CN216804867U - Full-automatic gilding press is used in printing - Google Patents

Abstract

The utility model relates to a full-automatic gilding press is used in printing, it includes gilding mechanism and gilding platform, gilding mechanism is located gilding bench side, gilding bench side both sides are equipped with unwinding pole and rolling rod respectively, gilding platform both sides wall is connected with adjusting part respectively, the feed end of gilding platform is equipped with detection components, detection components electricity is connected with the controller, the controller with adjusting part gilding mechanism electricity is connected. The application has the following effects: the gilding press can still keep the gilded printed matters at higher quality when gilding the printed matters with different thicknesses.

Description

Full-automatic gilding press is used in printing

Technical Field

The application relates to the field of gold stamping equipment, in particular to a full-automatic gold stamping machine for printing.

Background

At present, a gold stamping machine is a device for completing a gold stamping process, the gold stamping process is a printing process without ink, and gold stamping refers to a process for stamping an electrochemical aluminum foil on the surface of a printing stock at a certain temperature and pressure. However, when the stamping machine stamps the printed matters with different thicknesses, the printed matters and the aluminum foil are changed in distance, so that the aluminum foil is excessively deformed when the stamping machine presses the aluminum foil, the quality of the aluminum foil is affected, and the quality of the printed matters after stamping is finally affected.

SUMMERY OF THE UTILITY MODEL

In order to enable the stamping machine to still enable printed matters after stamping to be kept at high quality when stamping is conducted on printed matters with different thicknesses, the application provides the full-automatic stamping machine for printing.

The application provides a full-automatic gilding press is used in printing adopts following technical scheme:

a full-automatic stamping machine for printing comprises a stamping mechanism and a stamping table, wherein the stamping mechanism is positioned above the stamping table, an unwinding rod and a winding rod are respectively arranged on two sides above the gold stamping table and are respectively used for unwinding and winding aluminum foil, two side walls of the gold stamping table are respectively connected with an adjusting component which is used for adjusting the distance between the aluminum foil and the gold stamping table, the feeding end of the gold stamping table is provided with a detection assembly, the detection assembly is used for detecting the thickness of the printed matter and outputting a thickness signal, the detection component is electrically connected with a controller, the controller is electrically connected with the adjusting component and the gold stamping mechanism, the controller responds to the thickness signal and outputs an adjusting signal, the adjusting assembly responds to the adjusting signal and adjusts the distance between the aluminum foil and the gold stamping table, and the gold stamping mechanism responds to the adjusting signal and adjusts the pressing stroke.

By adopting the technical scheme, when printed matters pass through the feeding end of the gold stamping table, the detection assembly detects the thickness of the printed matters and transmits thickness signals to the controller, the controller receives the thickness signals and transmits adjusting signals to the adjusting assembly, the adjusting assembly responds to the adjusting signals and adjusts the height of the aluminum foil based on the surface of the gold stamping table, so that the distance between the aluminum foil and the printed matters can be fixed, meanwhile, the controller adjusts the downward pressing stroke of the gold stamping mechanism according to the thickness signals, so that the pressure of the gold stamping mechanism on the printed matters can be fixed, and the gold stamping machine can still enable the printed matters after gold stamping to be kept at high quality when the printed matters with different thicknesses are subjected to gold stamping.

Preferably, the adjusting component comprises an upper roller, a lower roller, a lifting plate and a driving piece, the length direction of the upper roller and the length direction of the lower roller are parallel to the length direction of the gold stamping table, the upper roller is located above the lower roller, two ends of the upper roller and two ends of the lower roller are rotatably connected with the lifting plate, and the driving piece is connected with the lifting plate and used for adjusting the height of the lifting plate.

By adopting the technical scheme, the aluminum foil passes through the upper roller and the lower roller, the controller controls the driving piece to adjust the height of the lifting plate, so that the height of the aluminum foil between the upper roller and the lower roller can be adjusted, the distance between the aluminum foil and a printed matter can be adjusted, the deformation degree of the aluminum foil can be reduced when the aluminum foil is pressed down by the gold stamping mechanism, and the gold stamping effect of the gold stamping mechanism on the printed matter can be improved.

Preferably, the detection assembly comprises a laser thickness gauge, the laser thickness gauge is located at the feeding end of the gold stamping table, printed matters pass through the upper sensing end and the lower sensing end of the laser thickness gauge, the laser thickness gauge is electrically connected with the controller, and the laser thickness gauge is used for detecting the thickness of the printed matters and outputting thickness signals.

