CN116061486A - Small-sized electric heating micro-nano hot roller printer - Google Patents

Abstract

The application relates to a small-size electrical heating micro-nano hot roller printer, relates to the technical field of light guide plate processing. The device comprises a shell, wherein two opposite side walls of the shell are respectively provided with a feeding opening and a discharging opening in a penetrating way, and a hot-pressing module is connected in the shell and is used for hot-pressing grids on the surface of a light guide plate; a feeding conveying module is arranged on one side of the hot pressing module, which is close to the feeding port, and is used for butt joint with the previous working procedure, and the hot pressing module comprises a rolling fixing frame assembly connected with the shell; and one side of the hot pressing module, which is close to the discharging opening, is provided with a discharging conveying module for butt joint of the next working procedure, and the feeding conveying module and the discharging conveying module are connected with the rolling fixing frame assembly. The light guide plate of the previous procedure enters and is conveyed to the feeding conveying module through the feeding opening, the feeding conveying module conveys the light guide plate to the hot pressing module, the hot pressing module conveys the light guide plate to the discharging conveying module after hot pressing, the discharging conveying module conveys the light guide plate to the next procedure, the using amount of conveying equipment is reduced, and the equipment debugging time is shortened.

Description

Small-sized electric heating micro-nano hot roller printer

Technical Field

The application relates to the field of light guide plate processing, in particular to a small-sized electric heating micro-nano hot roller printer.

Background

The light guide plate is mainly made of an optical acrylic plate, and the transparent acrylic plate has high light transmittance, strong impact resistance and wide application range. The acrylic plate for producing the light guide plate is a transparent plate with the light transmittance of 92-93% and difficult yellowing. The transparent acrylic plate after special processing is only provided with a luminous body (a common fluorescent tube, a light emitting diode and other light sources can be selected according to the area of the light guide plate) on the edge, the transparent acrylic plate is generally arranged on the two sides of the length, and the transparent acrylic plate can be only provided with one time when the width is smaller), and the whole plane of the acrylic plate can emit bright, uniform and soft light after being electrified, which is called the light guide plate.

The key process for processing the light guide plate is to heat and press out the lattice points on the surface of the light guide plate, and the most common heat and pressure process in the market at present is a rolling process, wherein the rolling process rolls through the light guide plate by utilizing a lower roller and an upper roller with a lattice point die, so that the lattice points are heat and pressure to the light guide plate. In the actual production process, the hot pressing process and the equipment used in the processes adjacent to the hot pressing process are in butt joint by using separate conveying equipment, so that the use amount of the conveying equipment is increased, the equipment debugging time is prolonged, and the hot pressing process needs to be improved.

Disclosure of Invention

In order to reduce the use amount of conveying equipment and shorten equipment debugging time, the application provides a small-sized electric heating micro-nano hot roller printer.

The application provides a small-size electrical heating micro-nano hot roller printer adopts following technical scheme:

the small-sized electric heating micro-nano hot roller printer comprises a machine shell, wherein two opposite side walls of the machine shell are respectively provided with a feeding opening and a discharging opening in a penetrating way, and a hot pressing module is connected in the machine shell and is used for hot pressing grids on the surface of a light guide plate; a feeding and conveying module is arranged on one side of the hot-pressing module, which is close to the feeding port, and is used for conveying the light guide plate to the hot-pressing module and the previous procedure of butt joint, the hot-pressing module comprises a rolling fixing frame assembly connected with the shell, and the feeding and conveying module is connected with the rolling fixing frame assembly; and a blanking conveying module is arranged on one side of the hot pressing module, which is close to the blanking opening, and is used for conveying the light guide plate subjected to hot pressing and butting the next procedure, and the blanking conveying module is connected with the rolling fixing frame assembly.

Through adopting above-mentioned technical scheme, the light guide plate of last process gets into through the feed inlet and carries to the material loading transport module, and material loading transport module carries the light guide plate to hot pressing module, and hot pressing module carries to unloading transport module after carrying the light guide plate hot pressing, and unloading transport module carries the light guide plate to next process to reduce the conveying equipment usage of different light guide plate processing equipment, reduced equipment debugging time.

Optionally, the rolling fixing frame component comprises a bottom plate which is horizontally placed, the bottom plate is connected with the shell, a bracket is connected to one side of the bottom plate, which is close to the top wall of the shell, a micro-nano upper press roller is rotationally connected to the side wall of the bracket through a first middle plate, a micro-nano lower press roller is arranged between the micro-nano upper press roller and the bottom plate, the micro-nano lower press roller is slidingly connected with the bracket through a second middle plate, the micro-nano lower press roller is rotationally connected with the second middle plate, and a hot pressing channel for hot pressing a light guide plate is formed between the micro-nano upper press roller and the micro-nano lower press roller; the side wall of the bracket is connected with an upper rotation driving piece and a lower rotation driving piece, the upper rotation driving piece is used for driving the micro-nano upper compression roller to rotate around the axis of the micro-nano upper compression roller, and the lower rotation driving piece is used for driving the micro-nano lower compression roller to rotate around the axis of the micro-nano lower compression roller; one side of the bottom plate, which is close to the micro-nano lower press roller, is connected with a roller spacing driving piece, a driving shaft of the roller spacing driving piece is connected with a jacking piece, and the jacking piece is used for driving the micro-nano lower press roller to be close to or far away from the micro-nano upper press roller.

