CN111516369A

CN111516369A - Quick and accurate printing device of metal sheet

Info

Publication number: CN111516369A
Application number: CN202010426115.2A
Authority: CN
Inventors: 商怡学
Original assignee: Lanxi Luoli Mechanical Equipment Co ltd
Current assignee: Lanxi Luoli Mechanical Equipment Co ltd
Priority date: 2020-05-19
Filing date: 2020-05-19
Publication date: 2020-08-11

Abstract

The invention discloses a quick and accurate printing device for metal plates, which comprises a printing box, wherein the lower end of the printing box is connected with a working box in a sliding manner, a control cavity is arranged in the printing box, a rack groove is formed in the rear wall of the control cavity, a rotating shaft is connected in the rack groove in a sliding manner, a driven incomplete gear is fixedly arranged at the front end of the rotating shaft, a driving incomplete gear is fixedly arranged at the position, close to the rear wall, of the rotating shaft, and the driving incomplete gear is meshed with a guide rail rack.

Description

Quick and accurate printing device of metal sheet

Technical Field

The invention relates to the field of metal plate processing, in particular to a device for quickly and accurately printing a metal plate.

Background

With the development of industry, metal products are more and more, wherein the metal products comprise metal plates, the metal plates are widely used in various industries, surface printing treatment is needed on some metal plates, and at present, a method for manually printing the metal plates is basically adopted, but the printing method is too labor-intensive and too low in efficiency, meanwhile, certain proficiency of workers is needed to ensure printing to proper stations, and the metal plates can be quickly and accurately printed by the printing device.

Disclosure of Invention

In order to solve the problems, the embodiment designs a metal plate fast and accurate printing device, which comprises a printing box, wherein the lower end of the printing box is connected with a working box in a sliding manner, a control cavity is arranged in the printing box, the rear wall of the control cavity is provided with a rack groove, a rotating shaft is connected in the rack groove in a sliding manner, the front end of the rotating shaft is fixedly provided with a driven incomplete gear, the rotating shaft is fixedly provided with a driving incomplete gear at the position close to the rear wall of the control cavity, the upper wall and the lower wall of the control cavity are fixedly provided with guide rail racks, the driving incomplete gear is meshed with the guide rail racks at two sides, the driving incomplete gear is taken as a symmetrical center, the left side and the right side of the control cavity are provided with moving racks in a sliding manner, the lower end of the moving rack at the left side is connected with the printing box in a sliding manner, the lower side of the printing box is provided with a printing block, the lower end of the movable rack on the left side is fixedly connected with the printing block, a reset spring is fixedly arranged between the printing block and the printing box, a support rod is fixedly arranged in the middle of the control chamber, the upper end of the support rod is hinged and connected with a transmission rod, the left end and the right end of the transmission rod are in splined connection with the two movable racks, when the driving incomplete gear drives the printing box to move to a left limit position and a right limit position, the driven incomplete gear is meshed and connected with the movable racks on the left side and the right side, the upper end of the working box is provided with a connecting groove, the rear upper end surface of the working box is provided with a fixed block, a rotating shaft is fixed on the working box through the fixed block, a transmission chamber and a working chamber with a right opening are arranged in the working chamber, the, the reset spring enters the working cavity through the connecting groove, a printing bottom plate is arranged on the left end face of the bottom of the working cavity, an adjusting spring is fixedly connected to the upper end face of the printing bottom plate, one end of the adjusting spring, which is far away from the printing bottom plate, is fixedly connected with a printing top plate, a reagent box with an upward opening is fixedly arranged at the middle position of the bottom of the working cavity, the right end of the printing top plate is hinged with a hinged rod, the right end of the hinged rod is hinged with a scraping rod, the right end of the scraping rod penetrates through the reagent box and is fixedly connected with a scraping block, a reagent cavity with an upward opening is formed between the scraping block and the reagent box, a template cavity with an upward opening is arranged on the lower side of the reagent box, 12 templates are arranged in the template cavity, characters formed by grooves are arranged on the templates, and when the printing box is positioned at a left limit position, the rotating shaft, at the moment, the driving incomplete gear is disengaged from the upper guide rail rack and is not engaged with the lower guide rail rack at the same time, the printing box is kept static, the driven incomplete gear is engaged with the moving rack on the right side, so that the moving rack on the right side is driven to move upwards, the right end of the transfer rod is driven to move upwards, the left end of the transfer rod is driven to move downwards through the support rod, so that the moving rack on the left side is driven to move downwards, so that the printing block is driven to move downwards, the printing block is pressed downwards to contact with the working box, so that the printing top plate is pushed to move downwards, the hinged joint of the hinged rod and the scraping rod is driven to move rightwards, so that the scraping block is driven to move rightwards through the scraping rod, so that the reagent in the reset spring flows through the template, and when the rotating shaft continues to rotate, the driving incomplete gear, the printing box is driven to move rightwards, the driven incomplete gear is driven to be disengaged from the movable rack, the printing block moves upwards under the action of the reset spring, the printing top plate resets under the action of the adjusting spring, the scraping block is driven to move leftwards, reagents which are not in the groove are hung, at the moment, the rotating shaft moves leftwards relative to the rack groove, the printing box is driven to move rightwards due to the fact that the rotating shaft is fixed, when the printing box moves to the right limit position, the driving incomplete gear is disengaged from the lower guide rail rack and is not engaged with the upper guide rail rack at the same time, the driven incomplete gear is engaged with the left movable rack, the left movable rack is driven to move downwards, the printing block is driven to move downwards, and the reagents in the template groove are copied to the printing block, and carrying out next printing.

