CN111391495A - Integrated form bat printing, storage device - Google Patents

Abstract

The invention discloses integrated pad printing and storage equipment, relates to pad printing equipment, and particularly relates to equipment capable of performing large-scale pad printing on a workpiece and storing pad printing finished products. An integrated pad printing and storing device is provided with a frame type base, wherein a grabbing robot is fixedly arranged in the middle of the upper surface of the base, and a feeding area, a pad printing area, a carrying area, a curing area and a transplanting area are sequentially arranged on the base by taking the grabbing robot as a central point; the material loading district is used for concentrating the work piece of treating the bat printing in batches and puts things in good order, the bat printing district is used for carrying out the bat printing with the work piece, the transport district is used for collecting the good work piece of bat printing, and after reaching predetermined collection quantity, concentrate the input solidification and distinguish in the solidification, the solidification is distinguished and is used for carrying out the surface solidification to the good work piece of bat printing, the transplanting district is used for moving the good work piece of solidification from the solidification district, it is connected with the controller electricity to snatch the robot, can control the state of snatching the robot through the controller.

Description

Integrated form bat printing, storage device

Technical Field

The invention discloses integrated pad printing and storage equipment, relates to pad printing equipment, and particularly relates to equipment capable of performing large-scale pad printing on a workpiece and storing pad printing finished products.

Background

In various industries, a large number of products need to be pad printed, most of the existing pad printing methods adopt a pad printing machine to perform manual pad printing, and after the pad printing is finished, the pad printed workpieces are taken away by workers, so that the efficiency is low, a large amount of manpower and material resources are occupied, and the requirements of mass production in the society are not met.

Disclosure of Invention

In view of the above, the present invention provides an integrated pad printing and storing device, which can automatically pad print a workpiece on a large scale and store the pad printed workpiece in a predetermined space, and has a good use effect.

An integrated pad printing and storing device is provided with a frame type base, wherein a grabbing robot is fixedly arranged in the middle of the upper surface of the base, and a feeding area, a pad printing area, a carrying area, a curing area and a transplanting area are sequentially arranged on the base by taking the grabbing robot as a central point; the device comprises a loading area, a transfer printing area, a curing area, a transplanting area, a grabbing robot and a controller, wherein the loading area is used for intensively stacking workpieces to be subjected to transfer printing in batches, the transfer printing area is used for carrying out transfer printing on the workpieces, the transfer printing area is used for collecting the transferred workpieces and intensively inputting the workpieces into the curing area for curing after a preset collection number is reached, the curing area is used for carrying out surface curing on the transferred workpieces to prevent the transferred characters or patterns from falling off, the transplanting area is used for moving the cured workpieces from the curing area, the grabbing robot is electrically connected with the controller, the grabbing state of the grabbing robot can be controlled through the controller, devices on the loading area, the transfer printing area, the transferring area, the curing area and the transplanting area are respectively electrically connected with the controller, and the controller can control the working state of devices in the corresponding areas; the grabbing robot is also matched with a corresponding tray, corresponding workpieces are placed in the tray, and the grabbing robot can grab the corresponding workpieces as required.

The controller is an industrial computer, a P L C programmable controller or a singlechip.

The grabbing robot is provided with two grabbing heads with different specifications, the smaller grabbing head is used for grabbing a single workpiece to be pad-printed, and the larger grabbing head is used for grabbing a tray for holding the cured workpiece; the grabbing robot is a commercial product, such as an ABB robot, a Rankine robot or a Siemens robot.

The tray is rectangular, a plurality of cavities with the same specification are arranged in the tray, and workpieces can be correspondingly placed in each cavity.

The feeding area is provided with a first conveying belt, and trays to be pad-printed are stacked on the first conveying belt;

furthermore, a first servo motor is further installed on the first conveying belt and is in signal connection with the controller, the first conveying belt can be driven to move through the controller, the tray on the first conveying belt is conveyed to a preset position, and the grabbing robot can grab workpieces conveniently.

