CN218632063U - Transmission roller set structure of photovoltaic module laminating machine and laminating machine transmission mechanism - Google Patents
Transmission roller set structure of photovoltaic module laminating machine and laminating machine transmission mechanism Download PDFInfo
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- CN218632063U CN218632063U CN202222373021.0U CN202222373021U CN218632063U CN 218632063 U CN218632063 U CN 218632063U CN 202222373021 U CN202222373021 U CN 202222373021U CN 218632063 U CN218632063 U CN 218632063U
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- 230000007246 mechanism Effects 0.000 title claims abstract description 29
- 230000005540 biological transmission Effects 0.000 title claims description 132
- 238000010030 laminating Methods 0.000 title claims description 19
- 239000004744 fabric Substances 0.000 claims abstract description 69
- NJPPVKZQTLUDBO-UHFFFAOYSA-N novaluron Chemical group C1=C(Cl)C(OC(F)(F)C(OC(F)(F)F)F)=CC=C1NC(=O)NC(=O)C1=C(F)C=CC=C1F NJPPVKZQTLUDBO-UHFFFAOYSA-N 0.000 claims 1
- 238000005096 rolling process Methods 0.000 abstract description 6
- 230000001360 synchronised effect Effects 0.000 abstract description 4
- 230000009467 reduction Effects 0.000 abstract description 2
- 230000007547 defect Effects 0.000 abstract 1
- 230000000694 effects Effects 0.000 description 6
- 238000000034 method Methods 0.000 description 6
- 230000008569 process Effects 0.000 description 4
- 230000037303 wrinkles Effects 0.000 description 3
- 239000000463 material Substances 0.000 description 2
- 238000005299 abrasion Methods 0.000 description 1
- 230000002411 adverse Effects 0.000 description 1
- 230000008901 benefit Effects 0.000 description 1
- 230000008859 change Effects 0.000 description 1
- 238000010586 diagram Methods 0.000 description 1
- 239000003365 glass fiber Substances 0.000 description 1
- 238000004519 manufacturing process Methods 0.000 description 1
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
- Y02P70/00—Climate change mitigation technologies in the production process for final industrial or consumer products
- Y02P70/50—Manufacturing or production processes characterised by the final manufactured product
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Abstract
The utility model provides a photovoltaic module laminator drive roller set structure and laminator drive mechanism, aiming at the defects that high temperature cloth in the prior art rotates synchronously with a driving shaft, and flexible high temperature cloth is easy to generate folds and is scrapped in the synchronous rotation with the driving shaft, the laminator drive mechanism comprises a driving shaft group and a follow-up shaft group, one end or two ends of the high temperature cloth are fixedly arranged on a drive pull rod, a driving shaft roller sleeve is sleeved outside the driving shaft, driving chain wheels are fixedly arranged on outer drive shafts at two ends of the driving shaft, a power wheel is fixedly arranged on the outer drive shaft at one side of the driving shaft and is connected with a drive device through the power wheel, and the driving shaft is used for being rotationally connected with the laminator; adopt the utility model discloses structure cylinder and sprocket separately set up when the sprocket rotates, and the cylinder does not rotate along with it, but moves the rotation by high temperature cloth, does not produce the phenomenon of skidding between high temperature cloth and roller, and the two does not have sliding friction only have rolling friction, very big reduction with avoided high temperature cloth to produce the fold.
Description
Technical Field
The utility model relates to a laminator technical field, in particular to drive mechanism of laminator.