Beneficially, a transmission shaft is rotatably connected to the left wall of the transmission cavity, a driven sheave is fixedly arranged at the right end of the transmission shaft, the driven sheave is engaged with a driving sheave, the center of the driving sheave is fixedly connected with a connecting shaft, the right end of the connecting shaft is fixedly connected with a driven bevel gear, the driven bevel gear is engaged with a driving bevel gear, the center of the driving bevel gear is fixedly connected with an output shaft, the front end of the output shaft is in power connection with a motor, the rear end of the output shaft is fixedly connected with a driving pulley, the rear end of the rotating shaft is fixedly connected with a driven pulley, a belt is fixedly arranged between the driven pulley and the driving pulley, the motor is started to drive the output shaft and the driving bevel gear to rotate anticlockwise so as to drive the driving pulley to rotate, the driven pulley is, the driving bevel gear drives the driven bevel gear to rotate, so that the driving grooved pulley is driven to rotate through the connecting shaft, and when the driving grooved pulley rotates for a circle, the driven grooved pulley is driven to rotate by a proper angle.

Beneficially, transmission shaft left end fixed connection drive sprocket, the template chamber right wall is kept away from the fixed optical axis that is equipped with in one side of transmission shaft, the optical axis rotates and connects driven sprocket, driven sprocket with the fixed chain that is equipped with between the drive sprocket, 12 the even equidistance of template distributes in on the chain, when driven sheave rotates certain angle, through drive sprocket drives the chain rotates, and then drives preceding one the template leaves reagent box, next the template gets into reagent box carries out the printing of next template.

Beneficially, 12 array evenly distributed station grooves are arranged on the rear side of the bottom of the workbench, a moving groove is arranged on the right side of the station groove, a moving block is arranged on the moving groove in a sliding mode, the moving block is arranged on the moving shaft in a sliding mode, a connecting spring is fixedly connected to the lower side of the moving shaft, a connecting groove circle is fixedly connected to one side, away from the moving shaft, of the connecting spring, the groove circle is placed in the station groove, a clamping cavity is formed in the moving shaft, a screw rod is connected to the clamping cavity in a threaded mode, the groove circle is located in the station groove closest to the printing top plate when the work is started, the vertex of one side of the metal plate is placed in the clamping cavity, the screw rod is screwed, a motor is started, after the metal plate is printed by the printing block for one time, the metal plate is pushed backwards, the groove circle moves upwards under the thrust action, and then enters the next station groove, and when the groove circle is positioned in the last station groove, pushing the metal plate to the right so as to finish all the printing stations.

