CN220763292U - Rolling equipment of insulating film forming machine - Google Patents

Abstract

The utility model relates to a bus duct production and processing auxiliary assembly technical field especially relates to a coiling equipment of insulating film forming machine, and it is including placing subaerial operation panel, setting be in be used for curling the compound folding mechanism of insulating film and setting up on the operation panel be used for rolling up the insulating film of curling into the coiling subassembly of tube-shape on the operation panel, compound folding mechanism includes fixed connection support frame, sliding connection on the operation panel are in two baffles and drive two on the support frame the baffle is close to relatively or deviates from relatively in order to adjust two adjusting part of distance between the baffle, two form the crimping space that supplies the insulating film to slide in between the baffle. The width between this application has can be according to the insulating film to the baffle of different size is adjusted for this equipment can adapt to the effect of the processing of different model insulating films.

Description

Rolling equipment of insulating film forming machine

Technical Field

The application relates to the technical field of bus duct production and processing auxiliary equipment, in particular to rolling equipment of an insulating film forming machine.

Background

The bus duct is a system composed of a metal plate (steel plate or aluminum plate), a protective housing, a conductive bar, an insulating material and related accessories. When the conducting bar is used, a layer of insulating film needs to be wrapped on the conducting bar, and when the insulating film is processed, a single-layer insulating film needs to be folded into a double-layer insulating film, so that a placing space for placing the conducting bar is formed between the double-layer insulating films.

The insulating film setting machine mainly comprises a placing table, two baffle plates arranged at intervals and used for fixing the width of the insulating film on the placing table, a limit cylinder used for fixing the insulating film into a cylinder shape and a press roller used for pressing the insulating film into a double-layer film. The distance between the two baffles is generally the width of the double-layer insulating film after being folded, so that when the single-layer insulating film reaches between the two baffles, two sides of the insulating film are tilted upwards. When the insulation film is used, the space for the insulation film to pass through is reduced when the insulation film gradually reaches between the two baffles, and the two sides of the insulation film gradually tilt upwards, so that the section of the insulation film is U-shaped; then when the insulating film reaches the limit cylinder, the single-layer insulating film is further curled into a cylindrical shape; and finally, the curled insulating film is pressed and shaped through a pressing roller, so that the single-layer insulating film is automatically curled into a double-layer insulating film. However, since the distance between the two baffles is fixed, only the fixed specification insulating film member can be processed and folded, and when the insulating films of different sizes are required to be processed, other insulating film customizing machines are required to be used, thereby increasing the production cost.

Disclosure of Invention

In order to adjust the width between the baffle according to the insulating film of different size for this equipment can adapt to the processing of different model insulating film, this application provides a rolling equipment of insulating film forming machine.

The application provides a rolling equipment of insulating film forming machine adopts following technical scheme:

the utility model provides a rolling equipment of insulating film forming machine, is in including placing subaerial operation panel, setting be in be used for curling the compound folding mechanism of insulating film and setting are in be used for rolling up the insulating film of curling into the rolling subassembly of tube-shape on the operation panel, compound folding mechanism includes fixed connection support frame, sliding connection on the operation panel are in two baffles on the support frame and drive two the baffle is close to relatively or deviate from in order to adjust two adjusting part of distance between the baffle, adjusting part installs the support frame with between the baffle, two form the crimping space that supplies the insulating film to slide in between the baffle, rolling subassembly is located the one end in crimping space.

Through adopting above-mentioned technical scheme, before using, the staff controls the distance of adjusting part between to two baffles according to the insulating film size and adjusts, and during the use, the insulating film is through when curling the space, and the insulating film both sides curl gradually, and after curling, the insulating film is through rolling up the subassembly after, and the cylinder is made in the rolling up under the effect of rolling up the subassembly, then carries compression roller department to compress.

Optionally, the adjusting part is installed the support frame with between the baffle, the adjusting part includes fixed connection be in motor on the support frame, rotate the connection be in bi-directional lead screw on the support frame, set up the motor with be used for with between the bi-directional lead screw power transmission of motor extremely the driving medium of bi-directional lead screw and fixed connection are two drive board on the baffle, bi-directional lead screw is reciprocal bi-directional lead screw, two drive board threaded connection respectively is in the both ends of bi-directional lead screw.

Through adopting above-mentioned technical scheme, during the use, the staff passes through the operation motor, and the motor drives two-way lead screw and rotates under the effect of conversion piece to drive the board and remove on two-way lead screw, in order to realize the regulation to the size of the crimping space between two baffles.