Background
The structure of the laminating machine, which is an important device for press forming of photovoltaic modules, has been a hot spot of competing research in the industry, wherein the transmission mechanism of the laminating machine is a very important part thereof. The transmission mechanism of the common laminating machine is slightly different from the transmission mechanism of common machinery, the common transmission mechanism mostly adopts transmission parts such as a transmission belt or a synchronous belt to carry out transmission, an annular transmission part is sleeved on transmission shafts positioned at two ends of a rack, the transmission parts are in a tensioning state, and the transmission parts are directly or indirectly transmitted by the transmission shafts to carry out transmission. In the transmission mechanism of the laminating machine, high-temperature cloth is generally adopted as a transmission part for transmission, the transmission mechanism comprises a transmission pull rod, the high-temperature cloth, a chain, a driving shaft and a driven shaft, chain wheels are arranged at two ends of the driving shaft and the driven shaft, the chain is connected with the chain wheels on the driving shaft and the driven shaft, the transmission pull rod is positioned between the two chains and is connected with the chain at the corresponding side through two ends of the transmission pull rod, one end or two ends of the high-temperature cloth are fixed on the transmission pull rod, the width of the high-temperature cloth is supported by a position rod assembly, the high-temperature cloth is driven to operate by the chain transmission pull rod arranged on the chain wheels, the high-temperature cloth is not in a complete tensioning state in the transmission of the high-temperature cloth, only the position carrying the photovoltaic assembly is in a tensioning state, therefore, the driving shaft and the driven shaft do not directly drive the high-temperature cloth to rotate, but drive the chain to move forwards, the power mechanism drives the chain wheels, the chain drives the chain to drive the transmission pull rod, the transmission pull rod drives the high-temperature cloth, the high-temperature cloth moves, and the total length of the high-temperature cloth is slightly larger than that of the chain. When the high-temperature cloth is driven, the linear speeds of the driving shaft and the driven shaft are inconsistent with the advancing speed of the high-temperature cloth, so that the high-temperature cloth slides relative to the driving shaft and the driven shaft to generate sliding friction, and the high-temperature cloth is made of a material with certain flexibility, is generally made of glass fiber, and is easy to wrinkle and scrap when rotating in cooperation with the driving shaft.
SUMMERY OF THE UTILITY MODEL
The utility model aims at providing a high temperature cloth to prior art is being rotated with the driving shaft is synchronous by driven in-process, and flexible high temperature cloth easily produces the fold and condemned not enough in the synchronous revolution with the driving shaft provides a photovoltaic module laminator drive roller set structure and laminator drive mechanism.
The utility model aims at realizing through the following technical scheme:
the utility model provides a photovoltaic module laminator drive roller set structure, includes the transmission shaft, overlaps and establishes the roller that is connected with the transmission shaft rotation outside the transmission shaft, and the both ends of transmission shaft all are located the roller and constitute outer transmission shaft outward, at both sides outer transmission shaft is last fixedly to be provided with the drive wheel, and the drive wheel is used for being connected with the drive disk assembly, and outer transmission shaft is used for rotating with equipment and is connected.
And the outer transmission shaft is provided with a bearing, and the bearing is used for realizing the rotation connection of the transmission shaft and equipment.
The transmission shaft is an integral shaft and penetrates through two ends of the roller, or the transmission shaft is a split shaft and is positioned at two ends of the roller, and the two transmission shafts are coaxially arranged.
And the outer transmission shaft is provided with a power wheel which is used for connecting a driving device.
A laminator transmission mechanism comprises a transmission pull rod, high-temperature cloth, a driving shaft group (1) and a follow-up shaft group (2), wherein one end or two ends of the high-temperature cloth are fixedly arranged on the transmission pull rod, and the laminator transmission mechanism is characterized in that the driving shaft group (1) comprises a driving shaft roller (101), a driving shaft (102), a driving sprocket (106) and a power wheel, the driving shaft roller is sleeved outside the driving shaft, the driving shaft roller and the driving shaft roller are coaxially arranged and rotatably connected, two ends of the driving shaft are respectively positioned outside the driving shaft roller to form outer transmission shafts, the driving sprockets are fixedly arranged on the outer transmission shafts at the two ends of the driving shaft, the power wheel is fixedly arranged on the outer transmission shaft at one side of the driving shaft and is connected with a driving device through the power wheel, and the driving shaft is provided with a bearing for being rotatably connected with a laminator; the laminating machine is characterized in that the follow-up shaft group comprises a follow-up roller (206), a follow-up shaft (201) and a follow-up chain wheel (202), the follow-up roller is coaxially connected with the follow-up shaft, the follow-up chain wheel is arranged on the part, namely an outer follow-up shaft, of the follow-up shaft, the follow-up roller rotates relative to the follow-up chain wheel, a bearing is arranged on each outer follow-up shaft and used for being rotatably connected with the laminating machine, the driving chain wheel is connected with the follow-up chain wheel on the corresponding side through a driving chain, two ends of the driving pull rod are fixedly connected with the driving chains on the corresponding side respectively, and the driving pull rod is arranged in parallel with the driving shaft.