By adopting the technical scheme, the upper rotating driving piece and the lower rotating driving piece are started, the micro-nano upper pressing roller and the micro-nano lower pressing roller can be driven to rotate, so that the light guide plate is brought into the hot pressing channel and is hot pressed, and meanwhile, the light guide plate can be conveyed to the blanking conveying module by utilizing friction among the light guide plate, the micro-nano upper pressing roller and the micro-nano lower pressing roller; when the distance between the micro-nano upper press roller and the micro-nano lower press roller needs to be adjusted so as to adjust the actual size of the hot pressing channel, and therefore, when different processing requirements of the light guide plate are met, the roller spacing driving piece can be started, so that the jacking piece is driven, and the micro-nano lower press roller is driven to move in a direction approaching to or far from the micro-nano upper press roller.

Optionally, the material loading transport module include with the material loading fixed plate that the roll-in mount subassembly links to each other, the material loading fixed plate is kept away from one side sliding connection of hot pressing module has material loading transport assembly, one side that the material loading fixed plate is close to hot pressing module is connected with material loading lift drive assembly, material loading lift drive assembly is used for the drive material loading transport assembly is followed the radial of pressure roller is close to or keep away from on the micro-nano pressure roller on the micro-nano.

Through adopting above-mentioned technical scheme, open material loading lift drive assembly, and then drive material loading conveying assembly along the direction motion of the direction of delivery of perpendicular to material loading conveying module to adjust the perpendicular distance between light guide plate and the hot pressing passageway on the material loading conveying assembly.

Optionally, the material loading fixed plate is kept away from one side of bottom plate is connected with first backup pad, first backup pad along one side of its own thickness face with material loading conveying assembly sliding connection, first backup pad is connected with the horizontal drive assembly of material loading along the opposite side of its own thickness face, the horizontal drive assembly of material loading is used for the drive material loading conveying assembly is followed the axis motion of pressure roller on the micro-nano.

By adopting the technical scheme, the feeding transverse driving assembly is started, and then the feeding conveying assembly is driven to move along the axis of the micro-nano upper pressing roller, so that the horizontal relative distance between the light guide plate conveyed by the feeding conveying assembly and the hot pressing channel is adjusted, and the light guide plate enters the central position of the hot pressing channel as much as possible.

Optionally, the material loading conveying subassembly passes through second backup pad and first backup pad sliding connection, the second backup pad is kept away from one side of first backup pad is connected with the angle drive piece, the angle lead screw subassembly is connected to the drive shaft of angle drive piece, the nut of angle lead screw subassembly with the material loading conveying subassembly links to each other, the material loading conveying subassembly with the second backup pad rotates to be connected.

By adopting the technical scheme, the angle driving piece is opened to drive the screw shaft of the angle screw rod assembly to rotate, and then drive one end of the feeding conveying assembly to incline towards the direction close to the hot pressing module, so that the position of the light guide plate relative to the hot pressing module is adjusted, and the light guide plate relative to the hot pressing channel is positively entered.

Optionally, the material loading conveying assembly include with the material loading delivery board that angle lead screw assembly links to each other, the material loading delivery board keep away from one side of material loading fixed plate is connected with two material loading backup pads, two be provided with the conveyer belt between the material loading backup pad, the material loading delivery board is kept away from one side of material loading backup pad is connected with the material loading and carries the driving piece, the material loading carry the driving piece through material loading belt pulley assembly with the conveyer belt rotates to be connected, the material loading carries the driving piece and is used for driving the conveyer belt to carry the light guide plate to be close to hot pressing module, two be provided with a plurality of anti-drop gyro wheels between the material loading backup pad, a plurality of anti-drop gyro wheels with the material loading delivery board links to each other.

By adopting the technical scheme, the feeding conveying driving piece is started, and then the conveyor belt is driven to be close to the direction conveying light guide plate of the hot pressing module, and during conveying, the possibility that the light guide plate falls between two feeding support plates can be reduced by the discharging idler wheels.

Optionally, the feeding conveying assembly is rotationally connected with the second supporting plate through a third supporting plate; two one sides that the material loading backup pad deviates from are provided with the holder respectively, two the holder links to each other with one side that the second backup pad was kept away from to the third backup pad, two the holder is used for the centre gripping light guide plate, the third backup pad is close to one side of conveyer belt is connected with two-way lead screw subassembly, two the holder respectively with two nuts of two-way lead screw subassembly are connected, one side of third backup pad is connected with the centre gripping driving piece, the centre gripping driving piece is used for the drive the lead screw axle of two-way lead screw subassembly rotates.

Through adopting above-mentioned technical scheme, during the material loading transport module carried the light guide plate, can open the centre gripping driving piece to the screw shaft of drive two-way screw assembly rotates, and then drives two centre gripping pieces and be close to each other and offset with the lateral wall of light guide plate, can improve the stability of light guide plate transportation in-process.

