CN210516336U - Busbar insulation cladding workbench - Google Patents
Busbar insulation cladding workbench Download PDFInfo
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- CN210516336U CN210516336U CN201921340964.5U CN201921340964U CN210516336U CN 210516336 U CN210516336 U CN 210516336U CN 201921340964 U CN201921340964 U CN 201921340964U CN 210516336 U CN210516336 U CN 210516336U
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- sliding
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- busbar
- placing groove
- sliding plate
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Abstract
The utility model discloses a bus bar insulation cladding workbench, which comprises an operation platform, a fixed plate and a sliding plate; the fixed plate is fixedly installed on the operation platform, a placing groove used for placing the insulating thin films and the busbar is formed in the fixed plate, the sliding plates are arranged on two sides of the placing groove in a sliding mode, the sliding direction of the sliding plates faces the placing groove and can stretch into the upper portion of the placing groove in a sliding mode, and the insulating thin films on two sides of the busbar are folded towards the middle of the busbar. The utility model discloses a female insulating cladding workstation of arranging has both guaranteed female insulating cladding quality of arranging, has promoted production efficiency again and has reduced production personnel's intensity of labour, synthesizes the manufacturing cost who has reduced the bus duct.
Description
Technical Field
The utility model relates to a bus duct manufacturing technical field especially relates to a female insulating cladding workstation that arranges.
Background
In the production and manufacturing process of the bus duct, the bus bar insulation coating of the bus duct is the key for determining the performance of the bus duct, the bus bar insulation coating is the most time-consuming in the production process of the bus duct, most manufacturers in the industry nowadays use formed matched insulation films for coating, but the cost is higher compared with that of the unformed insulation films. And if the unformed insulating film is adopted for coating, the production efficiency is lower, the coating quality is difficult to ensure, and the labor intensity of production personnel is higher. Therefore, on the basis of reducing the material cost as much as possible, finding an effective solution which can not only ensure the coating quality, but also improve the production efficiency and reduce the labor intensity of production personnel has important significance.
SUMMERY OF THE UTILITY MODEL
The utility model discloses aim at solving above-mentioned technical problem to a certain extent at least. Therefore, the utility model provides a female insulating cladding workstation of arranging guarantees under the female row quality prerequisite of cladding, reduces production personnel's intensity of labour, improves production efficiency, reduces manufacturing cost.
The utility model provides a technical scheme that its technical problem adopted is: a busbar insulation cladding workbench comprises an operation platform, a fixed plate and a sliding plate; the fixed plate is fixedly installed on the operating platform, a placing groove used for placing the insulating thin films and the busbar is formed in the fixed plate, the sliding plates are arranged on two sides of the placing groove in a sliding mode, the sliding direction of the sliding plates faces the placing groove and can stretch into the upper portion of the placing groove in a sliding mode, and therefore the insulating thin films on two sides of the busbar are folded towards the middle of the busbar.
Further, the device also comprises a sliding block which is arranged on the operating platform in a sliding way; the sliding direction of the sliding block is consistent with that of the sliding plate, a plurality of pairs of sliding block group movable notches for the sliding block to move are formed in the fixed plate, and each pair of sliding block group movable notches are symmetrically arranged on two sides of the placing groove; the top of the sliding block penetrates out of the movable notch of the sliding block group and is connected with the sliding plate.
Furthermore, a straight guide rail is arranged on the operating platform, the fixed plate covers the straight guide rail, the straight guide rail is positioned below the movable notch of the sliding block group, the extending direction of the straight guide rail is parallel to the sliding direction of the sliding plate, and the sliding block is movably arranged on the straight guide rail and can slide along the straight guide rail.
Furthermore, a limiting mechanism for limiting the stroke of the sliding plates is arranged between the sliding plates and the fixed plate, so that a gap is reserved between the two sliding plates which slide in opposite directions when the stroke of the two sliding plates is ended.
