CN217024612U - Gravure press with position detection function - Google Patents

Abstract

The utility model discloses a gravure press with a position detection function, which comprises: the printing and conveying device comprises an equipment mounting table, a printing and conveying belt and a gravure press body, wherein the printing and conveying belt is mounted on the upper wall surface of the equipment mounting table; the utility model relates to the technical field of gravure presses, and the scheme has the beneficial effects that: the problems that the existing gravure press is easy to cause printing pattern deviation and oblique printing due to the fact that materials are conveyed to incline or deviate from the position of a feeding port in the feeding process, a feeding device of the printing press is simple in structure, accurate feeding cannot be guaranteed, and the printing effect is influenced are solved.

Description

Gravure press with position detection function

Technical Field

The utility model relates to the technical field of gravure presses, in particular to a gravure press with a position detection function.

Background

The plate printing machine is a machine for printing by using an intaglio plate, wherein the image-text part of a printing plate is recessed, the blank part and the excircle of a printing plate cylinder are on the same plane, during printing, the whole plate surface of the printing plate cylinder is inked, the ink of the blank part on the plate surface is scraped clearly by a doctor blade, the ink of the image-text part is left, then paper is fed, and the back of the paper is imprinted by an imprinting cylinder, so that the ink of the recessed part is directly transferred to the paper surface.

SUMMERY OF THE UTILITY MODEL

In order to achieve the purpose, the utility model is realized by the following technical scheme: a gravure press having a position detecting function, comprising: the printing and conveying device comprises an equipment mounting table, a printing and conveying belt and a gravure press body, wherein the printing and conveying belt is mounted on the upper wall surface of the equipment mounting table;

the infrared positioning detection adjusting structure comprises: the device comprises two pairs of supporting rods, a mounting plate, a fixed table, a pair of mobile driving assemblies, a mobile platform, two pairs of lifting electric push rods, a lifting table, a miniature air pump, a pneumatic controller, two pairs of electromagnetic control valves, two pairs of air pipes, two pairs of pneumatic suckers, a pair of fixed frames and a pair of infrared positioning scanners;

two pairs of support rods are arranged on the front and rear positions of the left side of the upper wall surface of an equipment installation platform, an installation plate is arranged at the top ends of the two pairs of support rods, a fixed platform is arranged on the lower wall surface of the installation plate, a pair of movable driving components are arranged on the lower wall surface of the fixed platform, a movable platform is arranged on the movable end of the pair of movable driving components, two pairs of lifting electric push rods are arranged at the four corners of the lower wall surface of the movable platform, a lifting platform is arranged on the output ends of the two pairs of lifting electric push rods, a miniature air pump is arranged at the middle position of the upper wall surface of the lifting platform, a pneumatic controller is arranged on the lower wall surface of the lifting platform, two pairs of electromagnetic control valves are arranged on the pneumatic controller, two pairs of pneumatic suckers are arranged on the two pairs of electromagnetic control valves, the upper ends of two pairs of air pipes are arranged on the miniature air pump, a pair of fixing frames is arranged on the left side wall surface of a gravure press body, and a pair of infrared positioning scanners is arranged on the fixing frames.

Preferably, the gravure press body is provided with a control panel for controlling and adjusting production parameters.

Preferably, the mobile platform is mounted on the mobile end of the mobile drive assembly by a connecting rod.

Preferably, the lifting electric push rod is provided with an installation frame with a fixing function.

Preferably, one of the pair of motion driving assemblies comprises: the device comprises a driving box, an installation cavity, a pair of driving motors, a pair of installation partition plates, a pair of rotating bearings, a spiral lead screw and a pair of moving blocks;

the drive box is installed on the wall under the fixed station, and the installation cavity is seted up inside the drive box, and a pair of driving motor installs the both sides position in the installation cavity, and a pair of installation baffle is installed in a pair of driving motor inboard position, and a pair of rotating bearing inlays the dress at a pair of installation baffle intermediate position, and screw inlays the dress in a pair of rotating bearing, and the screw both ends are connected with a pair of driving motor output, and a pair of movable block is installed on screw.

Preferably, two ends of the spiral lead screw are arranged on the output end of the driving motor through a coupler.

Advantageous effects

The utility model provides a gravure press with a position detection function, which has the following beneficial effects: the present case has used infrared location to detect adjusts the structure, adopts the method of infrared location alignment to combine the full-automatic location that carries out the material loading of material loading to detect and adjust, guarantees that the material loading is accurate, has solved current gravure press at the material loading in-process because the material carries when slope or takes place the deviation with pan feeding mouth position, easily causes the condition of printing pattern skew and oblique seal, and printing machine loading attachment simple structure can't guarantee accurate material loading, influences the problem of the effect of printing.