Optionally, the material loading transport module is connected with the push rod subassembly, the push rod subassembly include with the push rod fixed plate that the material loading transport module links to each other, push rod fixed plate sliding connection has presses the driving piece, the drive shaft of pressing the driving piece is connected with the pushing post, it is used for the drive to press the driving piece the pushing post is laminated with the light guide plate, the push rod fixed plate is connected with the push pedal driving piece, the push pedal driving piece is used for the drive press the driving piece along being close to the direction motion of hot pressing module.

By adopting the technical scheme, when the light guide plate is conveyed to the front of the hot pressing module, the pressing driving piece can be started to drive the pushing column to extend into the groove of the light guide plate, and then the pushing plate driving piece is started to drive the pressing driving piece and the light guide plate to move towards the direction close to the hot pressing module, so that the light guide plate enters the hot pressing module, and the possibility that the light guide plate positively enters the hot pressing module is improved; then, the pushing driving piece drives the pushing column to be far away from the light guide plate.

Optionally, the unloading transport module includes including with the unloading fixed plate that the roll-in mount subassembly links to each other, unloading fixed plate sliding connection has unloading transport assembly, unloading transport assembly is connected with but the unloading lifting unit of auto-lock, unloading lifting unit is used for driving unloading transport assembly slides along the perpendicular to unloading transport module's direction of delivery.

Through adopting above-mentioned technical scheme, control unloading lifting unit can drive unloading conveying unit and follow the direction slip of perpendicular to unloading conveying module, and then adjust the perpendicular distance between unloading conveying module and the hot pressing passageway to on guaranteeing that the light guide plate gets into unloading conveying module after the output of hot pressing passageway, the regulation is accomplished the back locking unloading lifting unit can.

Optionally, the unloading conveying assembly include with unloading fixed plate sliding connection's unloading support subassembly, unloading support subassembly sliding connection has unloading area subassembly, one side of unloading support subassembly is connected with unloading and carries the driving piece, unloading is carried the driving piece and is used for the drive unloading area subassembly carries the light guide plate, unloading support subassembly is connected with but the sideslip subassembly of unloading of auto-lock, unloading sideslip subassembly with unloading area subassembly links to each other, unloading sideslip subassembly is used for the drive unloading area subassembly is close to or keeps away from the direction motion of hot pressing module.

By adopting the technical scheme, the blanking conveying driving piece is started to drive the light guide plate to enter the next working procedure; the blanking transverse moving assembly is adjusted to drive the blanking conveying assembly to move towards a direction close to or far away from the hot pressing module, so that the horizontal distance between the blanking conveying assembly and the hot pressing module is adjusted, and the light guide plate can fall onto the blanking conveying module after the hot pressing of the hot pressing module is finished.

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

1. the feeding conveying module, the hot pressing module and the discharging conveying module are sequentially arranged, so that the quantity of conveying equipment for different working procedure parts is reduced, and the equipment debugging time is shortened;

2. through being connected with the push rod subassembly at material loading transport module, the usable push rod subassembly carries the light guide plate on the material loading transport module to the hot pressing module in, has improved the possibility that the light guide plate positively got into the hot pressing module in.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment of the present application;

fig. 2 is a schematic structural diagram for embodying a connection relationship between a hot pressing module and a casing in an embodiment of the present application;

FIG. 3 is a schematic diagram of a structure for embodying a hot press module according to an embodiment of the present application;

fig. 4 is a schematic structural diagram for showing a connection relationship between a jacking member and a micro-nano lower pressing roller in an embodiment of the present application;

fig. 5 is a schematic structural diagram for embodying a connection relationship between a feeding lifting driving member and a feeding fixing plate in an embodiment of the present application;

fig. 6 is a schematic structural diagram for embodying a connection relationship between a first support plate and a feeding fixing plate in the embodiment of the present application;

FIG. 7 is a schematic structural diagram showing the connection of a cross roller bearing and a ring in an embodiment of the present application;

FIG. 8 is a schematic structural diagram showing the connection relationship between the bi-directional screw assembly and the clamping driving member in the embodiment of the present application;

FIG. 9 is a schematic structural diagram for showing the connection relationship between the push rod assembly and the feeding and conveying assembly in the embodiment of the present application;

fig. 10 is a schematic structural diagram of a blanking conveying module according to an embodiment of the present application.