Furthermore, the limiting mechanism comprises a limiting groove arranged on the sliding plate and a limiting pin fixedly arranged on the fixed plate and extending into the limiting groove; the limiting groove extends along the sliding direction of the sliding plate.
Further, one end of the sliding plate facing the placing groove is provided with a round angle in smooth transition so as to prevent the insulating film from being damaged.
Further, one end of the sliding plate, which is back to the placing groove, is provided with an L-shaped folding edge structure so as to facilitate pushing the sliding plate.
Further, a replaceable adjusting plate for supporting the busbar is arranged at the bottom of the placing groove.
Furthermore, a support frame is arranged at the bottom of the operating platform to support the operating platform.
The utility model has the advantages that: placing unformed insulating film in a placing groove formed in a fixing plate, placing a busbar in the middle of the insulating film, pressing the middle of the busbar by an operator, pushing sliding plates located on two sides of the placing groove, sliding the sliding plates towards the placing groove, pushing the insulating films located on two sides of the busbar to be folded towards the middle of the busbar, pressing the insulating films to the upper surface of the busbar flatly, and finally, adhering the overlapped parts of the insulating films by using adhesive tapes by the operator to complete the insulating coating of the busbar. The utility model discloses a female insulating cladding workstation of arranging has both guaranteed female insulating cladding quality of arranging, has promoted production efficiency again and has reduced production personnel's intensity of labour, synthesizes the manufacturing cost who has reduced the bus duct.
Drawings
The present invention will be further explained with reference to the drawings and examples.
Fig. 1 is a front view of the mounting structure of the present invention;
fig. 2 is a top view of the mounting structure of the present invention;
fig. 3 is a left side view of the mounting structure of the present invention;
FIG. 4 is an enlarged view at A;
FIG. 5 is a top view of the fixing plate;
FIG. 6 is a front view of the fixing plate;
FIG. 7 is a top view of the slide plate;
fig. 8 is a front view of the slide plate.
Detailed Description
The present invention will be described in detail with reference to the accompanying drawings and examples.
Referring to fig. 1 to 8, a bus bar insulation cladding workbench according to the present invention includes an operation platform 100, a fixing plate 200 and a sliding plate 300; as shown in fig. 1 to 3, a support frame 101 is disposed at the bottom of the operation platform 100 to support the operation platform 100; the fixing plate 200 is fixedly mounted on the operation platform 100, and as shown in fig. 2, fig. 3 and fig. 5, a placing groove 201 for clamping the insulating film 701 and the busbar 702 is formed in the middle of the fixing plate 200. As shown in fig. 2, the sliding plates 300 are symmetrically disposed at both sides of the placement groove 201, and the sliding plates 300 can slide toward the placement groove 201. As shown in fig. 2 to 4, when two sliding plates 300 slide towards the placement groove 201 at the same time, an operator presses the middle of the bus bar 702, the two sliding plates 300 can push the insulating films 701 on both sides of the bus bar 702 to fold towards the middle of the bus bar 702 at the same time, and make the insulating films flatly attached to the upper surface of the bus bar 702, and finally, both ends of the insulating films 701 are overlapped together, at this time, the overlapped part is only adhered by an adhesive tape to complete the insulating coating work of the bus bar, it should be noted that, in this embodiment, the sliding direction of the sliding plates 300 should be perpendicular to the extending direction of the placement groove 201.
Specifically, as shown in fig. 5, a plurality of pairs of slider group moving slots 202 are formed in the fixed plate 200, and as can be seen from the figure, each pair of slider group moving slots 202 are arranged on both sides of the placing groove 201 and are symmetrical with respect to the axis of the placing groove 201. Further, in the present embodiment, the extending direction of the slider group moving slot 202 and the extending direction of the placement groove 201 are also perpendicular, that is, the longitudinal direction of the slider group moving slot 202 and the longitudinal direction of the placement groove 201 are perpendicular in the top view structure of the fixed plate 200 as shown in fig. 5. The purpose of this design is to effectively save the material cost and the production mold cost for processing the fixed plate 200, and to correspond to the aforementioned slide plate 300, i.e., to make the sliding direction of the slide plate 300 perpendicular to the extending direction of the placing groove 201 and to make the sliding stroke of the slide plate 300 the shortest when the slide plate 300 slides on the slider 401 disposed in the slider group moving slot 202 toward the placing groove 201.