The invention has the beneficial effects that: the invention can drive the work box to move left and right through the motor, simultaneously realize the up-and-down movement of the printing block, realize the rapid printing of the metal plate, realize the accurate positioning of the printing station by arranging the station slot, reduce the operation requirement on workers, and simultaneously adopt the automatic replacement mode of 12 templates to print the metal plates with different widths, thereby improving the printing efficiency.

Drawings

For ease of illustration, the invention is described in detail by the following specific examples and figures.

FIG. 1 is a schematic view showing the overall structure of a device for rapid and accurate printing of a metal plate according to the present invention;

FIG. 2 is a schematic view of the structure in the direction "A-A" of FIG. 1;

FIG. 3 is a schematic view of the structure in the direction "B-B" of FIG. 1;

FIG. 4 is a schematic view of the structure in the direction "C-C" of FIG. 1;

FIG. 5 is a schematic view of the structure in the direction "D-D" of FIG. 2;

FIG. 6 is a schematic view of the structure in the direction "E-E" of FIG. 2;

FIG. 7 is a schematic view of the structure in the direction "F-F" of FIG. 3;

FIG. 8 is a schematic view of the structure in the direction "H-H" of FIG. 6.

Detailed Description

The invention will now be described in detail with reference to fig. 1-8, for ease of description, the orientations described below will now be defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The invention relates to a quick and accurate printing device for metal plates, which comprises a printing box 34, wherein the lower end of the printing box 34 is connected with a working box 33 in a sliding manner, a control cavity 36 is arranged in the printing box 34, a rack groove 37 is formed in the rear wall of the control cavity 36, a rotating shaft 40 is connected in the rack groove 37 in a sliding manner, a driven incomplete gear 12 is fixedly arranged at the front end of the rotating shaft 40, a driving incomplete gear 39 is fixedly arranged at the position, close to the rear wall of the control cavity 36, of the rotating shaft 40, a guide rail rack 13 is fixedly arranged on the upper wall and the lower wall of the control cavity 36, the driving incomplete gear 39 is meshed with the guide rail racks 13 connected to two sides, the driving incomplete gear 39 is taken as a symmetric center, moving racks 11 are arranged in the control cavity 36 in a sliding manner in a left-right symmetric manner, the lower ends of the moving racks 11 on the left side are, the printing box 34 downside is equipped with printing block 31, the left side the lower extreme fixed connection of moving rack 11 in printing block 31, printing block 31 with fixed reset spring 32 that is equipped with between printing box 34, the fixed bracing piece 35 that is equipped with in the middle of the control chamber 36, bracing piece 35 upper end is articulated to be connected transfer lever 38, both ends splined connection is in two about transfer lever 38 move rack 11, when the incomplete gear 39 of initiative drives printing box 34 moves about extreme position, the incomplete gear 12 of driven meshes connects left and right side the moving rack 11, open the upper end of work box 33 has connecting groove 45, the up end is equipped with fixed block 49 behind work box 33, pivot 40 passes through fixed block 49 to be fixed on work box 33, be equipped with transmission chamber 19 and open-ended right work chamber 61 in the work box 33, the transmission cavity 19 is located on the right side of the working cavity 61, when the printing box 34 drives the return spring 32 to move rightwards, the return spring 32 enters the working cavity 61 through the connecting groove 45, the left end face of the bottom of the working cavity 61 is provided with the printing bottom plate 28, the upper end face of the printing bottom plate 28 is fixedly connected with the adjusting spring 29, one end of the adjusting spring 29 far away from the printing bottom plate 28 is fixedly connected with the printing top plate 30, the middle position of the bottom of the working cavity 61 is fixedly provided with the reagent box 25 with an upward opening, the right end of the printing top plate 30 is hinged with the hinged rod 27, the right end of the hinged rod 27 is hinged with the scraping rod 26, the right end of the scraping rod 26 penetrates through the reagent box 25 and is fixedly connected with the scraping block 24, the reagent cavity 62 with the upward opening is formed between the scraping block 24 and the reagent box 25, and the lower side of the reagent box 25 is provided, the template cavity 55 is internally provided with 12 templates 23, the templates 23 are provided with characters formed by grooves, when the printing box 34 is located at a left limit position, the rotating shaft 40 is rotated counterclockwise to drive the driven incomplete gear 12 and the driving incomplete gear 39 to rotate, at this time, the driving incomplete gear 39 is disengaged from the upper guide rail rack 13 and is not engaged with the lower guide rail rack 13, the printing box 34 is kept still, the driven incomplete gear 12 is engaged with the moving rack 11 at the right side to drive the moving rack 11 at the right side to move upwards, so as to drive the right end of the transmission rod 38 to move upwards, the support rod 35 drives the left end of the transmission rod 38 to move downwards, so as to drive the moving rack 11 at the left side to move downwards, so as to drive the printing block 31 to move downwards, and the printing block 31 is pressed and contacted with the working box 33, thereby pushing the printing top plate 30 to move downwards, thereby driving the hinged joint of the hinged rod 27 and the scraping rod 26 to move to the right, thereby driving the scraping block 24 to move to the right through the scraping rod 26, thereby causing the reagent in the return spring 32 to flow through the template 23, when the rotating shaft 40 continues to rotate, at this time, the driving incomplete gear 39 is in meshing transmission with the lower guide rail rack 13, thereby driving the printing box 34 to move to the right, thereby driving the driven incomplete gear 12 to disengage from the moving rack 11, the printing block 31 moves upwards under the action of the return spring 32, the printing top plate 30 is reset under the action of the adjusting spring 29, thereby driving the scraping block 24 to move to the left, thereby hanging off the reagent not in the groove, at this time, the rotating shaft 40 moves to the left relative to the rack groove 37, thereby driving the printing box 34 to move to the right due to the fixing of the rotating shaft 40, when the printing box 34 moves to the right limit position, the driving incomplete gear 39 is disengaged from the lower guide rail rack 13 and is not engaged with the upper guide rail rack 13, and the driven incomplete gear 12 is engaged with the left moving rack 11, so as to drive the left moving rack 11 to move downwards, so as to drive the printing block 31 to move downwards, so that the reagent in the groove of the template 23 is copied to the printing block 31 for the next printing.