In the figure: 1. a housing; 11. a feeding port; 12. a feed opening; 13. rolling the fixing frame assembly; 131. a bottom plate; 1311. a roll gap driving member; 1312. a roll gap speed reducer; 1313. a jacking member; 132. a bracket; 1321. a first rail-slide assembly; 133. a first intermediate plate; 1331. an upper rotation driving member; 1332. an upper speed reducer; 134. a second intermediate plate; 1341. a lower rotation driving member; 1342. a lower speed reducer; 2. a hot pressing module; 21. micro-nano upper press roller; 22. micro-nano lower press roller; 23. a hot pressing channel; 3. a feeding and conveying module; 31. a loading fixing plate; 311. a feeding lifting driving assembly; 3111. a feeding lifting driving piece; 3112. a feeding lifting speed reducer; 3113. feeding lifting screw rod components; 32. a second rail-slide assembly; 33. a feeding conveying assembly; 331. a feeding conveying plate; 3311. a feeding conveying driving piece; 3312. anti-falling rollers; 332. a feeding support plate; 333. a conveyor belt; 34. a first support plate; 341. a third rail-slide assembly; 342. feeding transverse driving components; 3421. feeding transverse driving parts; 3422. feeding transverse screw rod components; 343. a first row-passing hole; 35. a second support plate; 351. a crossed roller bearing; 352. a circular ring; 353. an angle driving member; 354. an angle speed reducer; 355. an angular lead screw assembly; 36. a third support plate; 361. a clamping member; 362. a fourth rail-slide assembly; 363. a bi-directional lead screw assembly; 364. clamping the driving member; 37. a push rod assembly; 371. a push rod fixing plate; 3711. a push plate driving member; 372. a fifth rail-slider assembly; 373. a push rod ball screw assembly; 3731. pressing the driving member; 3732. an extension plate; 3733. pushing the column; 4. a blanking conveying module; 41. a blanking fixing plate; 411. a blanking lifting screw rod assembly; 412. lifting and rotating the handle; 42. a sixth rail-slider assembly; 43. a blanking conveying assembly; 431. a blanking bracket component; 4311. a blanking conveying driving piece; 432. a seventh rail-slider assembly; 433. a blanking belt assembly; 434. a blanking transverse moving assembly; 4341. feeding and transversely moving the screw rod assembly; 4342. discharging transverse moving rotating handle; 44. a third intermediate plate; 45. a blanking lifting assembly; 5. a light guide plate; 6. and the feeding transverse guide rail sliding block assembly.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-10.

The embodiment of the application discloses a small-sized electric heating micro-nano hot roller printer. Referring to fig. 1 and 2, a small-sized electric heating micro-nano hot roller printer comprises a machine shell 1, wherein two opposite side walls of the machine shell 1 are respectively provided with a feeding opening 11 and a discharging opening 12 in a penetrating manner, so that a light guide plate 5 can conveniently enter and exit equipment. The inner wall of the casing 1 is connected with a hot pressing module 2 through a rolling fixing frame component 13, and is used for hot pressing grids on the surface of the light guide plate 5, and the specific hot pressing principle is the prior art and is not repeated here. A feeding and conveying module 3 is arranged on one side of the hot-pressing module 2 close to the feeding port 11 and is used for conveying the light guide plate 5 to the hot-pressing module 2, and meanwhile, the hot-pressing module is in butt joint with the cutting procedure of the last light guide plate 5, and the feeding and conveying module 3 is connected with a rolling fixing frame assembly 13; and a blanking conveying module 4 is arranged on one side of the hot pressing module 2, which is close to the blanking opening 12, and is used for conveying the light guide plate 5 subjected to hot pressing, and meanwhile, the hot pressing module is in butt joint with the next inspection procedure of the light guide plate 5, and the blanking conveying module 4 is connected with a rolling fixing frame assembly 13.

Referring to fig. 2, 3 and 4, the rolling fixing frame assembly 13 includes a horizontally placed bottom plate 131, the bottom plate 131 is connected with the housing 1, one side of the bottom plate 131 close to the top wall of the housing 1 is connected with four brackets 132, the four brackets 132 are distributed in two rows and two columns, the rows are along the length direction of the bottom plate 131, and the columns are along the width direction of the bottom plate 131; the micro-nano upper press roller 21 is rotationally connected between the brackets 132 in the same row and different rows through the first middle plate 133, the micro-nano lower press roller 22 is arranged between the micro-nano upper press roller 21 and the bottom plate 131, the second middle plate 134 is connected between the brackets 132 in the same row and different rows through the first guide rail slide block component 1321, the micro-nano lower press roller 22 is rotationally connected with the second middle plate 134, a hot pressing channel 23 for hot pressing the light guide plate 5 is formed between the micro-nano upper press roller 21 and the micro-nano lower press roller 22, and the micro-nano upper press roller 21 and the micro-nano lower press roller 22 in the embodiment adopt an electric heating mode, so that the pollution to the light guide plate 5 in the hot pressing process of the light guide plate 5 can be avoided. The side wall of the first middle plate 133 is connected with an upper rotation driving piece 1331, the side wall of the second middle plate 134 is connected with a lower rotation driving piece 1341, the upper rotation driving piece 1331 and the lower rotation driving piece 1341 in this embodiment are all servo motors, in order to better control the rotation speeds of the upper rotation driving piece 1331 and the lower rotation driving piece 1341, a driving shaft of the upper rotation driving piece 1331 is connected with an upper speed reducer 1332, a driving shaft of the lower rotation driving piece 1341 is connected with a lower speed reducer 1342, a driving shaft of the upper speed reducer 1332 is connected with the micro-nano upper compression roller 21 through a coupling, and the lower speed reducer 1342 is connected with the micro-nano lower compression roller 22 through a coupling. The upper rotation driving piece 1331 drives the micro-nano upper compression roller 21 to rotate, and the lower rotation driving piece 1341 drives the micro-nano lower compression roller 22 to rotate, so that the light guide plate 5 is driven to enter the hot pressing mode to pass through and hot press the light guide plate 5, and then the light guide plate 5 is conveyed to the blanking conveying module 4.