Through adopting above-mentioned technical scheme, when the printed matter passes through laser thickness gauge's upper and lower response end, the thickness of laser thickness gauge detectable printed matter to this can carry the thickness signal to the controller, and the detection mode is simple, and it is high to detect the precision, can improve the regulation precision of adjusting part and gilt mechanism, with this quality after promoting the printed matter gilt.

Preferably, the detection assembly comprises an infrared thickness gauge, the infrared thickness gauge is located above the feeding end of the gold stamping table, the sensing end of the infrared thickness gauge is opposite to the top surface of the gold stamping table, the infrared thickness gauge is electrically connected with the controller, and the infrared thickness gauge is used for detecting the thickness of a printed matter and outputting a thickness signal.

Through adopting above-mentioned technical scheme, when the printed matter passed through infrared thickness gauge's response end, infrared thickness gauge detectable printed matter's thickness to this can be to controller transport thickness signal, and the detection mode is simple, detects the precision height.

Preferably, the discharge end of the gold stamping table is connected with a collecting assembly, and the collecting assembly is used for collecting printed matters.

Through adopting above-mentioned technical scheme, gilt mechanism is collected to the accessible collection subassembly after the printed matter is gilt, can conveniently transport the printed matter after gilt.

Preferably, the collecting assembly comprises a collecting table and a sensor, the collecting table is connected with the gold stamping table, the sensor is located on the top surface of the collecting table, the sensor is used for detecting whether a printed matter is arranged on the collecting table or not, two sides of the collecting table are respectively connected with an air cylinder and a collecting frame, the air cylinder is used for pushing the printed matter on the collecting table into the collecting frame, the sensor and the air cylinder are electrically connected with the controller, when the printed matter is arranged on the collecting table, the sensor outputs a detection signal, the controller responds to the detection signal and outputs a control signal, and the air cylinder responds to the control signal and pushes the printed matter.

Through adopting above-mentioned technical scheme, the printed matter is transported to the collection platform after from gilt platform, and when the sensor detected the printed matter of collecting bench, to controller conveying detection signal, the controller can promote to collect bench printed matter to the collection frame in according to detection signal control cylinder.

Preferably, the sensor is a photosensitive sensor, and when the printed matter is located above the photosensitive sensor, the photosensitive sensor outputs a detection signal.

Through adopting above-mentioned technical scheme, the printed matter is after collecting the platform from gilt platform transportation, and the printed matter is located the photosensitive sensor top back, and the illumination that photosensitive sensor detected changes to this carries detection signal to the controller.

Preferably, the sensor is a pressure sensor, and the pressure sensor outputs a detection signal when the printed matter is located above the pressure sensor.

By adopting the technical scheme, after the printed matter is transported to the collecting table from the gold stamping table, the printed matter is positioned above the pressure sensor, and the pressure sensor detects the pressure of the printed matter, so that the detection signal is transmitted to the controller.

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

1. the detection assembly detects the thickness of the printed matter and transmits a thickness signal to the controller, the controller receives the thickness signal and transmits an adjusting signal to the adjusting assembly, the adjusting assembly responds to the adjusting signal and adjusts the height of the aluminum foil based on the surface of the gold stamping table so as to fix the distance between the aluminum foil and the printed matter, and the controller adjusts the downward pressing stroke of the gold stamping mechanism according to the thickness signal so as to fix the pressure of the gold stamping mechanism on the printed matter, so that the gold stamping machine can still keep the printed matter after gold stamping at higher quality when the gold stamping machine stamps the printed matter with different thicknesses;

2. the aluminum foil penetrates through the space between the upper roller and the lower roller, the controller controls the driving piece to adjust the height of the lifting plate, so that the height of the aluminum foil between the upper roller and the lower roller can be adjusted, the distance between the aluminum foil and a printed matter is further adjusted, the deformation degree of the aluminum foil can be reduced when the aluminum foil is pressed down by the gold stamping mechanism, and the gold stamping effect of the gold stamping mechanism on the printed matter can be improved;

3. when the printed matter passes through the upper sensing end and the lower sensing end of the laser thickness gauge, the thickness of the printed matter can be detected by the laser thickness gauge, so that a thickness signal can be transmitted to the controller, the detection mode is simple, the detection precision is high, the adjustment precision of the adjustment assembly and the gold stamping mechanism can be improved, and the quality of the printed matter after gold stamping is improved.

Drawings

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

Fig. 2 is a plan view of the entire structure of embodiment 1 of the present application.

Fig. 3 is a schematic view of the overall structure of embodiment 2 of the present application.