Optionally, the support frame includes fixed connection two backup pads that set up relatively and fixed connection are in on the operation panel two mounting panel between the backup pad, motor fixed connection is in the mounting panel is kept away from one side of operation panel just the output shaft of motor runs through the mounting panel, two are rotated to be connected to the bi-directional lead screw between two the backup pad.

Optionally, the transmission piece includes the initiative bevel gear of fixed connection on the motor output shaft and fixed connection on the bi-directional lead screw and with initiative bevel gear meshing driven bevel gear.

Through adopting above-mentioned technical scheme, during the use, the staff starts the motor, and the initiative taper gear is rotatory under the drive of motor output shaft to drive the driven bevel gear rotation with initiative taper gear meshing, the two-way lead screw is rotatory under driven bevel gear's drive.

Optionally, still be provided with the stopper that is used for restricting the insulating film position on the operation panel, the crimping space is located the stopper is kept away from one side of operation panel, be provided with the guider that is used for leading to the insulating film on the stopper, guider is located crimping space is kept away from crimping subassembly one side.

By adopting the technical scheme, when in use, the insulating film firstly passes through the guide device to regulate the curling process of the insulating film and then enters the curling space.

Optionally, the guiding device comprises two guiding plates which are oppositely arranged and positioning plates which are respectively connected to each guiding plate in a sliding way.

Through adopting above-mentioned technical scheme, before using, staff operation motor control drives the removal of board drive baffle, and when the baffle moved, the deflector of articulated in baffle one side moved thereupon, and the distance between two deflectors reduces gradually to realize the transitional effect to the insulating film both sides curl.

Optionally, one side of the guide plate is hinged to the baffle, two opposite sides of the guide plate are provided with sliding grooves, a sliding block is fixedly connected to one side of the positioning plate, which faces the guide plate, of the positioning plate, and the sliding block can slide in the sliding grooves.

When the baffle plate is used, when the position of the baffle plate is changed, the included angle between the guide plate hinged to the baffle plate and the plane where the baffle plate is located is changed, so that the positioning plate slides along the sliding groove.

Optionally, the sliding block is spherical, and a longitudinal section of the sliding groove is circular.

By adopting the technical scheme, when in use, because the locating plate does not vertically slide on the guide plate, the spherical sliding block reduces the possibility that the locating plate is blocked when sliding in the sliding groove.

Optionally, the coiling subassembly includes fixed connection be in first fixed block on the operation panel, fixed connection be in first fixed block is kept away from two arc that operation panel one side set up relatively, two space between the arc forms the shaping space that supplies the insulating film to pass through.

By adopting the technical scheme, the insulating film curled after passing through the curling space is curled into a cylinder shape through the shaping space between the arc plates.

Optionally, be provided with the suppression subassembly that is used for pressing the insulating film on the operation panel, the suppression subassembly is located the one end of stopper is kept away from to the coiling subassembly, the suppression subassembly includes fixed connection be in the second fixed block of operation panel upper surface, articulates the second fixed block is kept away from the first shaping board of operation panel one side and articulates the second fixed block is kept away from the second shaping board of operation panel one side, first shaping board with the articulated shaft of second shaping board is parallel, and forms the suppression space that supplies the insulating film to pass through between two articulated shafts.

Through adopting above-mentioned technical scheme, during the use, when the insulating film curls into cylindric under the effect of arc through moulding space, cylindric insulating film passes through the suppression subassembly, under the gravity effect of first shaping board and second shaping board self, cylindric insulating film is pressed into olive-type to realize pressing in advance the insulating film, avoid the insulating film to be pressed into the insulating film coincidence partial dislocation condition emergence that the plane probably appears from cylindric instantaneous.

In summary, the present application includes at least one of the following beneficial technical effects:

1. according to the device, the adjusting assembly is arranged, so that a worker can control the rotation direction of the bidirectional screw rod through controlling the motor, the selected bidirectional screw rod is a reciprocating bidirectional screw rod, and when the two driving plates rotate in the bidirectional screw rod, the two driving plates can move in opposite directions at the same time, so that the size of the curling space can be adjusted;

2. according to the device, the guide device is arranged, so that the insulating film passes through the guide plate before passing through the curling space, and the two sides of the insulating film are gradually curled along with the gradual reduction of the opening of the guide plate, so that the situation that the insulating film is broken due to the fact that the two sides of the insulating film are instantaneously curled at too large angles when the insulating film directly enters the curling space is avoided;

3. according to the pressing assembly, after the compound folding mechanism is arranged, the insulating film is pressed in advance before entering the next processing flow after being curled into the cylindrical shape, the cylindrical insulating film is pressed into the olive shape under the action of gravity of the first shaping plate and the second shaping plate, and therefore the phenomenon that the superposition part of the cylindrical insulating film is offset due to overlarge instantaneous pressing angle when the cylindrical insulating film is pressed into a horizontal film is avoided.