As shown in fig. 2 to 4, a slider 401 is provided in the slider group moving slot 202, the slider 401 is slidable in the slider group moving slot 202, and the slide plate 300 is provided on the slider 401 and slidable with the slider 401. As shown in fig. 3 and 4, the sliding plate 300 slides in the sliding block set moving slot 202 to push the insulating films 701 at both sides of the bus bar 702 to fold toward the middle of the bus bar 702 and finally to coincide.
Specifically, as shown in fig. 2 to 6, a straight guide rail 402 is fixedly disposed on the operation platform 100, and the slider 401 is movably disposed on the straight guide rail 402 and can slide along the straight guide rail 402. The fixed plate 200 is overlaid on the straight guide rail 402, the straight guide rail 402 is located just below the slider group moving slot 202, and the track direction of the straight guide rail 402 is parallel to the extending direction of the slider group moving slot 202, i.e. the track direction of the straight guide rail 402 is consistent with the length direction of the slider group moving slot 202. The top of the slider 401 disposed on the straight guide rail 402 just penetrates through the corresponding slider group moving slot 202 and is exposed on the upper surface of the fixing plate 200, so the slider 401 can also slide in the slider group moving slot 202, and the sliding plate 300 is mounted on the top of the slider 401, so the sliding plate 300 can also slide along with the slider 401 sliding in the slider group moving slot 202, so this process is: firstly, the sliding block 401 can slide on the straight guide rail 402, the straight guide rail 401 is positioned below the sliding block group movable slot 202, the top of the sliding block 401 on the straight guide rail 402 penetrates out and is positioned in the sliding block group movable slot 202, and can only slide in the sliding block group movable slot 202, then the sliding plate 300 is arranged at the top of the sliding block 401, therefore, when the sliding block 401 slides in the sliding block group movable slot 202, the sliding plate 300 can be driven to slide along the direction of the busbar 702, and therefore the insulating films 701 at two sides of the busbar 702 are pushed to fold towards the middle of the busbar 702 and finally coincide.
As shown in fig. 2, a pair of symmetrical sliding plates 300, which are referred to herein as an upper sliding plate 300 and a lower sliding plate 300 shown in fig. 2, respectively; the upper sliding plate 300 slides toward the bus bar 702 (i.e., downward sliding in fig. 2), and the lower sliding plate 300 slides toward the bus bar 702 (i.e., upward sliding in fig. 2). If they are not constrained, the end result should be that the upper 300 and lower 300 slides will always be close and brought together. However, in the production process, since the overlapping portion of the insulating film 701 needs to be adhered to cover the bus bar 702, the upper sliding plate 300 and the lower sliding plate 300 cannot be folded, a certain gap needs to be left between the two, and the gap is large enough for an operator to adhere the overlapping portion of the insulating film 701. Therefore, in the present embodiment, as shown in fig. 2, 5 and 7, a stopper 500 is provided between the sliding plate 300 and the fixed plate 200 to limit the stroke of the sliding plate 300, prevent the upper sliding plate 300 and the lower sliding plate 300 from being folded, and leave a gap between them large enough for an operator to stick the overlapped portion of the insulating films 701.