Referring to fig. 3 and 4, two roller spacing driving members 1311 are connected to one side of the bottom plate 131, which is close to the micro-nano lower press roller 22, and the roller spacing driving members 1311 in this embodiment are servo motors, the driving shafts of the roller spacing driving members 1311 are connected to roller spacing reducers 1312, the roller spacing reducers 1312 are connected to lifting members 1313 through hard couplings, in this embodiment, the lifting members 1313 are jacks, and the motors are started to drive the lifting members 1313 to push the micro-nano lower press roller 22 to move towards a direction close to or away from the micro-nano upper press roller 21, so that the distance between the micro-nano upper press roller 21 and the micro-nano lower press roller 22 is controlled, and the size of the hot pressing channel 23 is changed to adapt to different processing requirements.

Referring to fig. 2, 5 and 6, the feeding conveying module 3 includes a feeding fixing plate 31 connected to the rolling fixing frame assembly 13, one side of the feeding fixing plate 31 away from the hot pressing module 2 is connected with a feeding conveying assembly 33 through a second guide rail sliding block assembly 32, the feeding conveying assembly 33 is connected to a sliding block of the second guide rail sliding block assembly 32, one side of the feeding fixing plate 31 close to the hot pressing module 2 is connected with a feeding lifting driving assembly 311, the feeding lifting driving assembly 311 includes a feeding lifting driving member 3111 connected to the feeding fixing plate 31, the feeding lifting driving member 3111 in this embodiment is a servo motor, a driving shaft of the feeding lifting driving member 3111 is connected with a feeding lifting speed reducer 3112, the feeding lifting speed reducer 3112 is rotationally connected with a feeding lifting screw assembly 3113 through a belt pulley, a nut of the feeding lifting screw assembly 3113 is connected to the feeding conveying assembly 33, and the feeding lifting driving shaft of the feeding lifting screw assembly 3113 is further driven to rotate through driving the feeding lifting driving member 3111, so as to realize movement of the feeding conveying assembly 33 along a direction perpendicular to a conveying direction of the feeding lifting driving member 3113, and further adjust a distance between the feeding conveying member and the light guide screw 23 and the vertical channel 23.

Referring to fig. 3, 6 and 7, one side of the loading fixing plate 31 far away from the bottom plate 131 is connected with a first supporting plate 34, the first supporting plate 34 is slidably connected with the loading conveying assembly 33 along a side wall of the thickness surface of the loading fixing plate along the third guide rail sliding assembly 341, the loading conveying assembly 33 is connected with a sliding block of the third guide rail sliding assembly 341, the other side of the first supporting plate 34 along the thickness surface of the first supporting plate is connected with a loading transverse driving assembly 342, the loading transverse driving assembly 342 comprises a loading transverse driving member 3421 connected with the first supporting plate 34, the loading transverse driving member 3421 is a servo motor, the loading transverse driving member 3421 is rotationally connected with a loading transverse screw assembly 3422 through a belt pulley, a nut of the loading transverse screw assembly 3422 is connected with the loading conveying assembly 33, the first supporting plate 34 is provided with a first row-allowing hole 343 for connecting the nut of the loading transverse screw assembly 3422 with the loading conveying assembly 33, the loading transverse driving assembly 342 is convenient to drive the loading conveying assembly 33 to move along the axis direction of the micro-nano loading press roller 21, and meanwhile, and the movement range of the loading conveying assembly 33 is limited to a certain extent. When the axial distance of the light guide plate 5 relative to the micro-nano upper press roller 21 needs to be adjusted, the feeding transverse driving piece 3421 is started to drive the nut of the feeding transverse screw rod assembly 3422 to move along the axial line of the micro-nano upper press roller 21, so that the adjustment of the axial distance of the light guide plate 5 along the micro-nano upper press roller 21 is realized.

Referring to fig. 6 and 7, a side of the first support plate 34 away from the third guide rail slider assembly 341 is connected with a feeding transverse guide rail slider assembly 6, the feeding conveying assembly 33 is fixedly connected with a slider of the feeding transverse guide rail slider assembly 6 through a second support plate 35, a side of the second support plate 35 away from the first support plate 34 is connected with a cross roller bearing 351, and the feeding conveying assembly 33 is rotatably connected with the cross roller bearing 351 through a circular ring 352; one side of the second supporting plate 35 far away from the first supporting plate 34 is connected with an angle driving part 353, the angle driving part 353 in the embodiment is a servo motor, a driving shaft of the angle driving part 353 is connected with an angle speed reducer 354, the angle speed reducer 354 is connected with an angle screw rod assembly 355, and a nut of the angle screw rod assembly 355 is connected with the feeding conveying assembly 33. When the conveying direction of the feeding conveying assembly 33 is not perpendicular to the axis of the micro-nano upper press roller 21, the opening angle driving part 353 drives the screw shaft of the angle screw assembly 355 to rotate, so as to drive the feeding conveying assembly 33 to rotate, and the connection between the crossed roller bearing 351 and the circular ring 352 can improve the rotating precision of the feeding conveying assembly 33.