The outer follow-up shaft is fixedly connected with the follow-up roller, and the follow-up chain wheel (202) is rotationally connected with the outer follow-up shaft; or the outer follow-up shaft is rotationally connected with the follow-up roller, and the follow-up chain wheel (202) is fixedly connected with the outer follow-up shaft, so that the follow-up roller and the follow-up chain wheel rotate relatively.
The high-temperature cloth at least comprises two high-temperature cloth, the number of the transmission pull rods is at least two, the two ends of each high-temperature cloth are connected with the transmission pull rods, each high-temperature cloth forms a closed loop through the transmission pull rods, and/or the sum of the driving roller group and the follow-up roller group is four, wherein the driving roller group at least comprises one driving roller group, and the transmission chains supported by the driving roller group and the follow-up roller group are rectangular.
The power wheel is a chain wheel or a belt wheel, and/or the bearing is a belt seat bearing.
A first positioning sleeve (105) and a first elastic check ring (109) are fixedly arranged on the outer transmission shaft to axially position the driving sprocket and the power wheel, and the driving sprocket and the power wheel are positioned between the first positioning sleeve and the first elastic check ring for the shaft; and/or a second positioning sleeve (204) and a second shaft elastic check ring (205) are fixedly arranged on the outer follow-up shaft, and the follow-up chain wheel (202) is positioned between the second positioning sleeve (204) and the second shaft elastic check ring (205) and is axially positioned through the second positioning sleeve (204) and the second shaft elastic check ring (205).
Adopt the utility model discloses photovoltaic module laminator drive roller set structure of structure, because the axle both ends are provided with the rolling bearing, can rotate with the setting and be connected, the axle overcoat is equipped with the roller, the roller rotates with the axle and is connected, therefore, when the axle rotates, the roller does not rotate rather than together, rotation between the two is independent, in addition epaxial being provided with be used for the power wheel of being connected with drive chain, therefore, the axle rotates and the roller does not move when power drive, a free roller is provided for drive roller set, it can not produce and skid not have the transmission relation between the drive part that passes through outside the roller and roller, consequently, can not produce sliding friction, make the drive part through it not receive the adverse effect that sliding friction takes to.
Adopt the utility model discloses laminator drive mechanism of structure, set the driving shaft in the driving shaft group to two parts, one part is that transmission shaft and sprocket are connected, another part is that the cylinder cover is established outside the transmission shaft, cylinder and sprocket separately set up, do not throw out of connection between the two, when the sprocket rotates, the cylinder does not rotate along with it, but by the dynamic rotation of high temperature cloth, do not regard as the transmission shaft, but as follow-up shaft, do not produce the phenomenon of skidding between high temperature cloth and roller, there is only rolling friction between the two, greatly reduced the frictional resistance between high temperature cloth and roller, very big reduction and avoided high temperature cloth to produce the fold.
Drawings
Fig. 1 is a schematic side view of a transmission mechanism of a laminating machine according to the present invention;
fig. 2 is a schematic structural view of an embodiment of the driving shaft assembly of the present invention;
FIG. 3 is a schematic structural view of an embodiment of a transmission member
Fig. 4 is a schematic structural diagram of an embodiment of a follower shaft group.
Description of the reference numerals
1-driving shaft group, 2-follow-up shaft group, 3-transmission part, 4-power transmission part, 5-power mechanism and 6-photovoltaic module
101-driving shaft roller, 102-driving shaft, 103-bearing, 104-hole circlip one, 105-positioning sleeve one, 106-driving chain wheel, 107-power wheel, 108-key, 109-shaft circlip one, 110-bearing with seat, 111-driving chain, 112-driving pull rod, 113-high temperature cloth.
