The moving volume to volume continuous horizontal formula production facilities of biserial patrilineal line of descent with only one son in each generation
Technical field
The utility model relates to a kind of production facilities, is meant a kind of moving volume to volume continuous horizontal formula production facilities of biserial patrilineal line of descent with only one son in each generation of making flexible circuit board especially.
Background technology
Electric consumers designs hommization more in view of the progress of science and technology, and the thinning of circuit card is the flourish important indicator of 3C industry especially.Flexible circuit board is one of important spare part of electronic product, often be applied in the thin type electronic product, by advantages such as its cheap feed stock cost, easy to carry and assemblings, and according to the character of flexibleization of flexible circuit board, traditional manufacturing equipment is adopted individual discrete mode of movement, be promoted as the mode that volume to volume is carried continuously, will become following target of making flexible circuit board.
Carry in the process of flexible circuit board, often damage, cause defective products to increase, and then influence product design because of human element causes flexible circuit board, based on consideration manpower and cost, and then with the main shaft of automated manufacturing equipment as the production flexible circuit board.
The manufacturing equipment of flexible circuit board adopts the pattern of single-row operation 250mm wide cut mostly as adopting the work pattern of volume to volume now, and the mode of movement of biserial double driving system is adopted in the design when considering the biserial operation mostly.Manufacturing equipment with the biserial double driving system adopts back-to-back operation mode, and when desire was produced the 500mm wide cut, this design can't be prolonged usefulness, must update the equipment.And the manufacturing equipment volume size is big, easily limits the configuration space of factory building.
So, the part improved of inventor's thoughts the problems referred to above, the spy concentrates on studies and cooperates the utilization of scientific principle, proposes a kind of reasonable in design and effectively improve the utility model of above-mentioned defective finally.
The utility model content
Main purpose of the present utility model is to provide a kind of biserial patrilineal line of descent with only one son in each generation moving volume to volume continuous horizontal formula production facilities, can improve the problem that the production facilities volume is excessive and productive costs is too high of biserial double driving system.
In order to reach above-mentioned purpose, the utility model provides a kind of biserial patrilineal line of descent with only one son in each generation moving volume to volume continuous horizontal formula production facilities, comprises one first feeding rotary machine, one first rewinding rotary machine, one second feeding rotary machine, one second rewinding rotary machine, an overhead feeding unit, an overhead rewinding unit and a manufacturing board.Form one first transport path between this first feeding rotary machine and this first rewinding rotary machine, wherein this first transport path is in order to carry one first flexible circuit board.This first feeding rotary machine and this first rewinding rotary machine have one first feeding reel and one first rewinding reel respectively.Form one second transport path between this second feeding rotary machine and this second rewinding rotary machine, wherein this second transport path is in order to carry one second flexible circuit board.This second feeding rotary machine and this second rewinding rotary machine have one second feeding reel and one second rewinding reel respectively.This overhead feeding unit has an overhead feeding roller and an overhead feeding pillar, all is located at the top of this second feeding rotary machine.This overhead rewinding unit has an overhead rewinding roller and an overhead rewinding pillar, all be located at the top of this second rewinding rotary machine, wherein this overhead feeding unit is made between the board at this first feeding rotary machine and this, and this overhead rewinding unit is made between the board at this first rewinding rotary machine and this.Wherein this overhead feeding unit and this overhead rewinding unit all are positioned on this first transport path, and improve local this first transport path.This manufacturing board has a conveying roller platform, is located between this first transport path and this second transport path.
The utlity model has following useful effect: the utility model utilizes the mode of volume to volume continuous horizontal as transport model, can significantly reduce manpower.The utility model is improved to the moving system of biserial patrilineal line of descent with only one son in each generation with the biserial double driving system, adopt the operation mode of homonymy, and the dislocation of transport path is overhead and equipment, the space effectively utilized, dwindle the volume size of this equipment, and then cost-cutting, lifting product quality and quality.
For enabling further to understand feature of the present utility model and technology contents, see also following about detailed description of the present utility model and accompanying drawing, yet appended accompanying drawing only provide with reference to and the explanation usefulness, be not to be used for the utility model is limited.
Description of drawings
The schematic perspective view of the volume to volume continuous horizontal formula production facilities that Fig. 1 the utility model biserial patrilineal line of descent with only one son in each generation is moving;
The schematic perspective view of second embodiment of the volume to volume continuous horizontal formula production facilities that Fig. 2 the utility model biserial patrilineal line of descent with only one son in each generation is moving.
