CN114347636B - Metal ceiling board thermoprinting device - Google Patents

Abstract

The invention relates to the technical field of detection devices, in particular to a metal ceiling board hot stamping device. The invention provides a metal ceiling board hot stamping device, which comprises: the device comprises a workbench, a conveying belt, an adjusting part, a unreeling part, a hot stamping part and a cooling part; the hot stamping part is fixed on the workbench and is suitable for hot-melting and hot-stamping the plates; the cooling part is fixed at the discharge end of the workbench close to the conveying belt and is suitable for cooling the hot stamping part of the plate; when the conveying belt drives the plates to move to the adjusting part, the adjusting part can push the plates to horizontally slide so as to align the end parts of the two adjacent plates; when the plate is moved to the unreeling part, the unreeling part can push the protective film to move to the upper end of the plate, so that the hot stamping part pushes the protective film downwards and the plate is hot stamped; when the plate is moved to the cooling part, the cooling part can clean the protective film on the upper surface of the plate and blow air to cool the hot stamping part of the plate.

Description

Metal ceiling board thermoprinting device

Technical Field

The invention relates to the technical field of detection devices, in particular to a metal ceiling board hot stamping device.

Background

The panels are flat rectangular building panels of standard dimensions, used in the construction industry as components of walls, ceilings or floors. But also to metal sheets formed by forging, rolling or casting. The building material is divided into thin plates, middle plates, thick plates, extra thick plates and flat rectangular building material plates which are generally made into standard sizes.

In the process of processing and manufacturing metal plates, the surfaces of the metal plates need to be subjected to hot stamping to mark brands of manufacturers, hot stamping in the prior art is directly performed on the upper surfaces of the metal plates through hot stamping equipment, the proficiency requirement on operators is high, the damage to the surfaces of the metal plates is easily caused by overlong hot stamping time or overlarge pressure, and the hot stamping points of the metal plates are really protected, so that the development of a metal ceiling plate hot stamping device is necessary.

Disclosure of Invention

The invention aims to provide a metal ceiling board hot stamping device.

In order to solve the technical problem, the invention provides a metal ceiling board hot stamping device, which comprises: the hot stamping device comprises a workbench, a conveying belt, an adjusting part, a unreeling part, a hot stamping part and a cooling part, wherein the conveying belt is fixed on the workbench and arranged along the length direction of the workbench;

the adjusting part is fixed at the feeding end of the workbench close to the conveying belt and arranged above the conveying belt;

the unwinding part is fixed on one side of the conveying belt and is suitable for attaching a protective film to the upper surface of a plate;

the hot stamping part is fixed on the workbench and is suitable for hot-melting and hot-stamping the plate;

the cooling part is fixed at the discharge end of the workbench close to the conveying belt and is suitable for cooling the hot stamping position of a plate; wherein

When the conveying belt drives the plates to move to the adjusting part, the adjusting part can push the plates to horizontally slide so as to align the end parts of the two adjacent plates;

when the plate moves to the unreeling part, the unreeling part can push the protective film to move to the upper end of the plate, so that the hot stamping part pushes the protective film downwards and the plate is hot stamped;

when the plate is moved to the cooling part, the cooling part can clean the protective film on the upper surface of the plate and blow air to cool the hot stamping part of the plate.

Further, the adjusting portion includes: the grinding device comprises a grinding assembly, an adjusting bracket, an adjusting cylinder and an adjusting push plate, wherein the adjusting bracket is fixed on the workbench, the adjusting cylinder is vertically fixed at the upper end of the adjusting bracket, the adjusting push plate is fixed at the end part of a piston rod of the adjusting cylinder, and the adjusting push plate is parallel to the conveying belt;

the grinding assembly is arranged on one side of the conveying belt, which is far away from the adjusting bracket, and the grinding assembly is parallel to the adjusting push plate; wherein

The adjusting cylinder pushes the adjusting support to abut against the plate, and pushes the plate to horizontally slide towards the polishing assembly, so that the polishing assembly polishes the side edge of the plate.

Further, the grinding assembly includes: the polishing device comprises a polishing support, a polishing cylinder, a polishing fixing frame, a polishing motor and a polishing belt, wherein the polishing support is fixed on a workbench, the polishing cylinder is fixed at the upper end of the polishing support, the polishing fixing frame is fixed at the end part of a piston rod of the polishing cylinder, the polishing belt is looped around the polishing fixing frame, the polishing motor is fixed on the polishing fixing frame, and the polishing motor is in transmission connection with the polishing belt; wherein

The polishing cylinder drives the polishing fixing frame to move horizontally so as to enable the polishing belt to be close to or far away from the adjusting push plate;

the polishing motor drives the polishing belt to rotate circularly so as to polish burrs on the side edge of the plate.