The pad printing area is fixedly provided with a rotating disc type pad printing machine, the rear end of the rotating disc type pad printing machine is also provided with a pickup device, the pickup device can be provided with a workpiece collecting bin, and a plurality of workpieces which are subjected to pad printing can be temporarily stored in the workpiece collecting bin; the rotary disc type pad printing machine and the pickup device are all commercially available products; furthermore, the rotary disc type pad printing machine and the pickup device are all related products of Jiangsumai Intelligent science and technology company Limited, a model of Yao precision equipment company Limited in Dongguan city or Guangdong constant glory color printing machine equipment factory company Limited.

The first workpiece transplanting machine is fixedly installed on the carrying area, and can grab a plurality of workpieces temporarily stored on the workpiece collecting bin at one time and carry the workpieces to the curing area. The first workpiece transplanting machine is a product sold in the market, and the further first workpiece transplanting machine is a product related to Jiangsu Meisiqi Intelligent science and technology company Limited, a beautiful precision equipment company Limited in Dongguan city or Guangdong Henghui color printing machine equipment factory Limited.

A UV curing furnace is arranged on the curing area, the UV curing furnace is provided with a conveyor belt, the middle part of the conveyor belt is provided with a housing, and a UV curing lamp is arranged in the housing; the conveying belt is in power connection with a servo motor II; the UV curing lamp and the servo motor II are respectively in signal connection with the controller.

And in the transplanting area on the base, a second workpiece transplanting machine is fixedly arranged on the side surface of the tail end of the conveyor belt in the UV curing furnace, and the second workpiece transplanting machine can grab the cured workpieces in rows and place the workpieces in corresponding empty trays on the transplanting area.

The model of the second workpiece transplanter is the same as that of the first workpiece transplanter.

And a second conveying belt is further installed on the other side of the second workpiece transplanter, an empty tray is placed on the second conveying belt and used for receiving the workpieces conveyed by the second workpiece transplanter and moving forwards after the tray is full, so that the grabbing robot can grab the whole tray conveniently, a second servo motor is connected to the second conveying belt in a power connection mode, and the second servo motor is electrically connected with the controller.

Furthermore, a rectangular opening is formed in the area, located between the transplanting area and the feeding area, above the base, the size of the opening is larger than that of the tray, the tray filled with the solidified workpieces on the transplanting area is grabbed through a grabbing robot, and the tray penetrates through the opening and is placed in the space in the base; the side surface of the base is provided with a cabinet door which can be opened, and the interior of the base can be used as a warehouse for storing the trays; when the workpiece in the base needs to be taken out, the cabinet door is opened, and the tray for containing the workpiece can be taken out from the lower side.

Furthermore, a third conveying belt is further installed below the opening in the base and can penetrate through to the other end of the base; the third conveying belt is connected with a third servo motor in a power mode, and the third servo motor is electrically connected with the controller.

The invention discloses an integrated pad printing and storage device, and relates to a use method of a pad printing device, which comprises the following steps:

(1) stacking trays on the feeding area, and placing workpieces to be pad-printed in the trays;

(2) switching on a power supply, switching on the controller, sequentially grabbing the workpieces from the tray on the feeding area by the grabbing robot, and sequentially placing the workpieces on the rotary table type pad printing machine;

(3) after the workpiece is transferred and printed by the rotary disc type pad printing machine, the workpiece is taken away by the workpiece taking device and temporarily stored in a preset workpiece collecting bin;

(4) after the workpieces in the workpiece collecting bin reach a preset number, a first workpiece transplanter grabs all the workpieces in the workpiece collecting bin and places the workpieces at the front end of a conveying belt on a UV curing furnace;

(5) the conveying belt on the UV curing furnace conveys the workpiece to be cured into the housing and receives the curing of the UV curing lamp;

(6) outputting the workpiece from the housing after the workpiece is cured;

(7) a second workpiece transplanter picks rows of solidified workpieces at the same time and stacks the workpieces in a vacant tray in a transplanting area;

(8) after the tray is filled with the workpieces, the grabbing robot grabs the tray and places the tray on a third conveying belt below the opening;

(9) after the third conveying belt is stacked to the preset number of layers, the third servo motor is started to move the tray to the front, the position of the third conveying belt below the opening is vacated, and the tray containing the workpieces is conveniently and continuously stacked.

When the finished workpiece needs to be taken out, the cabinet door on the side face of the base is opened, and the tray is taken out.

The invention has the advantages of ingenious conception, convenient use, high transfer printing efficiency, small occupied area and less manpower, realizes the integration of transfer printing and storage while transfer printing, and has good use and popularization effects.