201-follow shaft, 202-follow chain wheel, 203-second circlip for hole, 204-second positioning sleeve, 205-second circlip for shaft; 206. a follow-up roller; 207. an outer follower shaft;
Detailed Description
The present invention will be further described with reference to the following specific embodiments:
as shown in fig. 1, the direction of the arrows shown in the figure is the direction of transmission. The utility model discloses a laminator drive mechanism includes drive shaft group 1, follow-up shaft group two 2, drive disk assembly 3, power transmission part 4 and power unit 5 that comprise drive chain 111, transmission pull rod 112 and many high temperature cloth 113. At least one follow-up shaft group 2, 3 groups in the embodiment, is included. The transmission chain is supported by the driving shaft group and the driven shaft group to form a quadrangle or a trilateral, and when the transmission chain is a trilateral, the straight side is positioned above the driving shaft group and the driven shaft group.
The driving roller set and the follow-up roller set can adopt the following structure of the transmission roller set of the photovoltaic module laminating machine, and each structure comprises a transmission shaft and a roller which is sleeved outside the transmission shaft and is rotationally connected with the transmission shaft, two ends of the transmission shaft are respectively positioned outside the roller to form an outer transmission shaft, transmission wheels are fixedly arranged on the outer transmission shafts on two sides and are used for being connected with transmission parts, and a bearing is arranged on the outer transmission shaft and is used for realizing the rotation connection of the transmission shaft and equipment.
Specifically, as shown in fig. 2, the driving shaft group 1 includes a driving shaft roller 101, a driving shaft 102, and a driving sprocket 106, wherein the middle portion of the driving shaft 102 is disposed inside the hollow driving shaft roller 101, the two are coaxially disposed, two ends of the driving shaft 102 are rotatably connected with two ends of the driving shaft roller through bearings 103, respectively, and the driving shaft 102 can freely rotate at the center of the driving shaft roller 101. The two ends of the driving shaft are positioned outside the driving shaft roller to form outer transmission shafts, driving chain wheels 106 are respectively arranged on the outer transmission shafts at the two ends of the driving shaft, and the driving chain wheels 106 are fixedly connected with the outer transmission shafts of the driving shaft. A power wheel 107 of a power mechanism is fixedly arranged on an outer transmission shaft on at least one side of a driving shaft, in the embodiment, a driving chain wheel 106 and the power wheel 107 are fixedly connected with the outer transmission shaft of the driving shaft 102 through keys 108, so that the driving chain wheel 106 and the power wheel 107 can rotate along with the driving shaft 102, a positioning sleeve I105 and a circlip I109 are fixedly arranged on the outer transmission shaft of the driving shaft, and the driving chain wheel and the power wheel are axially positioned between the positioning sleeve I105 and the circlip I109 for the shaft. The power wheel 107 is connected to the output end of the power mechanism 5 through the power transmission part 4, of course, the power wheel may be a sprocket wheel or a belt wheel, when the sprocket wheel is used as the power wheel, the power transmission part is a transmission chain and is connected to the output end of the power mechanism through the transmission chain, and when the belt wheel is used as the power wheel, the power transmission part is a transmission belt and is connected to the output end of the power mechanism through the transmission belt. Both ends of the driving shaft 102 are provided with a bearing 110 with a seat, and the driving shaft 102 is rotatably provided on a frame body of the apparatus through the bearing 110 with a seat. The driving chain wheels 106 on two sides are respectively provided with a driving chain 111, a driving pull rod 112 is arranged between the two driving chains 111, the driving pull rod 112 is arranged in parallel with the driving shaft, two ends of the driving pull rod 