Further, the unwinding part includes: the unwinding device comprises an unwinding disc, an unwinding support, an unwinding driving cylinder and a paving plate, wherein the unwinding support is fixed on the workbench and is arranged on one side of the conveying belt;

the unwinding disc is rotatably arranged on the unwinding support, a guide roller is arranged on one side, close to the unwinding disc, of the unwinding support, and the unwinding disc is suitable for bearing a protective film tape roll;

the unreeling driving cylinder is fixed at the upper end of the unreeling support, the paving plate is horizontally fixed at the end part of a piston rod of the unreeling driving cylinder, and the paving plate is suitable for overturning the protective film from a vertical state to a flat state; wherein

The protective film extends to the paving plate from the unreeling disc, and the unreeling driving cylinder pushes the protective film to move along the width direction of the conveying belt, so that the protective film is paved on the upper surface of the plate.

Further, the unwinding part further includes: the cutting mechanism comprises a cutting cylinder, a cutting motor and a cutting disc, wherein the cutting cylinder is fixed at the lower end of the paving plate, the cutting motor is fixed at the end part of a piston rod of the cutting cylinder, and the cutting disc is fixed at a rotating shaft of the cutting motor; wherein

The cutting cylinder can drive the cutting motor to move along the length direction of the conveying belt, so that the cutting disc cuts off the protective film.

Further, the stamping part includes: thermoprint support, thermoprint horizontal cylinder, the vertical cylinder of thermoprint and thermoprint head, the thermoprint support is fixed on the workstation, the horizontal cylinder of thermoprint is fixed thermoprint support upper end, the vertical cylinder of thermoprint is fixed the tailpiece of the piston rod portion of the horizontal cylinder of thermoprint, it fixes to scald the printer head the tailpiece of the piston rod portion of the vertical cylinder of thermoprint, the vertical cylinder of thermoprint is suitable for the drive it moves down in order to scald the mark to panel hot melt to scald head.

Further, the stamping head includes: the hot stamping device comprises a hot stamping frame and a hot stamping block, wherein the hot stamping frame is in a hollow rectangular shape, the hot stamping block is arranged in the hot stamping frame in a sliding mode, and the horizontal height of the lower end of the hot stamping frame is smaller than that of the lower end of the hot stamping block; wherein

And the hot stamping vertical cylinder drives the hot stamping frame to move downwards until the hot stamping frame abuts against the protective film, and then the hot stamping frame is pushed continuously to enable the hot stamping block to abut against the plate so as to hot stamp the plate.

Further, the cooling part includes: the cooling device comprises two fixing plates, two cooling conveyers, a transverse plate, an air cooler, a scraper and a linkage assembly, wherein the fixing plates are vertically fixed on the workbench and are arranged in parallel relatively;

the two cooling conveyers are respectively and rotatably arranged on the inner side wall of the fixed plate and are suitable for clamping from the upper end and the lower end and driving the plate to horizontally move;

the transverse plate is fixed between the two fixing plates, the air cooler is fixed on the transverse plate, the lower end of the transverse plate is provided with an air blowing port communicated with the air cooler, and the air cooler blows cold air to the plate through the air blowing port to cool the hot stamping part of the plate;

the two ends of the scraper are fixed on the side walls of the two fixing plates, and the scraper faces the plate;

the linkage assembly is arranged on the inner side wall of the fixing plate in a sliding mode and is suitable for guiding the plates to move between two cooling conveying modes; wherein

When the plate moves to abut against the front section of the linkage assembly, the plate extrudes the linkage assembly to slide downwards, and the upper end of the plate abuts against the scraper so that the scraper can scrape the protective film on the upper surface of the plate;

when the plates move to the middle section of the linkage assembly, the next plate downwards extrudes the linkage assembly, so that the linkage assembly downwards extrudes the plate positioned at the middle section position, and the plate hot stamping position is polished;

when the plate moves to the rear section of the linkage assembly and is positioned below the cooling cylinder, the cooling cylinder drives the cold air plate to move downwards and blows air to the hot stamping mark pressing points at the two ends of the plate for cooling;

when the front section of the next plate extrusion linkage assembly slides upwards, the rear section of the linkage assembly overturns to enable the plate located below the cold air plate to fall to the material receiving box.

Further, the linkage assembly includes: the grinding device comprises a connecting rod, a lifting plate, a cooling plate and a grinding column, wherein the lifting plate is slidably arranged on the inner side wall of the fixed plate, and an inclined included angle is formed between the lifting plate and the workbench;

the cooling plate is rotatably arranged between the two fixing plates through a rotating shaft, the connecting rod is in a long strip shape, the front end of the connecting rod is fixed on the lifting plate, and the rear end of the connecting rod is fixed at one end of the cooling plate, which is far away from the lifting plate;

the polishing column is vertically fixed at the middle section of the connecting rod; wherein

When the plate slides upwards along the lifting plate in an inclined manner until the plate is abutted against the scraper, the scraper can scrape the protective film on the upper surface of the plate;

when the plate is moved to the position below the polishing column, the next plate synchronously extrudes the lifting plate to slide downwards, so that the polishing column synchronously slides downwards to polish the thermoprinting and marking position of the plate;

when panel moved to the cooling plate on, the air-cooler was through blowing mouthful to panel both ends blast cooling, and when next panel extruded the lifter plate downwards, the connecting rod promoted the cooling plate upset in order to fall panel to the material collecting box in step.