Drawings

Fig. 1 is a schematic structural view of a gravure press having a position detection function according to the present invention.

Fig. 2 is a schematic structural view of a gravure press having a position detection function according to the present invention.

In the figure: 1-equipment mounting table; 2-printing a conveyer belt; 3-a gravure press body; 4-a support bar; 5, mounting a plate; 6-a fixed table; 7-moving the platform; 8, lifting an electric push rod; 9-a lifting platform; 10-a miniature air pump; 11-a pneumatic controller; 12-a solenoid control valve; 13-gas pipe; 14-pneumatic suction cup; 15-a fixed frame; 16-an infrared positioning scanner; 17-a control panel; 18-a connecting rod; 19-a mounting frame; 20-a drive box; 21-mounting a cavity; 22-a drive motor; 23-installing a partition plate; 24-a rotational bearing; 25-a screw; 26-a moving block; 27-a coupling.

Detailed Description

All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

Example 1: please refer to fig. 1-2; the main components of the scheme are as follows: the printing and conveying device comprises an equipment mounting table 1, a printing and conveying belt 2 and a gravure press body 3, wherein the printing and conveying belt 2 is mounted on the upper wall surface of the equipment mounting table 1, the gravure press body 3 is mounted on the equipment mounting table 1, the gravure press body 3 is positioned above the right side of the printing and conveying belt 2, and an infrared positioning detection and adjustment structure is mounted on the equipment mounting table 1;

the infrared positioning detection adjusting structure comprises: two pairs of support rods 4, a mounting plate 5, a fixed platform 6, a pair of mobile driving components, a mobile platform 7, two pairs of lifting electric push rods 8, a lifting platform 9, a micro air pump 10, a pneumatic controller 11, two pairs of electromagnetic control valves 12, two pairs of air pipes 13, two pairs of pneumatic suckers 14, a pair of fixed frames 15 and a pair of infrared positioning scanners 16;

two pairs of support rods 4 are arranged on the front and rear positions on the left side of the upper wall surface of an equipment mounting table 1, a mounting plate 5 is arranged on the top end positions of the two pairs of support rods 4, a fixed table 6 is arranged on the lower wall surface of the mounting plate 5, a pair of movable driving components are arranged on the lower wall surface of the fixed table 6, a movable platform 7 is arranged on the movable ends of the pair of movable driving components, two pairs of lifting electric push rods 8 are arranged on the four corner positions of the lower wall surface of the movable platform 7, a lifting table 9 is arranged on the output ends of the two pairs of lifting electric push rods 8, a micro air pump 10 is arranged on the middle position of the upper wall surface of the lifting table 9, a pneumatic controller 11 is arranged on the lower wall surface of the lifting table 9, two pairs of electromagnetic control valves 12 are arranged on the pneumatic controller 11, two pairs of pneumatic suckers 14 are arranged on the two pairs of electromagnetic control valves 12, the upper ends of air pipes 13 are arranged on the micro air pump 10, and two pairs of air pipes 13 are arranged on the electromagnetic control valves 12, a pair of fixing frames 15 are installed on the left side wall surface of the gravure press body 3, and a pair of infrared positioning scanners 16 are installed on the pair of fixing frames 15.

When the infrared positioning detection and adjustment structure is used, paper is conveyed to the gravure press body 3 side through the printing conveyer belt 2 mounted on the gravure press mounting table 1, a pair of infrared positioning scanners 16 mounted on a fixing frame 15 on the gravure press body 3 side performs position positioning detection, when a position deviation is detected, output ends of two pairs of lifting electric push rods 8 mounted on the moving platform 7 extend downwards to drive the lifting table 9 mounted thereon to move downwards, so that a pneumatic suction cup 14 mounted on an electromagnetic control valve 12 abuts against the wall surface of the paper, the electromagnetic control valve 12 is controlled to be opened through the pneumatic controller 11, the micro air pump 10 sucks the paper through the pneumatic suction cup 14, and a pair of moving driving components mounted on the lower wall surface of the fixing table 6 moves according to the deviation distance, so that the purpose of position detection and adjustment is achieved.

Example 2: the gravure press body 3 is provided with a control panel 17 for controlling and adjusting production parameters.

Example 3: the mobile platform 7 is mounted on the mobile end of the mobile drive assembly by means of a connecting rod 18.

Example 4: the lifting electric push rod 8 is provided with a mounting rack 19 with a fixing function.