112 are respectively and fixedly connected with the driving chain on the corresponding side in a detachable mode, and the driving pull rod 112 can move in parallel with the chains. The transmission pull rod 112 is provided with the high-temperature cloth 113, at least two groups of the transmission pull rod 112 and the high-temperature cloth 113 are respectively arranged, the high-temperature cloths 113 are connected through the transmission pull rod 112 to form a closed loop, and move together with the transmission pull rod 112, it should be noted that the closed loop does not mean that the closed loop is completely closed to form a complete ring, but means that the high-temperature cloths are distributed on a transmission chain arranged along the ring. During operation, the power mechanism 5 drives the power wheel 107 to rotate, and simultaneously drives the driving shaft 102 to rotate, so as to drive the driving sprocket 106 to rotate, and then drive the driving chain 111, the driving pull rod 112 and the high temperature cloth 113 to move, and then the high temperature cloth 113 drives the photovoltaic module 6 to transmit. In the process, the driving shaft roller is rotatably connected with the driving shaft, and the driving shaft is supported by the bearings with seats at the two ends of the driving shaft, so that the driving shaft roller 101 does not rotate together with the driving shaft but is driven by the high-temperature cloth 113 to move in a follow-up manner. By adopting the structure, when the high-temperature cloth bypasses from the driving shaft roller, the driving shaft roller has no transmission effect on the high-temperature cloth, only has the supporting and guiding effect and only rotates under the effect of the high-temperature cloth, so that the high-temperature cloth and the driving shaft roller have rolling friction, the friction force is small, and the high-temperature cloth is not easy to wrinkle. The utility model discloses the biggest characteristics of well initiative shaft group 1 are, set driving shaft roller 101 and driving shaft 102 to independent motion, mutually noninterference, reduce fold and the wearing and tearing condition that the friction in the rotation of high temperature cloth 113 leads to.
The utility model discloses in, follow-up shaft group 2 can adopt the drive roller set structure unanimous with driving roller group, at this moment, including follow-up shaft, follow-up cylinder and follow-up sprocket, follow-up shaft and follow-up cylinder pass through the bearing and rotate and connect, follow-up sprocket is fixed to be set up at follow-up shaft and is located the part outside the follow-up cylinder also be exactly on the follow-up shaft, all fixes being provided with follow-up sprocket on the outer follow-up shaft of both sides, is provided with the bearing on the outer follow-up shaft of both sides, rotates through bearing and bearing frame and equipment and is connected. The driving chain wheel is connected with the follow-up chain wheel 202 through a transmission chain, the follow-up chain wheel 202 is driven to move by the transmission chain 111 connected with the driving shaft, and the follow-up roller is driven to move by the high-temperature cloth 113. Adopt above-mentioned structure, because the driving shaft roller cover is established outside the driving shaft with rotating, follow-up roller cover is established outside follow-up shaft 201 with rotating, in this process, driving shaft roller and follow-up roller all have no transmission relation with high temperature cloth, only play the effect of supporting and turning to the guide to high temperature cloth, all pass through from the two surface when high temperature cloth passes through driving shaft roller and follow-up roller, therefore, high temperature cloth is free on the two surface, this in-process, all do not produce the skidding between high temperature cloth 113 and driving shaft roller 101 and follow-up roller, all do not produce sliding friction and all be rolling friction, the wearing and tearing and the fold condition of high temperature cloth 113 have greatly been reduced, the reliability of equipment has been improved, the frequency of consumptive material change has been reduced, and then promote the productivity effect by a wide margin.