Further, the squeegee includes: the scraper is arranged below the limiting strip, the cutting edge of the scraper faces towards a plate, and the springs are fixed between the limiting strip and the scraper at equal intervals; wherein

When the plate moves obliquely upwards along the lifting plate, the plate extrudes the lifting plate to slide downwards, and meanwhile, the upper end of the plate extrudes the scraper to compress the spring, so that the scraper scrapes off the protective film on the upper surface of the plate.

The metal ceiling board hot stamping device has the beneficial effects that the side wall of a board is polished through the arrangement of the adjusting part, so that the side edge of the board is polished. Through the setting of unreeling portion, place the protection film coil of strip to attached the protection film to panel upper surface. Through the setting of thermoprinting portion, to panel hot melt thermoprint. Through the setting of cooling part, with unnecessary protection film on the panel to cooling off panel thermoprint department, in order to improve the thermoprint quality of panel.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a perspective view of a preferred embodiment of a metal ceiling tile stamping apparatus of the present invention;

FIG. 2 is a perspective view of the sanding assembly of the present invention;

FIG. 3 is a perspective view of the unrolling part of the invention;

FIG. 4 is a perspective view of a stamping part of the present invention;

FIG. 5 is a cross-sectional view of a print head of the present invention;

FIG. 6 is a perspective view of the cooling portion of the present invention;

FIG. 7 is a perspective view of the squeegee of the present invention.

In the figure:

1. a work table; 2. a conveyor belt; 3. an adjustment section; 31. polishing the assembly; 311. polishing the bracket; 312. polishing the air cylinder; 313. polishing the fixing frame; 314. polishing the motor; 315. polishing the belt; 32. adjusting the bracket; 33. an adjusting cylinder; 34. adjusting the push plate;

4. a unwinding part; 41. placing the reel; 42. unwinding the support; 43. unwinding driving cylinder; 44. paving a flat plate; 45. cutting the air cylinder; 46. cutting the disc;

5. a thermoprinting section; 51. thermoprinting a support; 52. thermoprinting a horizontal cylinder; 53. thermoprinting a vertical cylinder; 54. a printing head is stamped; 541. thermoprinting the frame; 542. hot stamping the block;

6. a cooling section; 61. a fixing plate; 62. cooling and conveying; 63. a transverse plate; 64. an air cooler; 65. a squeegee; 651. a limiting strip; 652. a spring; 653. a scraper; 66. a linkage assembly; 661. a lifting plate; 662. a connecting rod; 663. a cooling plate; 664. and (5) polishing the column.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic views illustrating only the basic structure of the present invention in a schematic manner, and thus show only the constitution related to the present invention.

As shown in fig. 1 to 7, the present invention provides a metal ceiling plate hot stamping device, including: the device comprises a workbench 1, a conveying belt 2, an adjusting part 3, a unreeling part 4, a hot stamping part 5 and a cooling part 6. The table 1 is adapted to house other components. The conveyor belt 2 is adapted to convey a sheet material. The adjusting part 3 is adapted to grind the side wall of the plate. The unwinding section 4 is adapted to place a roll of protective film tape and guide the protective film tape to the upper end of the sheet material. The hot stamping part 5 is suitable for pressing the protective film belt on the plate and hot stamping a mark. The cooling section 6 is adapted to blow air-cool the upper stamping section 5. With respect to the above components, detailed description is given below.

Working table

The workbench 1 is arranged on a horizontal plane, the workbench 1 is integrally of a frame structure, the upper end of the workbench 1 is flat, the workbench 1 can serve as an installation base of the metal suspended ceiling plate hot stamping device, and the conveying belt 2, the adjusting part 3, the unreeling part 4, the hot stamping part 5 and the cooling part 6 are sequentially installed and fixed on the workbench 1.

Conveying belt

The conveyer belt 2 is fixed on the workbench 1, and the conveyer belt 2 is arranged along the length direction of the workbench 1. The conveying belt 2 is divided into a feeding end and a discharging end along the circulating conveying direction, the upper surface of the conveying belt 2 is suitable for placing plates, and after the plates are placed at the feeding end, the conveying belt 2 drives the plates to convey towards the discharging end.

Regulating part

Regulating part 3 is fixed on workstation 1, and regulating part 3 sets up and is close to 2 material loading ends of conveyer belt at workstation 1, and regulating part 3 sets up in 2 tops of conveyer belt. The adjusting part 3 can adjust the horizontal position of the plate on the conveying belt 2 and polish the side wall of the plate, thereby polishing the side edge of the plate.