Referring to fig. 5 and 7, the feeding conveying assembly 33 includes a feeding conveying plate 331 connected to the angular screw assembly, two feeding support plates 332 are connected to one side of the feeding conveying plate 331 far away from the feeding fixing plate 31, a conveying belt 333 is disposed between the two feeding support plates 332, a feeding conveying driving member 3311 is connected to one side of the feeding conveying plate 331 far away from the feeding support plates 332, the feeding conveying driving member 3311 in this embodiment is a servo motor, the feeding conveying driving member 3311 is rotationally connected to the conveying belt 333 through a feeding belt pulley assembly, the feeding conveying driving member 3311 is opened, the feeding belt pulley assembly is driven to rotate, and then the conveying belt 333 is driven to rotate and the light guide plate 5 is conveyed to the hot pressing module 2. The feeding conveying plate 331 is connected with a plurality of anti-falling rollers 3312 near one side of the conveying belt 333, and the anti-falling rollers 3312 are equidistantly distributed along the conveying direction of the conveying belt 333 and extend into between the two feeding support plates 332, and when the conveying belt 333 conveys the light guide plate 5 with smaller size such as 5 inches, the anti-falling rollers 3312 can reduce the possibility of falling of the light guide plate 5.

Referring to fig. 6, 7 and 8, the feeding and conveying assembly 33 is fixedly connected with the circular ring 352 through the third supporting plate 36, the sides, facing away from the two feeding supporting plates 332, of the two feeding supporting plates 332 are respectively provided with a clamping member 361, the two clamping members 361 are connected with the side, far away from the second supporting plate 35, of the third supporting plate 36, and the two clamping members 361 are used for clamping the light guide plate 5, so that the light guide plate 5 is more stable in the hot pressing process. A fourth guide rail sliding block assembly 362 is connected to one side of the third support plate 36, which is close to the conveying belt 333, and a sliding block of the fourth guide rail sliding block assembly 362 is connected with a clamping piece 361, and the clamping piece 361 slides along the axial direction of the micro-nano upper pressing roller 21; one side of the third support plate 36, which is close to the conveying belt 333, is connected with a bidirectional screw assembly 363, two clamping members 361 are respectively connected with two nuts of the bidirectional screw assembly 363, one side of the third support plate 36 is connected with a clamping driving member 364, the clamping driving member 364 in the embodiment is a servo motor, and a driving shaft of the clamping driving member 364 is connected with a screw shaft of the bidirectional screw assembly 363 through a belt pulley. The clamping driving member 364 is turned on to drive the two clamping members 361 to approach or separate from each other, thereby realizing clamping and releasing of the light guide plate 5.

Referring to fig. 2 and 9, a push rod assembly 37 is connected to a side of the feeding and conveying module 3 far away from the bottom plate 131, the push rod assembly 37 includes a push rod fixing plate 371 connected to the feeding and conveying module 3, the push rod fixing plate 371 is connected to a push rod ball screw assembly 373 through a fifth guide rail slider assembly 372, a nut of the push rod ball screw assembly 373 is connected to a slider of the fifth guide rail slider assembly 372, a pressing driving piece 3731 is connected to a nut of the push rod ball screw assembly 373, the pressing driving piece 3731 in this embodiment is an air cylinder, and a sliding direction of the pressing driving piece 3731 is consistent with a conveying direction of the feeding and conveying module 3; the driving shaft of the pressing driving piece 3731 is connected with a pushing column 3733 through an extending plate 3732, and the pressing driving piece 3731 can drive the pushing column 3733 to be attached to the light guide plate 5; the push rod fixing plate 371 is connected with a push plate driving member 3711, the push plate driving member 3711 in this embodiment is a servo motor, and a driving shaft of the push plate driving member 3711 is connected with a screw shaft of the push rod ball screw assembly 373. When the light guide plate 5 is conveyed to approach the hot pressing module 2, the push plate driving piece 3711 is opened, the push column 3733 is located right above the light guide plate 5, then the pressing driving piece 3731 is opened, the push column 3733 approaches the light guide plate 5 and is attached to the groove on the light guide plate 5, and then the push plate driving piece 3711 continues to move so as to push the light guide plate 5 to move in the direction approaching the hot pressing module 2, and the light guide plate 5 enters the hot pressing module 2.

Referring to fig. 2 and 10, the blanking conveying module 4 includes a blanking fixing plate 41 connected to the rolling conveying assembly, the blanking fixing plate 41 is connected to the blanking conveying assembly 43 through a sixth guide rail sliding block assembly 42, the blanking conveying assembly 43 is connected to a sliding block of the sixth guide rail sliding block assembly 42 through a lower third intermediate plate 44, one side of the blanking fixing plate 41 away from the hot pressing module 2 is connected to a blanking lifting assembly 45 capable of self-locking, the blanking lifting assembly 45 includes a blanking lifting screw assembly 411 connected to a blanking supporting plate, one side of the third intermediate plate 44 away from the blanking fixing plate 41 is connected to a nut of the blanking lifting screw assembly 411, one end of a screw shaft of the blanking lifting screw assembly 411 is connected to a self-locking lifting rotation handle 412, the nut of the blanking lifting screw assembly 411 can be driven to move along a conveying direction perpendicular to the blanking conveying assembly 43 by rotating the lifting rotation handle 412, and the blanking conveying assembly 43 is driven to move along a conveying direction perpendicular to the blanking conveying assembly 43, and accordingly a vertical distance between the blanking conveying assembly 43 and the hot pressing module 2 is adjusted when the light guide plate 5 is output from the module 2.