Beneficially, a transmission shaft 21 is rotatably connected to the left wall of the transmission cavity 19, a driven sheave 20 is fixedly arranged at the right end of the transmission shaft 21, the driven sheave 20 is engaged with the driving sheave 14, the driving sheave 14 is fixedly connected to a connecting shaft 18 at the center, a driven bevel gear 15 is fixedly connected to the right end of the connecting shaft 18, the driven bevel gear 15 is engaged with the driving bevel gear 17, the driving bevel gear 17 is fixedly connected to an output shaft 16 at the center, the front end of the output shaft 16 is connected to a motor 48 in a power manner, the rear end of the output shaft 16 is fixedly connected to a driving pulley 41, the rear end of the rotating shaft 40 is fixedly connected to a driven pulley 43, a belt 42 is fixedly arranged between the driven pulley 43 and the driving pulley 41, the motor 48 is started, so as to drive the output shaft 16 and the driving bevel gear 17 to rotate counterclockwise, so as to drive the driving, and then the rotating shaft 40 is driven to rotate counterclockwise, the driven bevel gear 15 is driven to rotate by the driving bevel gear 17, so that the driving sheave 14 is driven to rotate by the connecting shaft 18, and when the driving sheave 14 rotates for one circle, the driven sheave 20 is driven to rotate by a proper angle.

Beneficially, the left end of the transmission shaft 21 is fixedly connected with a driving sprocket 44, one side of the right wall of the template cavity 55, which is far away from the transmission shaft 21, is fixedly provided with an optical axis 50, the optical axis 50 is rotatably connected with a driven sprocket 54, a chain 22 is fixedly arranged between the driven sprocket 54 and the driving

sprocket

44, 12 templates 23 are uniformly and equidistantly distributed on the chain 22, when the driven sheave 20 rotates through a certain angle, the driving sprocket 44 drives the chain 22 to rotate, so as to drive the former template 23 to leave the reagent box 25, and the next template 23 enters the reagent box 25 for printing the next template.