[main element description of reference numerals]
1 first feeding rotary machine
11 first feeding reels
12 first feeding fixed idler whells
13 first feeding material receivings
14 first feedings turnover roller
2 second feeding rotary machines
21 second feeding reels
22 second feeding fixed idler whells
23 second feeding material receivings
24 second feedings turnover roller
25 second feeding fixed legs
3 overhead feeding units
31 overhead feeding rollers
32 overhead feeding pillars
4 feeding transverse slats
41 feeding transverse slats turnover post
42 feeding transverse slat fixed legs
5 make board
51 conveying roller platforms
6 rewinding transverse slats
61 rewinding transverse slats turnover post
62 rewinding transverse slat fixed legs
7 overhead rewinding unit
71 overhead rewinding rollers
72 overhead rewinding pillars
8 first rewinding rotary machines
81 first rewinding reels
82 first rewinding fixed idler whells
83 first rewinding material receivings
84 first rewindings turnover roller
9 second rewinding rotary machines
91 second rewinding reels
92 second rewinding fixed idler whells
93 second rewinding material receivings
94 second rewindings turnover roller
95 second rewinding fixed legs
10 detent mechanisms
101 pedestals
102 steady arms
201 first feedings compacting anchor clamps
202 first rewindings compacting anchor clamps
203 second feedings compacting anchor clamps
204 second rewindings compacting anchor clamps
1,001 first flexible circuit boards
1,002 second flexible circuit boards
A first transport path
B second transport path
The specific embodiment
See also Fig. 1, for the utility model provides a kind of biserial patrilineal line of descent with only one son in each generation moving volume to volume continuous horizontal formula production facilities, comprise one first feeding rotary machine 1 and the one second feeding rotary machine 2 that is used for feeding, the one first rewinding rotary machine 8 that is used for rewinding and one second rewinding rotary machine, 9, one overhead feeding unit 3, one overhead rewinding unit 7 and a manufacturing board 5.This first feeding rotary machine 1 has one first feeding reel 11 and one first rewinding reel 81 respectively with this first rewinding rotary machine 8.This second feeding rotary machine 2 has one first feeding reel 21 and one first rewinding reel 91 respectively with this second rewinding rotary machine 9.Form one first transport path A between this first feeding rotary machine 1 and this first rewinding rotary machine 8, wherein this first transport path A is in order to carry one first flexible circuit board 1001.Form one second transport path B between this second feeding rotary machine 2 and this second rewinding rotary machine 9, wherein this second transport path B is in order to carry one second flexible circuit board 1002.
This overhead feeding unit 3 has an overhead feeding roller 31 and an overhead feeding pillar 32, all is located at the top of this second feeding rotary machine 2.This overhead rewinding unit 7 has an overhead rewinding roller 71 and an overhead rewinding pillar 72, all is located at the top of this second rewinding rotary machine 9.This overhead feeding unit 3 and this overhead rewinding unit 7 all are located on this first transport path A, wherein this overhead feeding unit 3 is made between the board 5 at this first feeding rotary machine 1 and this, and this overhead rewinding unit 7 is made between the board 5 at this first rewinding rotary machine 8 and this.The side of this second feeding rotary machine 2 and this second rewinding rotary machine 9, be respectively equipped with a feeding transverse slat 4 and a rewinding transverse slat 6, wherein this feeding transverse slat 4 is made between board 5 and this second feeding rotary machine 2 at this, and this rewinding transverse slat 6 is made between the board 5 at this second rewinding rotary machine 9 and this.This feeding transverse slat 4 has a feeding transverse slat turnover post 41 and a feeding transverse slat fixed leg 42.This rewinding transverse slat 6 has a rewinding transverse slat turnover post 61 and a rewinding transverse slat fixed leg 62.This feeding transverse slat turnover post 41, this feeding transverse slat fixed leg 42, this rewinding transverse slat turnover post 61 and this rewinding transverse slat fixed leg 62 all are located on this first transport path A.
This manufacturing board 5 has a conveying roller platform 51 that is used to carry this first flexible circuit board 1001 and this second flexible circuit board 1002, is located between this first transport path A and this second transport path B.This manufacturing board 5 is provided with a plurality of dashpots, a plurality of bellows, a plurality of pharmaceutical quantities and joins groove and a plurality of chemical agent storage tank.
This first feeding rotary machine 1 is located at a side of this second feeding rotary machine 2, and this first feeding rotary machine 1 and this second feeding rotary machine 2 are along the direction of this first transport path A suitable distance that staggers.This first rewinding rotary machine 8 is located at a side of this second rewinding rotary machine 9, and this first rewinding rotary machine 8 and this second rewinding rotary machine 9 are along the direction of this first transport path A suitable distance that staggers.The overhead feeding unit 3 of this of this first transport path A and this overhead rewinding unit 7 all are positioned on this first transport path A, and improve local this first transport path A.