Drawings

Fig. 1 is a schematic diagram of the overall structure of the present application.

FIG. 2 is a schematic view of a compound folding mechanism of the present application.

Fig. 3 is a schematic view of a roll-up assembly of the present application.

Reference numerals illustrate: 1. an operation table; 2. a compound folding mechanism; 21. a support frame; 211. a support plate; 212. a mounting plate; 22. a baffle; 23. an adjustment assembly; 231. a motor; 232. a bidirectional screw rod; 233. a transmission member; 2331. a drive bevel gear; 2332. a driven bevel gear; 234. a driving plate; 3. a pressing assembly; 31. a second fixed block; 32. a first shaping plate; 33. a second shaping plate; 4. a rolling assembly; 41. a first fixed block; 42. an arc-shaped plate; 5. a limiting block; 6. a guide device; 61. a guide plate; 62. a positioning plate; 63. a sliding groove.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-3.

The embodiment of the application discloses a rolling device of an insulating film setting machine. Referring to fig. 1, the winding device of the insulating film forming machine comprises an operation table 1 placed on the ground, a compound folding mechanism 2 arranged on the operation table 1 and used for winding the insulating film into a cylindrical shape, and a winding assembly 4 arranged on the operation table 1, wherein the compound folding mechanism 2 comprises a support frame 21 fixedly connected on the operation table 1, two baffle plates 22 slidingly connected on the support frame 21, and an adjusting assembly 23 driving the two baffle plates 22 to be relatively close to or relatively far away from each other so as to adjust the distance between the two baffle plates 22, a winding space for the insulating film to slide in is formed between the two baffle plates 22, the adjusting assembly 23 is arranged between the support frame 21 and the baffle plates 22, and the winding assembly 4 is positioned at one end of the winding space.

It will be appreciated that a pressure roller for holding the insulating film is also provided on the side of the winding assembly 4 remote from the crimping space.

Before use, a worker adjusts the distance between the two baffles 22 through the adjusting assembly 23; in use, a worker operates the adjustment assembly 23 according to the type of insulating film to effect adjustment of the width between the two baffles 22. When the insulating film passes through the curling space, as the width between the baffles is about half of the width of the insulating film, the two sides of the insulating film are curled, the curled insulating film is curled into a cylinder shape through the rolling assembly 4, then the insulating film is conveyed to the press roller, and the single-layer insulating film is pressed into double layers through the press roller, so that the pressing work of the insulating film is completed.

Referring to fig. 2, the adjusting assembly 23 includes a motor 231 fixedly coupled to the support frame 21, a bi-directional screw 232 rotatably coupled to the support frame 21, a transmission member 233 disposed between the motor 231 and the bi-directional screw 232 for transmitting power of the motor 231 to the bi-directional screw 232, and a driving plate 234 fixedly coupled to the two shutters 22. Wherein, two driving plates 234 are respectively screwed at two ends of the bi-directional screw 232.

Before use, a worker starts the motor 231, the output shaft of the motor 231 rotates, and the power of the motor 231 is transmitted to the bidirectional screw 232 through the transmission piece 233, namely, the bidirectional screw 232 rotates along with the rotation of the output shaft of the motor 231; because the bi-directional screw 232 is a reciprocating bi-directional screw, when the bi-directional screw 232 rotates, the two driving plates 234 screwed on the bi-directional screw 232 drive the baffle 22 to move in opposite or opposite directions at the same time, so as to achieve the purpose of adjusting the size of the curling space by a worker.

The transmission member 233 includes a drive bevel gear 2331 fixedly coupled to an output shaft of the motor 231, and a driven bevel gear 2332 fixedly coupled to the bi-directional screw shaft 232 and engaged with the drive bevel gear 2331.

Referring to fig. 2, the support frame 21 includes two oppositely disposed support plates 211 fixedly connected to the console 1 and a mounting plate 212 fixedly connected between the two support plates 211, a motor 231 is fixedly connected to a side of the mounting plate 212 away from the console 1, and an output shaft of the motor 231 penetrates the mounting plate 212, and a bidirectional screw 232 is rotatably connected between the two support plates 211.

In order to enable the insulating film to smoothly reach the curling space, a limiting block 5 for limiting the position of the insulating film is further arranged on the operating platform 1, the curling space is located at one side of the limiting block 5 away from the operating platform 1, a guiding device 6 for guiding the insulating film is further arranged at one side of the limiting block 5 away from the operating platform 1, and the guiding device 6 is located at one side of the curling space away from the curling assembly 4.