The structure of the adjustment section 3 is described in detail below, and the adjustment section 3 includes: grinding assembly 31, adjusting bracket 32, adjusting cylinder 33 and adjusting push plate 34. The grinding component 31 is arranged on one side of the conveying belt 2, and the grinding component 31 is suitable for the side edge of the plate. The adjusting bracket 32 is fixed on the workbench 1, the adjusting bracket 32 and the grinding assembly 31 are oppositely arranged at two sides of the conveying belt 2, and the adjusting bracket 32 is suitable for being provided with an adjusting cylinder 33 and an adjusting push plate 34. Adjusting cylinder 33 vertical fixation is in the upper end of adjusting bracket 32, specifically, adjusting cylinder 33's casing and adjusting bracket 32 fixed connection, and adjusting cylinder 33's piston rod level sets up, and adjusting cylinder 33's piston rod is towards subassembly 31 of polishing. The adjusting push plate 34 is fixed at the end of the piston rod of the adjusting cylinder 33, the adjusting push plate 34 is parallel to the conveying belt 2, and the adjusting push plate 34 is parallel to the grinding assembly 31. When panel on the conveyer belt 2 slides to between the subassembly 31 of polishing and the regulation push pedal 34, adjust cylinder 33 and can promote to adjust support 32 and offset with panel to promote panel to polish subassembly 31 horizontal slip, so that the subassembly 31 of polishing polishes to the panel side.

In order to realize the effect that the grinding component 31 can grind the side edge of the plate, the grinding component 31 comprises: a grinding support 311, a grinding cylinder 312, a grinding fixing frame 313, a grinding motor 314 and a grinding belt 315. The grinding support 311 is fixed on the workbench 1, and the grinding support 311 is suitable for mounting a grinding cylinder 312 and a grinding fixing frame 313. The cylinder 312 of polishing is fixed in the support 311 upper end of polishing, and the cylinder 312 casing of polishing and support 311 fixed connection polish, and the piston rod level of cylinder 312 of polishing sets up, and the piston rod orientation adjusts push pedal 34. The grinding fixing frame 313 is fixed at the end part of the piston rod of the grinding cylinder 312, and a grinding belt 315 and a grinding motor 314 are suitable to be installed on the grinding fixing frame 313. The area 315 of polishing encircles the setting of the mount 313 of polishing, and the area face of the area 315 of polishing towards the panel side, and the area face of the area 315 of polishing is coarse, and when panel and the area 315 of polishing offset, the area 315 of polishing can polish the side of panel. The grinding motor 314 is fixed on the grinding fixing frame 313, and the grinding motor 314 is in transmission connection with the grinding belt 315. Specifically, a rotating shaft is arranged at one end of the polishing fixing frame 313 far away from the polishing motor 314, the polishing belt 315 is sleeved on the rotating shaft and the outer wall of the conveying shaft of the polishing motor 314, and the polishing belt 315 can be driven to circularly slide when the polishing motor 314 works. In this way, the grinding cylinder 312 drives the grinding fixing frame 313 to move horizontally, so that the grinding belt 315 is close to or far away from the adjusting push plate 34. Through polishing area 315 and adjusting push pedal 34 and cooperate, can adjust the horizontal position of panel on conveyer belt 2, specifically, the horizontal position of polishing area 315 can be adjusted to polishing cylinder 312, and after the horizontal position of polishing area 315 was adjusted, when panel got into between adjusting push pedal 34 and the polishing area 315, adjusting cylinder 33 drive was adjusted push pedal 34 and is pushed up panel and offset with polishing area 315 to make two adjacent panel tip align. Meanwhile, the grinding motor 314 drives the grinding belt 315 to rotate circularly so as to grind the burrs on the side edges of the plates.

Unwinding part

The unreeling part 4 is fixed on one side of the conveying belt 2, and the unreeling part 4 is suitable for placing a protective film roll and attaching a protective film to the upper surface of a plate when the plate passes through the unreeling part 4.

The structure of the unwinding section 4 will be described in detail below, and the unwinding section 4 includes: an unwinding disc 41, an unwinding bracket 42, an unwinding driving cylinder 43, and a leveling plate 44. Unreel the support 42 and fix on the workstation 1, it sets up to unreel the support 42 the conveyer belt 2 one side, and unreel the support 42 and set up in regulation portion 3 low reaches, unreel and be suitable for on the support 42 to install unreel the dish 41, unreel and drive actuating cylinder 43 and pave the board 44. The unwinding disc 41 is rotatably arranged on the unwinding bracket 42, and the unwinding disc 41 is suitable for placing a roll of protective film. One side of the unwinding bracket 42 close to the unwinding disc 41 is provided with a guide roller, and the unwinding disc 41 is suitable for carrying a roll of protective film tape. Unreel and drive actuating cylinder 43 and fix unreel support 42 upper end, unreel and drive actuating cylinder 43's piston rod and set up towards conveyer belt 2. The spreading plate 44 is horizontally fixed at the end of the piston rod of the unwinding driving cylinder 43, the spreading plate 44 is suitable for turning the protective film from vertical to flat, specifically, an inclined surface is arranged at one end of the spreading plate 44 facing the unwinding disc 41, and the protective film on the unwinding disc 41 is attached to the inclined surface so as to rotate to be horizontally arranged. The protective film extends from the unwinding disc 41 to the paving plate 44, and the unwinding driving cylinder 43 pushes the protective film to move along the width direction of the conveying belt 2, so that the protective film is paved on the upper surface of the plate.