This first feeding rotary machine 1 and this second feeding rotary machine 2 carry out feeding synchronously, process through this manufacturing board 5, then carry out rewinding by this first rewinding rotary machine 8 and this second rewinding rotary machine 9, this is the work pattern of the moving volume to volume continuous horizontal formula production facilities of biserial patrilineal line of descent with only one son in each generation.
See also Fig. 2, be second embodiment of the present utility model.Among the figure except disclose above-mentioned, this first feeding rotary machine 1 further comprises one first feeding fixed idler whell 12, one first feeding material receiving 13 and one first feeding turnover roller 14, all is located on this first transport path A.This second feeding rotary machine 2 further comprises one second feeding fixed idler whell 22, one second feeding material receiving 23, one second feeding turnover roller 24 and one second feeding fixed leg 25, all is located on this second transport path B.This first rewinding rotary machine 8 further comprises one first rewinding fixed idler whell 82, one first rewinding material receiving 83 and one first rewinding turnover roller 84, all is located on this first transport path A.This second rewinding rotary machine 9 further comprises one second rewinding fixed idler whell 92, one second rewinding material receiving 93, one second rewinding turnover roller 94 and one second rewinding fixed leg 95, all is located on this second transport path B.
This first feeding material receiving 13 is located at the side of this first feeding rotary machine 1, places the below of this first flexible circuit board 1001.This first rewinding material receiving 83 is located at the side of this first rewinding rotary machine 8, places the below of this second flexible circuit board 1002.
This first feeding fixed idler whell 12 and the first rewinding fixed idler whell 82 are located at the side of this first feeding rotary machine 1 and this first rewinding rotary machine 8 respectively, lay respectively at the both sides of this first feeding material receiving 13 and this first rewinding material receiving 83, and place the below of this first flexible circuit board 1001.This second feeding fixed idler whell 22 and the second rewinding fixed idler whell 92 are located at the side of this second receiving and feeding rotary machine 2 and this second rewinding rotary machine 9 respectively, lay respectively at the both sides of this second feeding material receiving 23 and this second rewinding material receiving 93, and place the below of this second flexible circuit board 1002.Wherein, this second feeding material receiving 23 and this second rewinding material receiving 93 are located at the side of this second feeding rotary machine 2 and this second rewinding rotary machine 9 respectively, and all are positioned on this second transport path B.
Further disclose a location mechanism 10 among Fig. 2, this detent mechanism 10 comprises a pedestal 101 and a steady arm 102, place between this second feeding rotary machine 2 and the manufacturing board 5, wherein this steady arm 102 is located at the top of this pedestal 101, is used to carry the location and the correction of this first flexible circuit board 1001 and this second flexible circuit board 1002.Further have one first feeding compacting anchor clamps 201 and one first rewinding compacting anchor clamps 202 among Fig. 2, these first feeding compacting anchor clamps 201 and this first rewinding compacting anchor clamps 202 press down this first flexible circuit board 1001 respectively on this first feeding material receiving 13 and this first rewinding material receiving 83, and all are located on this first transport path A.Further have one second feeding compacting anchor clamps 203 and one second rewinding compacting anchor clamps 204 among Fig. 2, these second feeding compacting anchor clamps 203 and this second rewinding compacting anchor clamps 204 press down this second flexible circuit board 1002 respectively on this second feeding material receiving 23 and this second rewinding material receiving 93, and all are located on this second transport path B.
The utility model carries out this first flexible circuit board 1001 of feeding and this second flexible circuit board 1002 synchronously by this first feeding rotary machine 1 and this second feeding rotary machine 2.This first flexible circuit board 1001 and this second flexible circuit board 1002 are bent and are around in this first fixed idler whell 12 and this second fixed idler whell 22, pass through this first feeding material receiving 13 and this second feeding material receiving 23.These first feeding compacting anchor clamps 201 and this second feeding compacting anchor clamps 203 press down the end face of this first flexible circuit board 1001 and this second flexible circuit board 1002 on this first feeding material receiving 13 and this second feeding material receiving 23.Behind this first flexible circuit board 1001 and this second flexible circuit board 1002 these first feeding material receivings 13 of process and this second feeding material receiving 23, curved downwards around this first feeding turnover roller 14 and this second feeding turnover roller 24.