Fig. 4 is a plan view of the entire structure of embodiment 2 of the present application.

Description of reference numerals:

100. a gold stamping table; 101. a gold stamping mechanism; 102. unwinding the rod; 103. winding the rod;

200. an adjustment assembly; 201. a roller is arranged; 202. a lower roller; 203. a lifting plate; 204. a drive member;

300. a laser thickness gauge;

400. an infrared thickness gauge;

500. a collection assembly; 501. a collection station; 502. a sensor; 503. a collection frame; 504. and a cylinder.

Detailed Description

The present application is described in further detail below with reference to the accompanying drawings.

The embodiment of the application discloses full-automatic gilding press is used in printing.

Example 1:

referring to fig. 1 and 2, the full-automatic stamping press for printing includes a stamping table 100, a stamping mechanism 101, two sets of adjusting assemblies 200, a detecting assembly and a controller, the stamping mechanism 101 is located right above the stamping table 100, the adjusting assemblies 200 are located at two sides of the stamping table 100, aluminum foils are located between the stamping mechanism 101 and the stamping table 100 and above printed matters, the stamping mechanism 101 is used for stamping the printed matters on the stamping table 100, the detecting assembly is located at one end of the stamping table 100, used for detecting the thickness of the printed matter and outputting a thickness signal, the controller is electrically connected with the gold stamping mechanism 101, the adjusting component 200 and the detecting component, the controller responds to the thickness signal and controls the adjusting component 200 to adjust the distance between the aluminum foil and the printed matter, the controller responds to the thickness signal and controls the downward pressing stroke of the gold stamping mechanism 101, therefore, the distance between the aluminum foil and the printed matter can be fixed, and the pressure of the gold stamping mechanism 101 on the printed matter is fixed.

The gold stamping table 100 is rectangular, two ends of the gold stamping table are respectively a feeding end and a discharging end, and a conveyor belt is mounted at the top of the gold stamping table 100 and used for conveying printed matters from the feeding end to the discharging end. The conveying frame is installed at the feed end of the gold stamping table 100, the conveying belt is connected to the top of the conveying frame, and printed matters are conveyed to the feed end of the gold stamping table 100 from the conveying belt. The printed matters are uniformly distributed on the conveyor belt and the conveying belt at intervals, and the conveyor belt and the conveying belt convey the printed matters at the same speed and at the uniform speed.

Collecting assembly 500 is installed to the discharge end of gilding platform 100, collects assembly 500 and includes collection platform 501 and collection frame 503, collects platform 501 and is the cuboid form, collects frame 503 and is located one side of collecting platform 501, and the opposite side of collecting platform 501 is provided with cylinder 504, and cylinder 504 level sets up and the length direction perpendicular to gilding platform 100's of its piston rod length direction. The piston rod of the cylinder 504 is connected with a push plate, the push plate is in a shape of a rectangular plate, and the length direction of the push plate is consistent with the length direction of the gold stamping table 100. The top of the collection table 501 is provided with a sensor 502, the sensor 502 is used for detecting whether a printing plate exists on the top of the collection table 501, the sensor 502 is a photosensitive sensor, the photosensitive sensor and the air cylinder 504 are electrically connected with a controller, and the controller is an S7-200 PLC.

When the printing plate is transported from the discharging end of the gold stamping table 100 to the collecting table 501, the printing plate covers the photosensitive sensor, the illumination received by the photosensitive sensor changes and outputs a detection signal, the controller responds to the detection signal and outputs a control signal, and the air cylinder 504 responds to the control signal and pushes the printing plate into the collecting frame 503. In other embodiments, the sensor 502 may be a pressure sensor that is electrically connected to the controller. When the printing plate is transported onto the collection stage 501, the pressure sensor detects the pressure of the printing plate and outputs a detection signal to the controller. In other embodiments, the sensor 502 may be a light sensor and a pressure sensor, both of which are mounted on the top of the collecting table 501, and when the printing plate is on the collecting table 501, both of the light sensor and the pressure sensor transmit detection signals to the controller, and the controller receives the two detection signals and controls the air cylinder 504.

Two sides of the gold stamping table 100 are respectively provided with an unwinding rod 102 and a winding rod 103, and the length directions of the unwinding rod 102 and the winding rod 103 are consistent with the length direction of the gold stamping table 100. The aluminum foil is wound on the unwinding rod 102, the unwinding rod 102 is used for unwinding the aluminum foil, the aluminum foil passes through the upper side of the gold stamping table 100 from one side of the gold stamping table 100 and extends to the other side of the gold stamping table 100, the aluminum foil is wound by the winding rod 103, the winding rod 103 is connected with a motor, the motor rotates to drive the winding rod 103 to rotate, and the winding rod 103 is convenient to wind the aluminum foil.