Referring to fig. 2 and 10, the blanking conveying assembly 43 includes a blanking bracket 132 assembly connected to the third middle plate 44, the blanking bracket 132 assembly is connected with a blanking belt assembly 433 through a seventh guide rail slider assembly 432, the blanking belt assembly 433 is connected with a slider of the seventh guide rail slider assembly 432, one side of the blanking bracket 132 assembly is connected with a blanking conveying driving member 4311, the blanking conveying driving member 4311 in this embodiment is a servo motor, the blanking conveying driving member 4311 is used for driving the blanking belt assembly 433 to convey the light guide plate 5, the blanking bracket 132 assembly is connected with a self-locking blanking transverse moving assembly 434, the blanking transverse moving assembly 434 includes a blanking transverse moving screw assembly 4341 connected to the blanking bracket 132 assembly, the blanking conveying belt 333 is connected to a nut of the blanking screw assembly 4341, one end of a screw shaft of the blanking screw assembly 4341 is connected with a self-locking transverse moving rotary handle 4342, and the screw shaft of the blanking screw assembly 4341 is driven to rotate by rotating the rotary handle 4342, thereby driving the screw shaft of the blanking screw assembly 4341 to move along the direction of the blanking conveying module 333, and the distance between the blanking conveying assembly 433 and the blanking conveying module 4 is adjusted.

The implementation principle of the small electric heating micro-nano hot roller printer is as follows: the light guide plate 5 of the previous process enters the feeding conveying module 3 through the feeding opening 11, the feeding conveying module 3 conveys the light guide plate 5 to the hot pressing module 2, the hot pressing module 2 carries the light guide plate 5 after hot pressing to the blanking conveying module 4, and the blanking conveying module 4 carries the light guide plate 5 after hot pressing to the next process, so that the conveying time between different processes is short. Compared with the prior art that the light guide plate 5 processing equipment among different procedures needs to be conveyed by using a separate conveying equipment, the method and the device have the advantages that the separate conveying equipment is not required to be added, and the debugging time of the equipment is shortened.

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. A small-size electrical heating micro-nano hot roller printer, its characterized in that: the device comprises a shell (1), wherein two opposite side walls of the shell (1) are respectively provided with a feeding opening (11) and a discharging opening (12) in a penetrating way, and a hot-pressing module (2) is connected in the shell (1) and is used for hot-pressing grids on the surface of a light guide plate (5); a feeding conveying module (3) is arranged on one side, close to the feeding opening (11), of the hot pressing module (2) and is used for conveying the light guide plate (5) to the hot pressing module (2) and a procedure of butt joint, the hot pressing module (2) comprises a rolling fixing frame assembly (13) connected with the shell (1), and the feeding conveying module (3) is connected with the rolling fixing frame assembly (13); and a blanking conveying module (4) is arranged on one side of the hot pressing module (2) close to the blanking opening (12) and used for conveying the light guide plate (5) subjected to hot pressing and butting a next process, and the blanking conveying module (4) is connected with the rolling fixing frame assembly (13).

2. The small-sized electric heating micro-nano hot roll printer according to claim 1, wherein: the rolling fixing frame assembly (13) comprises a bottom plate (131) which is horizontally arranged, the bottom plate (131) is connected with the machine shell (1), one side, close to the top wall of the machine shell (1), of the bottom plate (131) is connected with a support (132), the side wall of the support (132) is rotationally connected with a micro-nano upper pressing roller (21) through a first middle plate (133), a micro-nano lower pressing roller (22) is arranged between the micro-nano upper pressing roller (21) and the bottom plate (131), the micro-nano lower pressing roller (22) is in sliding connection with the support (132) through a second middle plate (134), the micro-nano lower pressing roller (22) is rotationally connected with the second middle plate (134), and a hot pressing channel (23) for hot pressing a light guide plate (5) is formed between the micro-nano upper pressing roller (21) and the micro-nano lower pressing roller (22). The side wall of the bracket (132) is connected with an upper rotation driving piece (1331) and a lower rotation driving piece (1341), the upper rotation driving piece (1331) is used for driving the micro-nano upper pressing roller (21) to rotate around the axis of the micro-nano upper pressing roller, and the lower rotation driving piece (1341) is used for driving the micro-nano lower pressing roller (22) to rotate around the axis of the micro-nano lower pressing roller; one side of the bottom plate (131) close to the micro-nano lower press roller (22) is connected with a roller spacing driving piece (1311), a driving shaft of the roller spacing driving piece (1311) is connected with a jacking piece (1313), and the jacking piece (1313) is used for driving the micro-nano lower press roller (22) to be close to or far away from the micro-nano upper press roller (21).