Specifically, as shown in fig. 2, 7 and 8, the stopper mechanism 500 includes a stopper groove 501 provided on the sliding plate 300 and a stopper pin 502 fixedly provided on the fixing plate 200; the limit groove 501 extends along the sliding direction of the sliding plate 300, the top of the limit pin 502 extends into the limit groove 501, and the limit groove 501 is sleeved on the limit pin 502 and enables the sliding plate 300 to slide on the limit pin 502. The upper sliding plate 300 can only slide in the area and the stroke limited by the limit groove 501 and the limit pin 502, and when the sliding plate 300 slides to the maximum stroke, a gap still remains between the upper sliding plate 300 and the lower sliding plate 300, so that the operator can stick the overlapped part of the insulating film 701. As can be seen from fig. 2, in the present embodiment, two limiting mechanisms 500 are disposed on each sliding plate 300, such a design can make the sliding plate 300 slide more smoothly in the planned stroke of the limiting mechanisms 500, and similarly, when the length of the sliding plate 300 is longer, two or more sliding blocks 401 may also be disposed at the bottom of the sliding plate 300 to simultaneously drive the sliding plate 300 to slide, so as to ensure the smoothness of the sliding plate 300.
In addition, in order to prevent the sliding plate 300 from damaging the insulating film 701 in the packaging process, as shown in fig. 3, 4 and 8, the end surface of the sliding plate 300 facing the busbar 702 is provided with a smooth transition fillet 301, so that the insulating film 701 is not scratched in the process of pushing the sliding plate 300 to press the insulating film 701 to fold. In order to facilitate pushing the sliding plate 300 and operating the sliding plate 300 to press the insulating film 701 to cover the bus bar 702, an L-shaped hemming structure 302 is provided particularly at an end of the sliding plate 300 facing away from the placing groove 201, so that operating the sliding plate 300 becomes easier.
Because the depth of the placing groove 201 is fixed, and the various busbars 702 have different thicknesses, in order to enable the workbench to cover various different busbars 702, a structure capable of adjusting the depth of the placing groove 201 needs to be arranged on the placing groove 201, in this embodiment, as shown in fig. 4, an adjusting plate 203 is arranged in the placing groove 201, the adjusting plate 203 is arranged at the bottom of the placing groove 201, the depth of the placing groove 201 can be made different by replacing different adjusting plates 203, so as to adapt to busbars 702 with different thicknesses, and the workbench can cover various busbars 702 with different thicknesses.
Then, the working principle of this embodiment is:
firstly, an unformed insulating film 701 is placed in a placing groove 201 arranged on a fixing plate 200, then a busbar 702 is placed in the middle of the insulating film 701, an operator presses the middle of the busbar 702, then sliding plates 300 positioned on two sides of the placing groove 201 are respectively pushed, the sliding plates 300 slide towards the placing groove 201 direction and simultaneously push the insulating films 701 positioned on two sides of the busbar 702 to be folded towards the middle of the busbar 702, the insulating films 701 are flatly pressed on the upper surface of the busbar 702, finally, the insulating films 701 positioned on two sides of the busbar 702 are pushed by the sliding plates 300 to be overlapped, and then the operator adheres the overlapped parts of the insulating films 701 by using an adhesive tape to complete the insulating coating work of the busbar 702.
It should be particularly noted that, in other embodiments, when the busbar 702 is short, only one set of sliding plates 300 corresponding to each other needs to be arranged, at this time, only one pair of sliding plates 300 on both sides of the placement groove 201 need to be pushed to fold toward the middle of the busbar 702, and then the insulating film 701 on the busbar 702 can be subjected to adhesive treatment (instead of arranging multiple sets of sliding plates 300 as shown in fig. 2), and meanwhile, in order to ensure that the set of sliding plates 300 can slide stably, two or more sliding blocks 401 may be arranged at the bottom of the sliding plate 300 to drive the sliding plates 300 to slide simultaneously, so as to ensure the sliding stability of the sliding plates 300. The purpose of the design is to ensure that the sliding plates 300 on each side of the placing groove 201 are used as an integral structure to push the insulating film 701 to approach the middle of the busbar 702 at a synchronous speed, so that the insulating film 701 can be laid on the busbar 702 more smoothly, the coating quality can be ensured, and time and labor can be saved compared with a plurality of groups of sliding plates 300.
