first protheca drives the first intermediate sleeve to rotate by the first conveyer belt, then the first slave drive roller is driven to rotate, then rotation is overlapped after driving the second protheca and second, second protheca overlaps rotation after driving the 3rd by the second conveyer belt, then the second slave drive roller is driven to rotate, then the 3rd protheca is driven to rotate, then the 3rd conveyer belt is driven to rotate, after second, cover drives the 5th protheca to rotate by the 4th conveyer belt, then the 4th slave drive roller is driven to rotate, then rotation is overlapped after driving the 5th, then the 5th conveyer belt is driven to rotate, after first, cover drives the second intermediate sleeve to rotate by the 6th conveyer belt, then the 6th slave drive roller is driven to rotate, then rotation is overlapped after driving the 7th protheca and the 7th, 7th protheca overlaps rotation after driving the 8th by the 7th conveyer belt, then the 7th slave drive roller is driven to rotate, then the 8th protheca is driven to rotate, then the 8th conveyer belt is driven to rotate, after 7th, cover drives the tenth protheca to rotate by the 9th conveyer belt, then the 9th slave drive roller is driven to rotate, then rotation is overlapped after driving the tenth, then the tenth conveyer belt is driven to rotate, then the rotation together of ten conveyer belts by single driven by motor with symmetrical cascade structure is realized, each conveyer belt rotates and drives the fabric be placed on it to travel forward, the jet head sets on conveyer belt top carries out stamp to fabric, thus realize disposable batch continuous printing.