Beneficially, 12 array evenly distributed station grooves 53 are arranged on the rear side of the bottom of the working table 61, a moving groove 59 is arranged on the right side of the station groove 53, a moving block 52 is slidably arranged on the moving groove 59, the moving block 52 is slidably arranged on the left and right, a connecting spring 56 is fixedly connected to the lower side of the moving shaft 51, a connecting groove circle 58 is fixedly connected to one side of the connecting spring 56, which is far away from the moving shaft 51, the groove circle 58 is placed on the station groove 53, the moving shaft 51 is provided with a clamping cavity 60, a screw 57 is connected in the clamping cavity 60 in a threaded manner, when the work is started, the groove circle 58 is located in the station groove 53, which is closest to the printing top plate 30, the vertex on one side of the metal plate is placed in the clamping cavity 60, the screw 57 is started, and after the printing block 31 performs one-time printing on the metal plate, the metal plate is screwed backwards to push the, the groove circle 58 moves up under the pushing force to enter the next station groove 53, and when the groove circle 58 is located at the last station groove 53, the metal plate is pushed to the right, thereby completing all printing stations.

The following will describe in detail the steps of using a metal plate rapid and accurate printing apparatus according to the present invention with reference to fig. 1 to 8: in the initial state, the slot circle 58 is located at the station slot 53 closest to the printing top plate 30, the printing box 34 is located at the left limit state, the driving incomplete gear 39 is disengaged from the upper guide rail rack 13 and is not engaged with the lower guide rail rack 13, the driven incomplete gear 12 is engaged with the moving rack 11 at the right side, all the reagents are located in the reagent cavity 62, and the grooves of the template 23 do not enter the reagents.

When in use, the vertex of one side of the metal plate is placed in the clamping cavity 60, the screw 57 is screwed, the motor is started, so as to drive the output shaft 16 and the driving bevel gear 17 to rotate anticlockwise, the driving bevel gear 15 is driven to rotate by the driving bevel gear 17, the driving sheave 14 is driven to rotate by the connecting shaft 18, so as to drive the driving pulley 41 to rotate, so as to drive the driven pulley 43 to rotate by the belt 42, so as to drive the rotating shaft 40 to rotate anticlockwise, so as to drive the right moving rack 11 to move upwards, so as to drive the right end of the transmission rod 38 to move upwards, the left end of the transmission rod 38 is driven to move downwards by the support rod 35, so as to drive the left moving rack 11 to move downwards, so as to drive the printing block 31 to move downwards, the printing block 31 is pressed to contact with the work box 33, so as to push the printing top plate 30 to move downwards, so, so that the reagent in the return spring 32 flows through the template 23, when the rotating shaft 40 continues to rotate, the driving incomplete gear 39 is meshed with the lower side guide rail rack 13 for transmission, the printing box 34 is driven to move to the right, the driven incomplete gear 12 is driven to be disengaged from the moving rack 11, the printing block 31 moves upwards under the action of the return spring 32, the printing top plate 30 is reset under the action of the adjusting spring 29, the scraping block 24 is driven to move to the left, the reagent which is not in the groove is hung, at the moment, the rotating shaft 40 moves leftwards relative to the rack groove 37, the printing box 34 is driven to move rightwards due to the fixation of the rotating shaft 40, when the printing box 34 moves to the right limit position, the driving incomplete gear 39 is disengaged from the lower side guide rail rack 13 and is not meshed with the upper side guide rail rack 13, the driven incomplete gear 12 is meshed with the left moving rack 11, so as to drive, thereby moving the printing block 31 downwards, so that the reagent in the grooves of the template 23 is copied to the printing block 31, when the rotating shaft 40 continues to rotate, the moving rack 11 is disengaged from the driven incomplete gear 12, and the moving rack 11 moves up under the action of the return spring 32, at this time, when the driven sheave 20 rotates through a certain angle under the drive of the driving sheave 14, the chain 22 is rotated by the driving sprocket 44, the previous stencil 23 is then moved away from the reagent reservoir 25, the next stencil 23 is moved into the reagent reservoir 25, and when the print carriage 34 is moved to the left limit position again, the metal sheet is printed at the first station, pushed backwards, the grooved circles 58 move upwards under the action of the pushing force, and thus the next station slot 53, and when the slot circle 58 is in the last station slot 53, the metal plate is pushed to the right and pulled forward, thereby completing all stations of printing.