The two groups of adjusting components 200 are respectively positioned between the unwinding rod 102 and the gold stamping table 100 and between the winding rod 103 and the gold stamping table 100. The adjusting assembly 200 includes an upper roller 201, a lower roller 202, a lifting plate 203 and a driving member 204. The upper roller 201 is located right above the lower roller 202, and the length directions of the upper roller 201 and the lower roller 202 are consistent with the length direction of the unreeling rod 102. Go up roller 201 and lower roller 202 and all rotate to be connected in lifter plate 203, and lifter plate 203 is C type and opening up, goes up roller 201 and lower roller 202 and all is located the opening of lifter plate 203, goes up roller 201 and the both ends of lower roller 202 and all rotates with lifter plate 203 to be connected. The driving member 204 is located below the lifting plate 203, the driving member 204 is electrically connected with the controller, the driving member 204 may adopt an air cylinder, and a piston rod of the air cylinder is vertically arranged. The controller can control the cylinder to push the lifting plate 203, so as to adjust the height of the upper roller 201 and the lower roller 202.

The aluminum foil extends from the unwinding rod 102 to a position between the upper roller 201 and the lower roller 202 on one side of the gold stamping table 100, then passes through a position between the gold stamping mechanism 101 and the gold stamping table 100, and then passes through a position between the upper roller 201 and the lower roller 202 on the other side of the gold stamping table 100, and then is wound by the winding rod 103.

The detection assembly is located between the gold stamping table 100 and the conveying frame and comprises a laser thickness gauge 300, the laser thickness gauge 300 is electrically connected with the controller, the sensing end of the laser thickness gauge 300 is C-shaped, when a printing plate is conveyed to the gold stamping table 100 from the conveying frame, the printing plate passes through the sensing end of the laser thickness gauge 300, the laser thickness gauge 300 can detect the thickness of the printing plate and output a thickness signal, the controller responds to the thickness signal and outputs an adjusting signal, and the driving piece 204 responds to the adjusting signal and adjusts the height of the upper roller 201 and the lower roller 202 so as to adjust the distance between the aluminum foil and the gold stamping table 100. The gold stamping mechanism 101 responds to the adjustment signal and adjusts the pressing stroke.

The specific adjustment mode is that an operator presets the thickness of a printed matter as a, the distance between the aluminum foil and the printed matter as b and the pressing stroke of the gold stamping mechanism 101 as l through the controller. When the detection assembly detects that the thickness of the printed product is a + a1, the controller controls the adjusting assembly 200 to adjust the distance to a1 so that the distance between the aluminum foil and the printed product is kept at b, and the controller controls the downward pressing stroke of the gold stamping mechanism 101 to be l-a 1.

The implementation principle of the embodiment 1 is as follows: when the printed product is conveyed to the gold stamping table 100 from the conveying frame, the detection assembly detects the thickness of the printed product and outputs a thickness signal, the controller responds to the thickness signal and outputs an adjusting signal, and the driving part 204 responds to the adjusting signal and adjusts the height of the upper roller 201 and the lower roller 202, so that the distance between the aluminum foil and the top surface of the gold stamping table 100 is adjusted. The distance between the aluminum foil and the printed matter can be fixed. The gold stamping mechanism 101 responds to the adjusting signal and adjusts the pressing stroke, the pressure of the gold stamping mechanism 101 on the printed matter can be fixed, and when the gold stamping mechanism 101 presses down, the aluminum foil is printed on the printed matter, so that the gold stamping operation on the printed matter is completed, and the gold stamping machine can still enable the printed matter after gold stamping to be kept at high quality when the gold stamping machine stamps the printed matter with different thicknesses.

Example 2: it differs from embodiment 1 in the detection assembly.

Referring to fig. 3 and 4, the full-automatic stamping press for printing includes a detection assembly including an infrared thickness gauge 400. The infrared thickness gauge 400 is installed above the feeding end of the gold stamping table 100 through a C-shaped frame, the infrared thickness gauge 400 can also be installed above the conveying frame, the induction end of the infrared thickness gauge 400 is arranged downwards, and the infrared thickness gauge 400 is electrically connected with the controller.