In addition, in order to cut the protective film to separate the protective film tape from the protective film hot stamped on the plate material, the unwinding section 4 further includes: a cutting cylinder 45, a cutting motor and a cutting disk 46. The cutting cylinder 45 is fixed at the lower end of the paving plate 44, the cutting motor is fixed at the end part of a piston rod of the cutting cylinder 45, and the cutting disc 46 is fixed on a rotating shaft of the cutting motor. After the protective film is thermoprinted, the cutting cylinder 45 can drive the cutting motor to move along the length direction of the conveying belt 2, so that the protective film is stretched, and meanwhile, the cutting motor drives the cutting disc 46 to cut off the protective film.

Thermoprinting part

Thermoprint portion 5 is fixed on workstation 1, and thermoprint portion 5 sets up with unreeling portion 4 relatively, and thermoprint portion 5 and unreeling portion 4 set up respectively in 2 both sides of conveyer belt, thermoprint portion 5 is suitable for the hot melt thermoprint to panel.

The structure of the stamping section 5 is described in detail below, and the stamping section 5 includes: a stamping support 51, a stamping horizontal cylinder 52, a stamping vertical cylinder 53 and a stamping head 54. The hot stamping support 51 is fixed on the workbench 1, and the hot stamping support 51 is suitable for supporting a horizontal cylinder. The hot stamping horizontal cylinder 52 is fixed at the upper end of the hot stamping support 51, the shell of the hot stamping horizontal cylinder 52 is fixedly connected with the hot stamping support 51, and the piston rod of the hot stamping horizontal cylinder 52 is horizontally arranged. The hot stamping vertical cylinder 53 is fixed at the end part of the piston rod of the hot stamping horizontal cylinder 52, the shell of the hot stamping vertical cylinder 53 is fixedly connected with the end part of the piston rod of the hot stamping horizontal cylinder 52, and the piston rod of the hot stamping vertical cylinder 53 is vertically arranged. The stamping head 54 is fixed at the end part of the piston rod of the stamping vertical cylinder 53, and the stamping vertical cylinder 53 is suitable for driving the stamping head 54 to move downwards so as to heat-melt the stamping marks on the plate.

In order to ensure the stamping quality of the protective film on the sheet material, the stamping head 54 comprises: a stamping frame 541 and a stamping block 542. The hot stamping frame 541 is a hollow rectangle, the hot stamping block 542 is slidably arranged in the hot stamping frame 541, and the horizontal height of the lower end of the hot stamping frame 541 is smaller than that of the lower end of the hot stamping block 542. After the hot stamping vertical cylinder 53 drives the hot stamping frame 541 to move downwards until the hot stamping frame is abutted against the protective film, the hot stamping frame 541 can press the protective film from the periphery, and the hot stamping frame continues to push the hot stamping block 542 to abut against the plate so as to hot stamp the plate. Through the mode, the protection film can be prevented from loosening in the hot stamping process to cause poor hot stamping quality.

Cooling part

The cooling part 6 is fixed the workstation 1 is close to the discharge end of conveyer belt 2, the cooling part 6 is suitable for with unnecessary protection film on the panel to cool off panel thermoprint department, in order to improve the thermoprint quality of panel.

The structure of the cooling unit 6 will be described in detail below, and the cooling unit 6 includes: two fixed plates 61, two cooling conveyers 62, a transverse plate 63, a cooling fan 64, a scraper 65 and a linkage assembly 66. The fixed plate 61 is vertically fixed on the workbench 1, the two fixed plates 61 are arranged in parallel relatively, the fixed plate 61 is a mounting reference of the whole cooling part 6, and the cooling conveyor 62, the transverse plate 63, the air cooler 64, the scraper 65 and the linkage assembly 66 are positioned and mounted between the two fixed plates 61. Two cooling are carried 62 rotatable setting respectively and are in the fixed plate 61 inside wall, two cooling are carried 62 and are close to two fixed plate 61 settings respectively to make the panel both sides can place respectively on two cooling carry 62, in order to guarantee the transport stability of panel. One cooling conveyor 62 is divided into upper and lower layers, and the two layers are opposite in circulating sliding direction, so that the two cooling conveyors 62 can clamp and drive the plate to move horizontally from the upper and lower ends. The transverse plate 63 is fixed between the two fixing plates 61, and the transverse plate 63 is arranged at the blanking ends of the two cooling conveyors 62. The air cooler 64 is fixed on the transverse plate 63, the lower end of the transverse plate 63 is provided with a blowing port communicated with the air cooler 64, the two cooling conveyors 62 convey the plate to the blanking end, and the air cooler 64 blows cold air to the plate through the blowing port to cool the hot stamping part of the plate, so that the forming speed of the hot stamping part is increased, and the hot stamping quality is improved. A linkage assembly 66 is slidably disposed on the inner side wall of the fixed plate 61, and the linkage assembly 66 is adapted to guide the sheet material between the two cooling conveyors 62. Both ends of the scraper 65 are fixed on the side walls of the two fixing plates 61, the scraper 65 is arranged on one side of the feeding end of the cooling conveying 62, the scraper 65 faces towards the plate, and when the plate passes through the linkage assembly 66, the scraper 65 can scrape off the redundant protective film on the upper end of the plate.