In the above manner, a person skilled in the art can make various changes depending on the operation mode within the scope of the present invention.

Claims

1. A metal sheet quick and accurate printing device is characterized in that: comprises a printing box, the lower end of the printing box is connected with a working box in a sliding way, a control cavity is arranged in the printing box, a rack groove is formed in the rear wall of the control cavity, a sliding connection rotating shaft is arranged in the rack groove, a driven incomplete gear is fixedly arranged at the front end of the rotating shaft, a driving incomplete gear is fixedly arranged at the position, close to the rear wall of the control cavity, of the rotating shaft, a guide rail rack is fixedly arranged on the upper wall and the lower wall of the control cavity, the driving incomplete gear is meshed and connected with the guide rail racks on two sides, the driving incomplete gear is taken as a symmetry center, a moving rack is arranged in the control cavity in a sliding way in a bilateral symmetry way, the lower end of the moving rack on the left side is connected with the printing box in a sliding way, the upper end of the moving rack on the, a reset spring is fixedly arranged between the printing block and the printing box, a support rod is fixedly arranged in the middle of the control cavity, the upper end of the support rod is hinged with a transmission rod, the left end and the right end of the transmission rod are in splined connection with two movable racks, when the driving incomplete gear drives the printing box to move to left and right limit positions, the driven incomplete gear is meshed with the movable racks on the left side and the right side, the upper end of the working box is provided with a connecting groove, the rear upper end surface of the working box is provided with a fixed block, a rotating shaft is fixed on the working box through the fixed block, a transmission cavity and a working cavity with a right opening are arranged in the working box, and the transmission cavity is positioned on the right side of the; the utility model discloses a reagent box, including working chamber, printing bottom plate, adjusting spring, reagent box downside, the working chamber bottom left end face is equipped with the printing bottom plate, printing bottom plate up end fixed connection adjusting spring, adjusting spring keeps away from the one end fixed connection printing roof of printing bottom plate, the fixed reagent box that is equipped with the ascending opening of intermediate position of working chamber bottom, the articulated hinge bar of connecting of printing roof right-hand member, the articulated connection of right-hand member of hinge bar scrapes the pole, the right-hand member of scraping the pole passes reagent box fixed connection scrapes the piece, scrape the piece with form the ascending reagent chamber of opening between the reagent box, the reagent box downside is equipped with the ascending template chamber of opening, the template intracavity is equipped with.

2. A device for the rapid and accurate printing of metal sheets as in claim 1, wherein: the transmission mechanism is characterized in that a transmission shaft is rotatably connected to the left wall of the transmission cavity, a driven sheave is fixedly arranged at the right end of the transmission shaft and is meshed with a driving sheave, the center of the driving sheave is fixedly connected with a connecting shaft, the right end of the connecting shaft is fixedly connected with a driven bevel gear, the driven bevel gear is meshed with a driving bevel gear, the center of the driving bevel gear is fixedly connected with an output shaft, the front end of the output shaft is in power connection with a motor, the rear end of the output shaft is fixedly connected with a driving belt wheel, the rear end of the rotating shaft is fixedly connected with a driven belt wheel.

3. A device for the rapid and accurate printing of metal sheets as in claim 1, wherein: the utility model discloses a template, including transmission shaft, drive shaft, template chamber, drive shaft, driven sprocket, drive sprocket, template chamber right side wall, the fixed optical axis that is equipped with in one side of transmission shaft, the optical axis rotates and connects driven sprocket, driven sprocket with fixed being equipped with chain, 12 between the drive sprocket the even equidistance of template distribute in on the chain.

4. A device for the rapid and accurate printing of metal sheets as in claim 1, wherein: the rear side of the bottom of workstation is equipped with 12 array evenly distributed's station grooves, station groove right side is equipped with the shifting chute, the shifting chute slides and is equipped with the movable block, the movable block horizontal slip is equipped with the removal axle, removal axle downside fixed connection coupling spring, coupling spring keeps away from one side fixed connection groove circle of removal axle, the groove circle is placed the station groove, the removal axle is opened there is the centre gripping chamber, centre gripping intracavity threaded connection has the screw rod.