The guiding device 6 comprises two positioning plates 62 fixedly connected to the operation table 1 and a guiding plate 61 positioned between each baffle 22 and each positioning plate 62, the two guiding plates 61 are oppositely arranged, the guiding plates 61 are in sliding fit with the positioning plates 62, one side of each guiding plate 61 is hinged to each baffle 22, a sliding groove 63 is formed in one side of each guiding plate 61, the positioning plates 62 are fixedly connected with sliding blocks towards one side of each guiding plate 61, and the sliding blocks can slide in the sliding grooves 63.

The sliding block is spherical, and the section of the sliding groove 63 is spherical, so that the guide plate 61 and the positioning plate 62 slide more smoothly, and the blocking phenomenon between the guide plate and the positioning plate is avoided.

When the worker adjusts the distance between the two barrier plates 22, the angle between the guide plate 61 hinged to the barrier plates 22 and the barrier plates 22 is changed as the barrier plates 22 are moved, and the slider fixedly connected to the positioning plate 62 slides in the sliding groove 63. Since the width of the open end of the guide plate 61 is gradually reduced from the width of the stopper 5 to the width of the curl space, the curl of the insulating film is gradually increased by the folding of the guide plate 61 before the insulating film enters the curl space, thereby avoiding damage to the insulating film due to the abrupt increase of the curl on both sides of the insulating film.

Referring to fig. 2 and 3, the rolling assembly 4 includes a first fixing block 41 fixedly connected to the operation table 1, and two arc plates 42 fixedly connected to the first fixing block 41 and disposed opposite to one side far from the operation table 1, and a molding space for the insulation film to pass through is formed in a space between the two opposite arc plates 42.

When the insulating film is used, after the two sides of the insulating film are bent by a certain radian through the curling space, the insulating film reaches the shaping space, and the insulating film with the bent two sides is rolled into a cylinder shape through the shaping space.

When the insulating film is curled and overlapped in the molding space, the insulating film is cylindrical at the moment, and if the insulating film is directly pressed in the next procedure, the overlapping shape of the insulating film can be offset, so that the rolling error of the insulating film is overlarge. Therefore, a pressing assembly 3 for pre-pressing the crimped insulation film in advance is also provided on the operation table 1.

Referring to fig. 3, the pressing assembly 3 includes a second fixing block 31 fixedly connected to the upper surface of the operation table 1, a first shaping plate 32 hinged to a side of the second fixing block 31 away from the operation table 1, and a second shaping plate 33 hinged to a side of the second fixing block 31 away from the operation table 1, hinge axes of the first shaping plate 32 and the second shaping plate 33 are parallel, and a pressing space through which an insulation film passes is formed between the two hinge axes, the first shaping plate 32 and the second shaping plate 33 can be selectively rotated into the pressing space to press the insulation film, a midpoint of a connecting line between the first shaping plate 32 and the second shaping plate 33 and a midpoint of a connecting line between the two baffles 22 are located on the same vertical plane, and when the first shaping plate 32 and the second shaping plate 33 are both rotated into the pressing space, a free end of the first shaping plate 32 is abutted with a free end of the second shaping plate 33.

When the insulating film is used, after the insulating film is rolled into a cylinder shape in the molding space, the cylindrical insulating film is pressed into a pancake shape under the action of the gravity of the first shaping plate 32 and the second shaping plate 33 when the cylindrical insulating film passes through the pressing space, so that the pressing amplitude of the insulating film by the pressing roller is reduced when the insulating film enters the pressing roller, and the shape and the size of the double-layer insulating film cannot be changed.

The implementation principle of the winding equipment of the insulating film setting machine is as follows: before the use, thereby the staff adjusts the position of drive board 234 of threaded connection on two-way lead screw 232 through control motor 231 for drive board 234 removes on two-way lead screw 232, thereby realizes adjusting the size in crimping space, when crimping space's size is adjusted to suitable size, the staff passes through loading attachment with the insulating film and transmits in the coiling device of the insulating film forming machine in this application. The insulating film is first entered between the two positioning plates 62 and then entered between the two guide plates 61 through the space between the positioning plates 62, as the opening end between the two guide plates 61 is gradually reduced, both sides of the insulating film are gradually curled until entering into the curled space, the insulating film after a certain amount of curling enters into the molding space, is curled into a cylinder shape conforming to the requirements through the molding space, and then the cylinder-shaped insulating film enters into the pressing space, and is pressed under the gravity action of the first and second molding plates 32 and 33, so that the displacement of the position of the insulating film is not caused by the enlargement of the pressing amplitude when the insulating film enters into the pressing roller.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (10)