The structure of linkage assembly 66 is described in detail below, and linkage assembly 66 includes: link 662, lift plate 661, and cooling plate 663. The lifting plate 661 is slidably disposed on the inner side wall of the fixing plate 61, and the lifting plate 661 and the working table 1 are arranged at an inclined included angle so that the lifting plate 661 is inclined toward the cooling conveying 62. Two sliding grooves are formed in the inner side wall of one fixing plate 61 in the vertical direction, an elastic piece is arranged in each sliding groove, two ends of the lifting plate 661 are arranged in the sliding grooves, one end of each elastic piece is fixed to the bottom wall of each sliding groove, and the other end of each elastic piece is fixed to the lifting plate 661. In this way, when the plate material is moved onto the lifting plate 661, the lifting plate 661 can be pressed to vertically slide. The cooling plate 663 is rotatably arranged between the two fixing plates 61 through a rotating shaft, the connecting rod 662 is in a long strip shape, the front end of the connecting rod 662 is fixed on the lifting plate 661, the connecting rod 662 can be driven to synchronously vertically slide when the lifting plate 661 vertically slides, and the rear end of the connecting rod 662 is fixed at one end of the cooling plate 663 far away from the lifting plate 661. When connecting rod 662 slides vertically, can drive cooling plate 663 and rotate around the rotation axis, when panel carried 62 along with the cooling and moved to the unloading end, can fall on cooling plate 663, air-cooler 64 blows cold wind to panel through the mouth of blowing in order to cool off the thermoprint department of panel, behind the panel of rear pressed lifting plate 661 once more, cooling plate 663 rotated to make the panel on cooling plate 663 fall in the material collecting box.

In addition, linkage assembly 66 includes a grinding post 664. grinding post 664 is vertically fixed to the middle section of link 662. When the plate moves to the lower part of the polishing column 664, the next plate synchronously extrudes the lifting plate 661 to slide downwards, so that the polishing column 664 synchronously slides downwards, the cooling conveying 62 is pushed to abut against the hot stamping mark of the plate, and the cooling conveying 62 polishes the hot stamping mark of the plate. When panel and lifter plate 661 break away from, the elastic component drive lifter plate 661 vertically rises to carry 62 counterbalance with the upper cooling to make lifter plate 661 scrape off the sticky piece of polishing down from the panel on cooling carried 62. Therefore, the linkage assembly 66 can simultaneously pass through three plates, when the plates move to abut against the front section of the linkage assembly 66, the plate extrusion linkage assembly 66 slides downwards, the upper ends of the plates abut against the scraper 65, and the scraper 65 scrapes off the protective film on the upper surfaces of the plates. When the plates move to the middle section of the linkage assembly 66, the next plate downwards extrudes the linkage assembly 66, so that the linkage assembly 66 downwards extrudes the plate positioned at the middle section position, and the plate stamping position is ground. When the plate moves to the rear section of the linkage assembly 66 and is positioned below the cooling cylinder, the cooling cylinder drives the cold air plate to move downwards and blow air to the hot stamping mark pressing points at two ends of the plate for cooling. When the front section of the next plate extrusion linkage assembly 66 slides upwards, the rear section of the linkage assembly 66 turns over to enable the plate located below the cold air plate to fall to the material receiving box.

In order to achieve an effect that the scraper 65 can scrape off the protective film, the scraper 65 includes: a stop bar 651, a scraper 653, and a number of springs 652. The two ends of the limiting strip 651 are vertically fixed on the side walls of the two fixing plates 61, the scraper 653 is arranged below the limiting strip 651, the cutting edge of the scraper 653 faces towards a plate, and the springs 652 are fixed between the limiting strip 651 and the scraper 653 at equal intervals. When the plate moves obliquely upward along the elevating plate 661, the plate presses the elevating plate 661 to slide downward while the upper end pressing scraper 653 compresses the spring 652, so that the scraper 653 scrapes the protective film on the upper surface of the plate.