This first flexible circuit board 1001 is curved behind this first feeding turnover roller 14, carries curved this overhead feeding roller 31 that is around in this overhead rewinding unit 3 toward this overhead rewinding unit 3 that improves local this first transport path A.Wherein this overhead feeding roller 31 is articulated in this overhead feeding pillar 32, and this overhead feeding pillar 32 is fixed in the top of this second feeding rotary machine 2.This first flexible circuit board 1001 is bent the feeding transverse slat turnover post 41 around this feeding transverse slat 4 downwards through after the part first feeding path A of these second feeding rotary machine, 2 tops.Curved behind this feeding transverse slat turnover post 41, the upwards curved feeding transverse slat fixed leg 42 of this first flexible circuit board 1001 around this feeding transverse slat 4, first flexible circuit, 1001 plates are delivered on the pedestal 101 of this detent mechanism 10, through the steady arm on the pedestal 102 location and after proofreading and correct, be delivered on the conveying roller platform of this manufacturing board 5 on 51.First flexible circuit board 1001 on this conveying roller platform on 51 utilizes on this conveying roller platform 51 roller that this first flexible circuit board 1001 to be processed is delivered in this manufacturing board 5 and makes processing.
This second flexible circuit board 1002 is curved behind this second feeding turnover roller 24, upwards curved around this second feeding fixed leg 25, second flexible circuit board 1002 is delivered on the pedestal 101 of this detent mechanism 10, through 102 location of the steady arm on the pedestal and after proofreading and correct, be delivered on the conveying roller platform of this manufacturing board 5 on 51, carry this flexible circuit board 1002 to this manufacturing board 5 to be processed to process by 51 roller on this conveying roller platform.
This first flexible circuit board 1001 leaves this conveying roller platform 51 curved rewinding transverse slat fixed legs 62 around this rewinding transverse slat 6 after processing.Behind this rewinding transverse slat fixed leg 62, curved downwards behind this rewinding transverse slat turnover post 61, carry curved this overhead rewinding roller 71 that is around in this overhead rewinding unit 7 toward this overhead rewinding unit 7 that improves local this first transport path A.Wherein this overhead rewinding roller 71 is articulated in this overhead rewinding pillar 72, and this overhead rewinding pillar 72 is fixed in the top of this second rewinding rotary machine 9.This first flexible circuit board 1001 is through after the part first feeding path A of these second rewinding rotary machine, 9 tops, and is curved around this first rewinding turnover roller 84.
This second flexible circuit board 1002 is after processing, and it is curved behind this second rewinding fixed leg 95 to leave this conveying roller platform 51, and is curved downwards around this second rewinding turnover roller 94.
This first flexible circuit board 1001 and this second flexible circuit board 1002 are curved respectively behind this first rewinding turnover roller 84 and this second rewinding turnover roller 94, curved respectively around this first rewinding fixed idler whell 82 and the second rewinding fixed idler whell 92, carry this first flexible circuit board 1001 and this second flexible circuit board 1002 to this first rewinding material receiving 83 and this second rewinding material receiving 93.This first rewinding compacting anchor clamps 202 and this second rewinding compacting anchor clamps 204 press down this first flexible circuit board 1001 after the processing and the end face of this second flexible circuit board 1002, on this first rewinding material receiving 83 and this second rewinding material receiving 93.Conveying is behind this first rewinding material receiving 83 and this second rewinding material receiving 93, and this first rewinding rotary machine 8 and this second rewinding rotary machine 9 carry out rewinding.
The manufacture method of flexible circuit board adopts the manufacturing equipment of biserial double driving system mostly at present, adopts the operation mode of back-to-back heteropleural, and this equipment easily limits the spatial destribution of factory building except waste of manpower and high maintenance cost.The utility model is improved to the moving system of biserial patrilineal line of descent with only one son in each generation with the biserial double driving system, adopts the operation mode of homonymy, and the dislocation of transport path is overhead and equipment, effectively utilize the space, dwindle the volume size of this equipment, and then reduce manpower and cost-cutting, promote product quality and quality.
The volume to volume continuous horizontal formula production facilities that the utility model biserial patrilineal line of descent with only one son in each generation is moving, this equipment is produced single-row 500mm and must do not updated the equipment again with fabric width 650mm, and this is that the production facilities of biserial double driving system is too far behind to catch up, effectively meets economic benefit.
But; the above only is preferred embodiment of the present utility model, and is non-so limit to protection domain of the present utility model, so the equivalence of using the utility model specification sheets and accompanying drawing content to be done such as changes; all in like manner all be contained in the protection domain of the present utility model, hereby statement.