Example 5: one of the pair of motion driving assemblies comprises: a drive box 20, a mounting cavity 21, a pair of drive motors 22, a pair of mounting partition plates 23, a pair of rotary bearings 24, a screw 25 and a pair of moving blocks 26;

the driving box 20 is installed on the lower wall surface of the fixed table 6, the installation cavity 21 is opened in the driving box 20, the pair of driving motors 22 are installed at two side positions in the installation cavity 21, the pair of installation partition plates 23 are installed at inner side positions of the pair of driving motors 22, the pair of rotating bearings 24 are embedded in the middle positions of the pair of installation partition plates 23, the screw 25 is embedded in the pair of rotating bearings 24, two ends of the screw 25 are connected with output ends of the pair of driving motors 22, and the pair of moving blocks 26 are installed on the screw 25.

It should be noted that, when the mobile driving assembly is used, the pair of driving motors 22 installed in the installation cavity 21 are started according to a signal sent by the controller, the pair of driving motors 22 are started to rotate, the driving motors 22 rotate to drive the screw rod 25 connected with the output end thereof through the coupling 27 to rotate, the screw rod 25 rotates in the pair of rotating bearings 24 to drive the pair of moving blocks 26 installed thereon to move, and the moving blocks 26 drive the moving platform 7 installed thereon through the connecting rod 18 to perform position adjustment, so as to achieve the purpose of position detection and adjustment.

Example 6: two ends of the screw 25 are mounted on the output end of the driving motor 22 through a coupler 27.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. A gravure press having a position detecting function, comprising: the printing and conveying device comprises an equipment mounting table, a printing and conveying belt and a gravure press body, and is characterized in that the printing and conveying belt is mounted on the upper wall surface of the equipment mounting table, the gravure press body is mounted on the equipment mounting table, the gravure press body is positioned above the right side of the printing and conveying belt, and an infrared positioning detection and adjustment structure is mounted on the equipment mounting table;

the infrared positioning detection adjusting structure comprises: the device comprises two pairs of supporting rods, a mounting plate, a fixed table, a pair of mobile driving assemblies, a mobile platform, two pairs of lifting electric push rods, a lifting table, a miniature air pump, a pneumatic controller, two pairs of electromagnetic control valves, two pairs of air pipes, two pairs of pneumatic suckers, a pair of fixed frames and a pair of infrared positioning scanners;

two pairs of support rods are arranged on the front and rear positions of the left side of the upper wall surface of an equipment installation platform, an installation plate is arranged at the top ends of the two pairs of support rods, a fixed platform is arranged on the lower wall surface of the installation plate, a pair of movable driving components are arranged on the lower wall surface of the fixed platform, a movable platform is arranged on the movable end of the pair of movable driving components, two pairs of lifting electric push rods are arranged at the four corners of the lower wall surface of the movable platform, a lifting platform is arranged on the output ends of the two pairs of lifting electric push rods, a miniature air pump is arranged at the middle position of the upper wall surface of the lifting platform, a pneumatic controller is arranged on the lower wall surface of the lifting platform, two pairs of electromagnetic control valves are arranged on the pneumatic controller, two pairs of pneumatic suckers are arranged on the two pairs of electromagnetic control valves, the upper ends of two pairs of air pipes are arranged on the miniature air pump, a pair of fixing frames is arranged on the left side wall surface of a gravure press body, and a pair of infrared positioning scanners is arranged on the fixing frames.

2. The gravure press with a position detection function according to claim 1, wherein a control panel for controlling and adjusting production parameters is installed on the gravure press body.

3. The gravure press having a position detecting function according to claim 1, wherein the moving platform is installed on a moving end of the moving drive assembly through a connecting rod.

4. The gravure press with the position detection function according to claim 1, wherein the lifting electric push rod is provided with a mounting bracket having a fixing function.

5. The gravure press having a position detecting function according to claim 1, wherein one of a pair of moving drive units includes: the device comprises a driving box, a mounting cavity, a pair of driving motors, a pair of mounting partition plates, a pair of rotating bearings, a screw rod and a pair of moving blocks;

the drive box is installed on the wall under the fixed station, and the installation cavity is seted up inside the drive box, and a pair of driving motor installs the both sides position in the installation cavity, and a pair of installation baffle is installed in a pair of driving motor inboard position, and a pair of rotating bearing inlays the dress and is installed a pair of installation baffle intermediate position, and screw inlays the dress and in a pair of rotating bearing, and the screw both ends are connected with a pair of driving motor output, and a pair of movable block is installed on screw.

6. The gravure press having a position detecting function according to claim 5, wherein both ends of the screw are mounted on an output end of the driving motor through a coupling.

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