In light of the foregoing description of the preferred embodiment of the present invention, it is to be understood that various changes and modifications may be made by one skilled in the art without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (5)

1. The utility model provides a metal furred ceiling board thermoprinting device which characterized in that includes:

the hot stamping device comprises a workbench (1), a conveying belt (2), an adjusting part (3), a unreeling part (4), a hot stamping part (5) and a cooling part (6), wherein the conveying belt (2) is fixed on the workbench (1), and the conveying belt (2) is arranged along the length direction of the workbench (1);

the adjusting part (3) is fixed at the feeding end of the workbench (1) close to the conveying belt (2), and the adjusting part (3) is arranged above the conveying belt (2);

the unreeling part (4) is fixed on one side of the conveying belt (2), and the unreeling part (4) is suitable for attaching a protective film to the upper surface of a plate;

the hot stamping part (5) is fixed on the workbench (1), and the hot stamping part (5) is suitable for hot-melting and hot-stamping the plate;

the cooling part (6) is fixed at the discharge end of the workbench (1) close to the conveying belt (2), and the cooling part (6) is suitable for cooling the hot stamping position of a plate; wherein

When the conveying belt (2) drives the plates to move to the adjusting part (3), the adjusting part (3) can push the plates to horizontally slide so as to align the end parts of two adjacent plates;

when the plate moves to the unreeling part (4), the unreeling part (4) can push the protective film to move to the upper end of the plate, so that the hot stamping part (5) pushes the protective film downwards and the plate is hot stamped;

when the plate is moved to the cooling part (6), the cooling part (6) can clean the protective film on the upper surface of the plate and blow air to cool the hot stamping part of the plate;

the adjustment section (3) includes: the grinding device comprises a grinding assembly (31), an adjusting bracket (32), an adjusting cylinder (33) and an adjusting push plate (34), wherein the adjusting bracket (32) is fixed on the workbench (1), the adjusting cylinder (33) is vertically fixed at the upper end of the adjusting bracket (32), the adjusting push plate (34) is fixed at the end part of a piston rod of the adjusting cylinder (33), and the adjusting push plate (34) is parallel to the conveying belt (2);

the grinding assembly (31) is arranged on one side, away from the adjusting bracket (32), of the conveying belt (2), and the grinding assembly (31) is parallel to the adjusting push plate (34); wherein

The adjusting cylinder (33) pushes the adjusting bracket (32) to abut against the plate and pushes the plate to horizontally slide towards the polishing assembly (31), so that the polishing assembly (31) polishes the side edge of the plate;

the sanding assembly (31) comprising: the polishing machine comprises a polishing support (311), a polishing cylinder (312), a polishing fixing frame (313), a polishing motor (314) and a polishing belt (315), wherein the polishing support (311) is fixed on the workbench (1), the polishing cylinder (312) is fixed at the upper end of the polishing support (311), the polishing fixing frame (313) is fixed at the end part of a piston rod of the polishing cylinder (312), the polishing belt (315) is arranged around the polishing fixing frame (313) in the circumferential direction, the polishing motor (314) is fixed on the polishing fixing frame (313), and the polishing motor (314) is in transmission connection with the polishing belt (315); wherein

The grinding cylinder (312) drives the grinding fixing frame (313) to move horizontally so as to enable the grinding belt (315) to be close to or far away from the adjusting push plate (34);

the grinding motor (314) drives the grinding belt (315) to rotate circularly so as to grind burrs on the side edge of the plate;

the unwinding section (4) includes: the unwinding device comprises an unwinding disc (41), an unwinding support (42), an unwinding driving cylinder (43) and a paving plate (44), wherein the unwinding support (42) is fixed on the workbench (1), and the unwinding support (42) is arranged on one side of the conveying belt (2);

the unwinding disc (41) is rotatably arranged on the unwinding support (42), one side, close to the unwinding disc (41), of the unwinding support (42) is provided with a guide roller, and the unwinding disc (41) is suitable for bearing a protective film coil;

the unreeling driving cylinder (43) is fixed at the upper end of the unreeling support (42), the paving plate (44) is horizontally fixed at the end part of a piston rod of the unreeling driving cylinder (43), and the paving plate (44) is suitable for turning the protective film from vertical to flat; wherein

The protective film extends from the unwinding disc (41) to the paving plate (44), and the unwinding driving cylinder (43) pushes the protective film to move along the width direction of the conveying belt (2) so as to lay the protective film on the upper surface of the plate;

the unwinding part (4) further comprises: the cutting device comprises a cutting cylinder (45), a cutting motor and a cutting disc (46), wherein the cutting cylinder (45) is fixed at the lower end of the paving plate (44), the cutting motor is fixed at the end part of a piston rod of the cutting cylinder (45), and the cutting disc (46) is fixed on a rotating shaft of the cutting motor; wherein

The cutting air cylinder (45) can drive the cutting motor to move along the length direction of the conveying belt (2) so that the cutting disc (46) cuts off the protective film;

the cooling section (6) includes: the cooling device comprises two fixing plates (61), two cooling conveyers (62), a transverse plate (63), an air cooler (64), a scraper (65) and a linkage assembly (66), wherein the fixing plates (61) are vertically fixed on the workbench (1), and the two fixing plates (61) are arranged in parallel relatively;

the two cooling conveyors (62) are respectively and rotatably arranged on the inner side wall of the fixed plate (61), and the two cooling conveyors (62) are suitable for clamping from the upper end and the lower end and driving the plate to horizontally move;

the transverse plate (63) is fixed between the two fixing plates (61), the air cooler (64) is fixed on the transverse plate (63), the lower end of the transverse plate (63) is provided with an air blowing port communicated with the air cooler (64), and the air cooler (64) blows cold air to the plate through the air blowing port to cool the hot stamping part of the plate;

the two ends of the scraper (65) are fixed on the side walls of the two fixing plates (61), and the scraper (65) faces the plate;

the linkage assembly (66) is slidably arranged on the inner side wall of the fixed plate (61), and the linkage assembly (66) is suitable for guiding the plate to move between the two cooling conveyers (62); wherein