The implementation principle of the embodiment 2 is as follows: when the printed matter passes below the infrared thickness gauge 400 when being transported on the conveying frame or the gold stamping table 100, the infrared thickness gauge 400 can detect the thickness of the printed matter and output a thickness signal, the controller responds to the thickness signal and outputs an adjusting signal, and the controller controls the driving part 204 and the gold stamping mechanism 101 according to the adjusting signal, so that the driving part 204 is adjusted to push the heights of the upper roller 201 and the lower roller 202, and the downward pressing stroke of the gold stamping mechanism 101 is adjusted.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a full-automatic gilding press is used in printing which characterized in that: the automatic feeding device comprises a gold stamping mechanism (101) and a gold stamping table (100), wherein the gold stamping mechanism (101) is located above the gold stamping table (100), two sides of the top of the gold stamping table (100) are respectively provided with a unwinding rod (102) and a winding rod (103), the unwinding rod (102) and the winding rod (103) are respectively used for unwinding and winding aluminum foils, two side walls of the gold stamping table (100) are respectively connected with an adjusting component (200), the adjusting component (200) is used for adjusting the distance between the aluminum foils and the gold stamping table (100), a detecting component is arranged at the feeding end of the gold stamping table (100) and used for detecting the thickness of printed matters and outputting thickness signals, the detecting component is electrically connected with a controller, the controller is electrically connected with the adjusting component (200) and the gold stamping mechanism (101), the controller is used for responding to the thickness signals and outputting adjusting signals, and the adjusting component (200) responds to the adjusting signals and adjusts the distance between the aluminum foil and the gold stamping table (100) And the gold stamping mechanism (101) responds to the adjusting signal and adjusts the pressing stroke.

2. The full-automatic gilding press for printing of claim 1, characterized in that: the adjusting assembly (200) comprises an upper roller (201), a lower roller (202), a lifting plate (203) and a driving piece (204), the length direction of the upper roller (201) is parallel to that of the lower roller (202), the upper roller (201) is located above the lower roller (202), the two ends of the upper roller and the lower roller are rotatably connected with the lifting plate (203), and the driving piece (204) is connected with the lifting plate (203) and used for adjusting the height of the lifting plate (203).

3. The full-automatic gilding press for printing of claim 1, characterized in that: the detection assembly comprises a laser thickness gauge (300), the laser thickness gauge (300) is located at the feeding end of the gold stamping table (100), a printed matter passes through the upper sensing end and the lower sensing end of the laser thickness gauge (300), the laser thickness gauge (300) is electrically connected with the controller, and the laser thickness gauge (300) is used for detecting the thickness of the printed matter and outputting a thickness signal.

4. The full-automatic gilding press for printing of claim 1, characterized in that: the detection assembly comprises an infrared thickness gauge (400), the infrared thickness gauge (400) is located above the feeding end of the gold stamping table (100), the sensing end of the infrared thickness gauge (400) is opposite to the top surface of the gold stamping table (100), the infrared thickness gauge (400) is electrically connected with the controller, and the infrared thickness gauge (400) is used for detecting the thickness of a printed matter and outputting a thickness signal.

5. The full-automatic gilding press for printing of claim 1, characterized in that: the discharging end of the gold stamping table (100) is connected with a collecting assembly (500), and the collecting assembly (500) is used for collecting printed matters.

6. The full-automatic gilding press is used in printing of claim 5, characterized by: the collection assembly (500) comprises a collection stage (501) and a sensor (502), the collecting table (501) is connected with the gold stamping table (100), the sensor (502) is positioned on the top surface of the collecting table (501), the sensor (502) is used for detecting whether the collection table (501) has printed matters or not, the two sides of the collecting platform (501) are respectively connected with an air cylinder (504) and a collecting frame (503), the air cylinder (504) is used for pushing the printed matters on the collecting table (501) into the collecting frame (503), the sensor (502) and the cylinder (504) are both electrically connected with the controller, the sensor (502) outputs a detection signal when there is a printed matter on the collection table (501), the controller is responsive to the detection signal and outputs a control signal, and the air cylinder (504) is responsive to the control signal and pushes the printed product.

7. The full-automatic gilding press is used in printing of claim 6, characterized by: the sensor (502) adopts a photosensitive sensor (502), and when a printed matter is positioned above the photosensitive sensor (502), the photosensitive sensor (502) outputs a detection signal.

8. The full-automatic gilding press is used in printing of claim 6, characterized in that: the sensor (502) adopts a pressure sensor (502), and when a printed product is positioned above the pressure sensor (502), the pressure sensor (502) outputs a detection signal.

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