The following shaft group 2 can also adopt the following structure: as shown in fig. 4, the follower shaft group 2 includes a follower sprocket 202, a follower shaft 201 and a follower roller 206, the follower shaft is fixedly connected with the follower roller to form a whole, the follower shaft can be a long shaft or a short shaft, when the follower shaft is a long shaft, two ends of the follower shaft are positioned outside the follower roller to form an outer follower shaft 207, when the follower shaft is a short shaft, the outer follower shaft is equivalent to the outer follower shaft of the long follower shaft, and the follower shaft and the follower roller are fixedly integrated and coaxially arranged. The outer follow-up shafts on two sides of the follow-up roller 206 are respectively provided with a follow-up chain wheel 202, the follow-up chain wheels 202 are rotationally arranged on the outer follow-up shafts on the corresponding sides, in one embodiment, at least one bearing 103 (in this embodiment, each follow-up chain wheel is provided with 2) is embedded in the follow-up chain wheel 202, and the inner rings of the bearings 103 are in fit connection with the outer follow-up shafts on two ends of the follow-up shaft 201, so that the follow-up chain wheels 202 and the follow-up shaft 201 are rotationally connected and respectively and independently move. And a second positioning sleeve 204 and a second shaft elastic baffle ring 205 are fixedly arranged on the outer follow-up shaft, and the follow-up chain wheel 202 is positioned between the second positioning sleeve 204 and the second shaft elastic baffle ring 205 and is axially positioned through the second positioning sleeve 204 and the second shaft elastic baffle ring 205. The two ends of the follow-up shaft group 2 are provided with bearings 110 with seats, the outer follow-up shaft is connected with the bearings 110 on the corresponding side, and the follow-up shaft 201 is rotatably arranged on the frame body of the equipment through the bearings with seats. The driving chain wheel is connected with the follow-up chain wheel 202 through a transmission chain, the follow-up chain wheel 202 is driven to move by the transmission chain 111 connected with the driving shaft, and the follow-up shaft 201 is driven to move by the high-temperature cloth 113. Adopt this structure, follow-up shaft and follow-up sprocket rotate to be connected, consequently, when follow-up sprocket rotates, follow-up shaft motionless, follow-up shaft is by the high temperature cloth move rotation, does not produce sliding friction or frictional force between follow-up shaft and high temperature cloth very little, and the two is mainly rolling friction, consequently, frictional force is reduced.
In the working set, the power mechanism 5 drives the driving shaft 102 in the driving shaft set 1 to rotate through the power transmission component 4, the driving sprockets 106 at both ends of the driving shaft set 1 drive the following sprockets 202 in each following shaft set 2 to rotate through the surrounding transmission chain 111 (as shown in fig. 2 and 3) so as to drive the transmission position rod to move, the transmission pull rod 112 (as shown in fig. 2 and 3) arranged on the transmission chain 111 drives the high-temperature cloth 113 to rotate together, and further drives the photovoltaic module 6 on the high-temperature cloth 113 to move, so that the photovoltaic module 6 is transmitted to the laminating machine from other devices or transmitted to other devices from the laminating machine. Because the driving shaft roller is rotationally sleeved outside the driving shaft, the follow-up roller and the follow-up chain wheel rotate relatively, in the process, the driving shaft roller and the follow-up roller are not in transmission relation with the high-temperature cloth, only play a role in supporting and steering the high-temperature cloth, and pass through the surfaces of the driving shaft roller and the follow-up roller when the high-temperature cloth passes through the driving shaft roller and the follow-up roller, therefore, the high-temperature cloth is free on the surfaces of the driving shaft roller and the follow-up roller, in the process, the high-temperature cloth 113, the driving shaft roller 101 and the follow-up roller do not slip, the high-temperature cloth 113 is not subjected to sliding friction, the high-temperature cloth 113 is greatly reduced in abrasion and wrinkle, the reliability of equipment is improved, the frequency of consumable replacement is reduced, and further the production benefit is greatly improved.
Claims (9)
1. The utility model provides a photovoltaic module laminator drive roller set structure which characterized in that, includes the transmission shaft, overlaps and establishes the roller that is connected with the transmission shaft rotation outside the transmission shaft, and the both ends of transmission shaft all lie in the roller and constitute outer transmission shaft outward, at both sides outer transmission shaft is last fixedly to be provided with the drive wheel, the drive wheel is used for being connected with the drive disk assembly, outer transmission shaft is used for being connected with equipment rotation.
2. The photovoltaic module laminator drive roller set structure of claim 1, wherein the outer drive shaft is provided with a bearing, and the bearing is used for rotatably connecting the drive shaft with the equipment.
3. The structure of the transmission roller group of the photovoltaic module laminating machine as claimed in claim 1 or 2, wherein the transmission shafts are integral shafts and penetrate through both ends of the roller, or the transmission shafts are split shafts and are positioned at both ends of the roller, and the two transmission shafts are coaxially arranged.
4. The photovoltaic module laminating machine driving roller group structure as claimed in claim 1 or 2, wherein power wheels are arranged on the outer driving shaft and used for connecting with a driving device.