The above embodiments are only used for illustrating the technical solutions of the present invention and are not limited thereto, and any modification or equivalent replacement that does not depart from the spirit and scope of the present invention should be covered by the scope of the technical solutions of the present invention.
Claims (9)
1. The utility model provides a female insulating cladding workstation that arranges which characterized in that: comprises an operation platform (100), a fixed plate (200) and a sliding plate (300); the fixing plate (200) is fixedly installed on the operating platform (100), a placing groove (201) for placing the insulating thin films and the busbar is formed in the fixing plate (200), the sliding plates (300) are arranged on two sides of the placing groove (201) in a sliding mode, the sliding direction of the sliding plates (300) faces towards the placing groove (201) and can stretch into the upper portion of the placing groove (201) in a sliding mode so that the insulating thin films on two sides of the busbar are folded towards the middle of the busbar.
2. The busbar insulation cladding workbench according to claim 1, wherein: the device also comprises a sliding block (401) which is arranged on the operation platform (100) in a sliding way; the sliding direction of the sliding block (401) is consistent with that of the sliding plate (300), a plurality of pairs of sliding block group movable notches (202) for the sliding block (401) to move are formed in the fixed plate (200), and each pair of sliding block group movable notches (202) are symmetrically arranged on two sides of the placing groove (201); the top of the sliding block (401) penetrates out of the sliding block group movable slot opening (202) and is connected with the sliding plate (300).
3. The busbar insulation cladding workbench according to claim 2, wherein: the operating platform (100) is provided with a straight guide rail (402), the fixing plate (200) covers the straight guide rail (402), the straight guide rail (402) is positioned below the sliding block group movable slot opening (202) and the extending direction of the straight guide rail is parallel to the sliding direction of the sliding plate (300), and the sliding block (401) is movably arranged on the straight guide rail (402) and can slide along the straight guide rail.
4. The busbar insulation cladding workbench according to any one of claims 1 to 3, wherein: a limit mechanism (500) for limiting the stroke of the sliding plate (300) is arranged between the sliding plate (300) and the fixed plate (200), so that a gap is left between the two sliding plates (300) when the stroke of the two sliding plates (300) which slide towards each other is ended.
5. The busbar insulation cladding workbench according to claim 4, wherein: the limiting mechanism (500) comprises a limiting groove (501) arranged on the sliding plate (300) and a limiting pin (502) which is fixedly arranged on the fixing plate (200) and extends into the limiting groove (501); the limiting groove (501) extends along the sliding direction of the sliding plate (300).
6. The busbar insulation cladding workbench according to claim 5, wherein: one end of the sliding plate (300) facing the placing groove (201) is provided with a round angle (301) with smooth transition so as to prevent the insulating film from being damaged.
7. The busbar insulation cladding workbench according to claim 6, wherein: one end of the sliding plate (300) back to the placing groove (201) is provided with an L-shaped folding edge structure (302) so as to push the sliding plate (300).
8. The busbar insulation cladding workbench according to any one of claims 5 to 7, wherein: and a replaceable adjusting plate (203) for supporting the busbar is arranged at the bottom of the placing groove (201).
9. The busbar insulation cladding workbench according to claim 1, wherein: the bottom of the operating platform (100) is provided with a support frame (101) for supporting the operating platform.
Priority Applications (1)
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CN201921340964.5U CN210516336U (en) | 2019-08-16 | 2019-08-16 | Busbar insulation cladding workbench |
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CN201921340964.5U CN210516336U (en) | 2019-08-16 | 2019-08-16 | Busbar insulation cladding workbench |
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CN210516336U true CN210516336U (en) | 2020-05-12 |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN114132707A (en) * | 2021-12-23 | 2022-03-04 | 无锡易泽赛尔智能装备有限公司 | Female rubberizing material workstation of arranging |
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2019
- 2019-08-16 CN CN201921340964.5U patent/CN210516336U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN114132707A (en) * | 2021-12-23 | 2022-03-04 | 无锡易泽赛尔智能装备有限公司 | Female rubberizing material workstation of arranging |
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