3. The small-sized electric heating micro-nano hot roll printer according to claim 2, wherein: the feeding conveying module (3) comprises a feeding fixing plate (31) connected with the rolling fixing frame assembly (13), one side of the feeding fixing plate (31) away from the hot pressing module (2) is slidably connected with a feeding conveying assembly (33), one side of the feeding fixing plate (31) close to the hot pressing module (2) is connected with a feeding lifting driving assembly (311), and the feeding lifting driving assembly (311) is used for driving the feeding conveying assembly (33) to be close to or away from the micro-nano upper pressing roller (21) along the radial direction of the micro-nano upper pressing roller (21).

4. The small-sized electric heating micro-nano hot roll printer according to claim 2, wherein: one side of material loading fixed plate (31) keeping away from bottom plate (131) is connected with first backup pad (34), first backup pad (34) along one side of its own thickness face with material loading conveying component (33) sliding connection, first backup pad (34) are connected with material loading transverse driving subassembly (342) along the opposite side of its own thickness face, material loading transverse driving subassembly (342) are used for the drive material loading conveying component (33) are followed the axis motion of pressure roller (21) on the micro-nano.

5. The miniature electrically heated micro-nano thermal roller printer of claim 4, wherein: the feeding conveying assembly (33) is in sliding connection with the first supporting plate (34) through the second supporting plate (35), one side, away from the first supporting plate (34), of the second supporting plate (35) is connected with an angle driving piece (353), a driving shaft of the angle driving piece (353) is connected with an angle screw assembly (355), a nut of the angle screw assembly (355) is connected with the feeding conveying assembly (33), and the feeding conveying assembly (33) is in rotary connection with the second supporting plate (35).

6. The small-sized electric heating micro-nano hot roll printer according to claim 5, wherein: the feeding conveying assembly (33) comprises a feeding conveying plate (331) connected with the angle screw assembly (355), the feeding conveying plate (331) is far away from one side of the feeding fixing plate (31) is connected with two feeding supporting plates (332), two conveying belts (333) are arranged between the feeding supporting plates (332), one side of the feeding supporting plates (332) is far away from the feeding conveying plate (331) and is connected with a feeding conveying driving piece (3311), the feeding conveying driving piece (3311) is connected with the conveying belt (333) in a rotating mode through a feeding belt pulley assembly, the feeding conveying driving piece (3311) is used for driving the conveying belt (333) to convey a light guide plate (5) to be close to the hot pressing module (2), and a plurality of anti-falling rollers (3312) are arranged between the feeding supporting plates (332) and are connected with the feeding conveying plate (331).

7. The small-sized electric heating micro-nano hot roll printer according to claim 6, wherein: the feeding conveying assembly (33) is rotationally connected with the second supporting plate (35) through a third supporting plate (36); two the material loading backup pad (332) deviate from one side respectively is provided with clamping part (361), two clamping part (361) link to each other with one side that second backup pad (35) was kept away from to third backup pad (36), two clamping part (361) are used for centre gripping light guide plate (5), third backup pad (36) are close to one side of conveyer belt (333) is connected with two-way lead screw subassembly (363), two clamping part (361) respectively with two nuts of two-way lead screw subassembly (363) are connected, one side of third backup pad (36) is connected with clamping driving piece (364), clamping driving piece (364) are used for the drive the lead screw axle rotation of two-way lead screw subassembly (363).

8. The small-sized electric heating micro-nano hot roll printer according to claim 1, wherein: the feeding conveying module (3) is connected with a push rod assembly (37), the push rod assembly (37) comprises a push rod fixing plate (371) connected with the feeding conveying module (3), the push rod fixing plate (371) is connected with a pressing driving piece (3731) in a sliding mode, a driving shaft of the pressing driving piece (3731) is connected with a pushing column (3733), the pressing driving piece (3731) is used for driving the pushing column (3733) to be attached to the light guide plate (5), the push rod fixing plate (371) is connected with a push plate driving piece (3711), and the push plate driving piece (3711) is used for driving the pressing driving piece (3731) to move along the direction close to the hot pressing module (2).

9. The small-sized electric heating micro-nano hot roll printer according to claim 1, wherein: the blanking conveying module (4) comprises a blanking fixing plate (41) connected with the rolling fixing frame assembly (13), the blanking fixing plate (41) is connected with a blanking conveying assembly (43) in a sliding mode, the blanking conveying assembly (43) is connected with a blanking lifting assembly (45) capable of self-locking, and the blanking lifting assembly (45) is used for driving the blanking conveying assembly (43) to slide along the conveying direction perpendicular to the blanking conveying module (4).

10. The small-sized electric heating micro-nano hot roll printer according to claim 9, wherein: the blanking conveying assembly (43) comprises a blanking support (132) assembly which is connected with the blanking fixing plate (41) in a sliding mode, the blanking support (132) assembly is connected with a blanking belt assembly (433) in a sliding mode, one side of the blanking support (132) assembly is connected with a blanking conveying driving piece (4311), the blanking conveying driving piece (4311) is used for driving the blanking belt assembly (433) to convey the light guide plate (5), the blanking support (132) assembly is connected with a blanking transverse moving assembly (434) capable of self-locking, the blanking transverse moving assembly (434) is connected with the blanking belt assembly (433), and the blanking transverse moving assembly (434) is used for driving the blanking belt assembly (433) to move towards a direction close to or far away from the hot pressing module (2).

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