When the plate moves to abut against the front section of the linkage assembly (66), the plate extrusion linkage assembly (66) slides downwards, and the upper end of the plate abuts against the scraper (65), so that the scraper (65) scrapes off the protective film on the upper surface of the plate;

when the plates move to the middle section of the linkage assembly (66), the next plate downwards extrudes the linkage assembly (66) so that the linkage assembly (66) downwards extrudes the plate positioned at the middle section position to polish the plate hot stamping position;

when the plate is moved to the rear section of the linkage assembly (66) and is positioned below the cooling cylinder, the cooling cylinder drives the cold air plate to move downwards and blows air to the hot stamping mark pressing points at the two ends of the plate for cooling;

when the front section of the next plate extrusion linkage component (66) slides upwards, the rear section of the linkage component (66) overturns to enable the plate located below the cold air plate to fall to the material receiving box.

2. The metal ceiling tile stamping apparatus of claim 1,

the hot stamping part (5) comprises: thermoprint support (51), thermoprint horizontal cylinder (52), the vertical cylinder of thermoprint (53) and thermoprint head (54), thermoprint support (51) are fixed on workstation (1), thermoprint horizontal cylinder (52) are fixed thermoprint support (51) upper end, the vertical cylinder of thermoprint (53) are fixed the tailpiece of the piston rod portion of thermoprint horizontal cylinder (52), thermoprint head (54) are fixed the tailpiece of the piston rod portion of the vertical cylinder of thermoprint (53), the vertical cylinder of thermoprint (53) are suitable for the drive thermoprint head (54) downstream is in order to scald the mark to panel hot melt.

3. The metal ceiling tile stamping apparatus of claim 2,

the print head (54) comprises: the hot stamping device comprises a hot stamping frame (541) and a hot stamping block (542), wherein the hot stamping frame (541) is in a hollow rectangular shape, the hot stamping block (542) can be arranged in the hot stamping frame (541) in a sliding mode, and the horizontal height of the lower end of the hot stamping frame (541) is smaller than that of the lower end of the hot stamping block (542); wherein

The hot stamping vertical cylinder (53) drives the hot stamping frame (541) to move downwards until the hot stamping frame abuts against the protective film, and then the hot stamping frame continues to push the hot stamping block (542) to abut against the plate so as to hot stamp the plate.

4. The metal ceiling tile stamping apparatus of claim 3,

the linkage assembly (66) includes: the grinding device comprises a connecting rod (662), a lifting plate (661), a cooling plate (663) and a grinding column (664), wherein the lifting plate (661) is slidably arranged on the inner side wall of the fixing plate (61), and an inclined included angle is formed between the lifting plate (661) and the workbench (1);

the cooling plate (663) is rotatably arranged between the two fixing plates (61) through a rotating shaft, the connecting rod (662) is in a long strip shape, the front end of the connecting rod (662) is fixed on the lifting plate (661), and the rear end of the connecting rod (662) is fixed at one end of the cooling plate (663) far away from the lifting plate (661);

the grinding column (664) is vertically fixed at the middle section of the connecting rod (662); wherein

When the plate slides upwards along the lifting plate (661) in an inclined manner to abut against the scraper (65), the scraper (65) can scrape the protective film on the upper surface of the plate;

when the plate moves to the position below the polishing column (664), the next plate synchronously extrudes the lifting plate (661) to slide downwards, so that the polishing column (664) synchronously slides downwards to polish the hot stamping and marking position of the plate;

when the plates move onto the cooling plate (663), the air cooler (64) blows air to the two ends of the plates through the air blowing openings for cooling, and when the next plate downwards extrudes the lifting plate (661), the connecting rod (662) synchronously pushes the cooling plate (663) to overturn so as to enable the plates to fall to the material receiving box.

5. The metal ceiling tile stamping apparatus of claim 4,

the squeegee (65) includes: the device comprises a limiting strip (651), a scraper (653) and a plurality of springs (652), wherein two ends of the limiting strip (651) are vertically fixed on the side walls of two fixing plates (61), the scraper (653) is arranged below the limiting strip (651), the cutting edge of the scraper (653) faces to a plate, and the springs (652) are fixed between the limiting strip (651) and the scraper (653) at equal intervals; wherein

When the plate moves obliquely upwards along the lifting plate (661), the plate presses the lifting plate (661) to slide downwards, and simultaneously the upper end of the plate presses the scraper (653) to compress the spring (652), so that the scraper (653) scrapes the protective film on the upper surface of the plate.

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