5. A laminator transmission mechanism comprises a transmission pull rod, high-temperature cloth, a driving shaft group (1) and a follow-up shaft group (2), wherein one end or two ends of the high-temperature cloth are fixedly arranged on the transmission pull rod, and the laminator transmission mechanism is characterized in that the driving shaft group (1) comprises a driving shaft roller (101), a driving shaft (102), a driving chain wheel (106) and a power wheel, the driving shaft roller is sleeved outside the driving shaft, the driving shaft roller and the driving shaft roller are coaxially arranged and rotatably connected, two ends of the driving shaft are respectively positioned outside the driving shaft roller to form outer transmission shafts, the driving chain wheels are fixedly arranged on the outer transmission shafts at two ends of the driving shaft, the power wheel is fixedly arranged on the outer transmission shaft at one side of the driving shaft and is connected with a driving device through the power wheel, and a bearing is arranged on the driving shaft and is used for being rotatably connected with a laminator;
the laminating machine is characterized in that the follow-up shaft group comprises a follow-up roller (206), a follow-up shaft (201) and a follow-up chain wheel (202), the follow-up roller is coaxially connected with the follow-up shaft, the follow-up chain wheel is arranged on the part, namely an outer follow-up shaft, of the follow-up shaft, the follow-up roller rotates relative to the follow-up chain wheel, a bearing is arranged on each outer follow-up shaft and used for being rotatably connected with the laminating machine, the driving chain wheel is connected with the follow-up chain wheel on the corresponding side through a driving chain, two ends of the driving pull rod are fixedly connected with the driving chains on the corresponding side respectively, and the driving pull rod is arranged in parallel with the driving shaft.
6. A laminator drive as claimed in claim 5 wherein said outer follower shaft is fixedly connected to said follower roller and said follower sprocket (202) is rotatably connected to said outer follower shaft; or the outer follow-up shaft is rotationally connected with the follow-up roller, and the follow-up chain wheel (202) is fixedly connected with the outer follow-up shaft, so that the follow-up roller and the follow-up chain wheel rotate relatively.
7. The laminator transmission mechanism of claim 5, wherein the number of the high temperature cloths is at least two, the number of the transmission pull rods is at least two, two ends of each high temperature cloth are connected with the transmission pull rods, each high temperature cloth forms a closed loop through the transmission pull rods, and/or the sum of the driving shaft group and the follower shaft group is four, wherein at least one driving shaft group is included, and the transmission chains supported by the driving shaft group and the follower shaft group are rectangular.
8. A laminator drive according to claim 5, wherein said power wheel is a sprocket or pulley and/or said bearing is a pedestal bearing.
9. The laminating machine transmission mechanism as recited in claim 5, wherein a first positioning sleeve (105) and a first circlip (109) are fixedly arranged on the outer transmission shaft to axially position the driving sprocket and the power wheel, and the driving sprocket and the power wheel are positioned between the first positioning sleeve and the first circlip for the shaft; and/or a second positioning sleeve (204) and a second shaft elastic check ring (205) are fixedly arranged on the outer follow-up shaft, and the follow-up chain wheel (202) is positioned between the second positioning sleeve (204) and the second shaft elastic check ring (205) and is axially positioned through the second positioning sleeve (204) and the second shaft elastic check ring (205).
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202222373021.0U CN218632063U (en) | 2022-09-07 | 2022-09-07 | Transmission roller set structure of photovoltaic module laminating machine and laminating machine transmission mechanism |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202222373021.0U CN218632063U (en) | 2022-09-07 | 2022-09-07 | Transmission roller set structure of photovoltaic module laminating machine and laminating machine transmission mechanism |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN218632063U true CN218632063U (en) | 2023-03-14 |
Family
ID=85463171
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN202222373021.0U Active CN218632063U (en) | 2022-09-07 | 2022-09-07 | Transmission roller set structure of photovoltaic module laminating machine and laminating machine transmission mechanism |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN218632063U (en) |
-
2022
- 2022-09-07 CN CN202222373021.0U patent/CN218632063U/en active Active
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