1. The utility model provides a rolling equipment of insulating film forming machine which characterized in that: including placing subaerial operation panel (1), setting are in be used for crimping insulating film's compound folding mechanism (2) and setting are in on operation panel (1) be used for rolling up insulating film who curls into cylindrical rolling subassembly (4), compound folding mechanism (2) are in including fixed connection support frame (21) on operation panel (1), sliding connection are in two baffle (22) on support frame (21) and drive two baffle (22) are close to relatively or deviate from in order to adjust two adjusting part (23) of distance between baffle (22), adjusting part (23) are installed support frame (21) with between baffle (22), two form between baffle (22) and supply insulating film to slide into the crimping space, rolling subassembly (4) are located the one end in crimping space.

2. The rolling device of the insulating film setting machine according to claim 1, wherein: the adjusting component (23) comprises a motor (231) fixedly connected to the supporting frame (21), a bidirectional screw (232) rotatably connected to the supporting frame (21), a transmission piece (233) and driving plates (234), wherein the transmission piece (233) is used for transmitting power of the motor (231) to the bidirectional screw (232), the driving plates (234) are fixedly connected to the two baffles (22), and the two driving plates (234) are respectively in threaded connection with two ends of the bidirectional screw (232).

3. The rolling device of the insulating film setting machine according to claim 2, wherein: the support frame (21) is in including fixed connection two backup pad (211) that set up relatively on operation panel (1) and fixed connection are in two mounting panel (212) between backup pad (211), motor (231) fixed connection are in mounting panel (212) are kept away from one side of operation panel (1) just the output shaft of motor (231) runs through mounting panel (212), two lead screw (232) rotate and connect between two backup pad (211).

4. The rolling device of the insulating film setting machine according to claim 2, wherein: the transmission piece (233) comprises a driving bevel gear (2331) fixedly connected to an output shaft of the motor (231) and a driven bevel gear (2332) fixedly connected to the bidirectional screw rod (232) and meshed with the driving bevel gear (2331).

5. The rolling device of the insulating film setting machine according to claim 1, wherein: the insulation film winding device is characterized in that a limiting block (5) for limiting the position of the insulation film is further arranged on the operation table (1), the winding space is located on one side, away from the operation table (1), of the limiting block (5), a guiding device (6) for guiding the insulation film is arranged on the limiting block (5), and the guiding device (6) is located on one side, away from the winding assembly (4), of the winding space.

6. The rolling device of the insulating film forming machine according to claim 5, wherein: the guide device (6) comprises two positioning plates (62) which are oppositely arranged, and a guide plate (61) which is arranged between each positioning plate (62) and each baffle plate (22), wherein the distance between the two positioning plates (62) is larger than the distance between the two baffle plates (22), one side of each guide plate (61) facing each baffle plate (22) is hinged with each baffle plate (22), and one side of each positioning plate (62) facing each guide plate (61) is in sliding connection with the side wall of each guide plate (61).

7. The rolling device of the insulating film forming machine according to claim 6, wherein: the two opposite sides of the guide plates (61) are provided with sliding grooves (63), one side of the positioning plate (62) facing the guide plates (61) is fixedly connected with a sliding block, and the sliding block is slidably connected in the sliding grooves (63).

8. The rolling apparatus of an insulating film setting machine according to claim 7, wherein: the sliding block is spherical, and the longitudinal section of the sliding groove (63) is circular.

9. The rolling device of the insulating film setting machine according to claim 1, wherein: the rolling assembly (4) comprises a first fixed block (41) fixedly connected to the operation table (1), and two arc plates (42) fixedly connected to the first fixed block (41) and arranged opposite to one side, away from the operation table (1), of the operation table (1), wherein a shaping space for an insulating film to pass through is formed in the space between the arc plates (42).

10. The rolling device of the insulating film forming machine according to claim 5, wherein: be provided with on operation panel (1) and be used for pressing insulating film's suppression subassembly (3), suppression subassembly (3) are located reel system subassembly (4) are kept away from the one end of stopper (5), suppression subassembly (3) are including fixed connection second fixed block (31) of operation panel (1) upper surface, hinge second fixed block (31) are kept away from first shaping board (32) of operation panel (1) one side and hinge second fixed block (31) are kept away from second shaping board (33) of operation panel (1) one side, first shaping board (32) with the articulated shaft of second shaping board (33) is parallel, and forms the suppression space that supplies the insulating film to pass through between two articulated shafts.