Drawings

The invention will be further explained with reference to the drawings

Fig. 1 is a schematic perspective view of an integrated pad printing and storage device according to a first embodiment of the present invention.

Fig. 2 is a schematic perspective view of an integrated pad printing and storage device according to a second embodiment of the present invention.

Fig. 3 is a schematic diagram of a third conveyor belt in the integrated pad printing and storage device.

Detailed Description

Referring to the attached drawings 1-3, an integrated pad printing and storing device is provided with a frame type base 2, a grabbing robot 1 is fixedly installed in the middle of the upper surface of the base 2, and a feeding area, a pad printing area, a carrying area, a curing area and a transplanting area are sequentially arranged on the base 2 by taking the grabbing robot 1 as a central point; the transfer printing device comprises a loading area, a carrying area, a curing area, a transplanting area, a grabbing robot and a controller, wherein the loading area is used for intensively stacking workpieces 4 to be transfer printed in batches, the transfer printing area is used for transfer printing the workpieces 4, the carrying area is used for collecting the transfer printed workpieces, the workpieces are intensively input into the curing area for curing after reaching a preset collection number, the curing area is used for carrying out surface curing on the transfer printed workpieces, the transfer printed characters or patterns are prevented from falling off, the transplanting area is used for carrying the cured workpieces from the curing area, the grabbing robot is electrically connected with the controller, the grabbing state of the grabbing robot can be controlled through the controller, devices on the loading area, the transfer printing area, the carrying area, the curing area and the transplanting area are respectively electrically connected with the controller, and the working state of the devices in the corresponding areas can be controlled through the controller; the grabbing robot 1 is also matched with a corresponding tray 3, corresponding workpieces are placed in the tray 3, and the grabbing robot 1 can grab the corresponding workpieces 4 as required.

The controller is an industrial computer, a P L C programmable controller or a singlechip.

The grabbing robot 1 is simultaneously provided with two grabbing heads with different specifications, the smaller grabbing head is used for grabbing a single workpiece 4 to be pad printed, and the larger grabbing head is used for grabbing a tray 3 which holds the cured workpiece 4; the grabbing robot is a commercial product, such as an ABB robot, a Rankine robot or a Siemens robot.

The tray 3 is rectangular, a plurality of cavities 3-1 with the same specification are arranged in the tray 3, and a workpiece 4 can be correspondingly placed in each cavity 3-1.

The feeding area is provided with a first conveying belt 5, and trays 3 full of which are to be pad-printed are stacked on the first conveying belt 5;

furthermore, a first servo motor is further installed on the first conveying belt 5 and is in signal connection with the controller, the first conveying belt 5 can be driven to move through the controller, the tray 3 on the first conveying belt 5 is conveyed to a preset position, and the grabbing robot 1 can grab the workpiece 4 conveniently.

The pad printing area is fixedly provided with a rotating disc type pad printing machine 6, the rear end of the rotating disc type pad printing machine 6 is also provided with a pickup device 7, the pickup device 7 can be provided with a workpiece collecting bin, and a plurality of workpieces 4 which are subjected to pad printing can be temporarily stored in the workpiece collecting bin; the rotary disc type pad printing machine 6 and the pickup device 7 are both commercially available products; further, the rotary disc type pad printing machine 6 and the pickup device 7 are all related products of Jiangsumai Intelligent science and technology Co., Ltd, a model of Yao precision equipment Co., Ltd, in Dongguan city or Guangdong Heng color printing machine equipment factory Co., Ltd.

And a first workpiece transplanting machine 8 is fixedly arranged on the carrying area, and the first workpiece transplanting machine 8 can grab a plurality of workpieces 4 temporarily stored in the workpiece collecting bin at one time and carry the workpieces to the curing area. The first workpiece transplanting machine 8 is a product sold in the market, and the further first workpiece transplanting machine 8 is a product related to Jiangsu Meisiqi Intelligent science and technology Co., Ltd, a beautiful precision equipment Co., Ltd in Dongguan city or Guangdong Henhui color printing machine equipment factory Co., Ltd.

A UV curing furnace 9 is arranged on the curing area, the UV curing furnace 9 is provided with a conveyor belt 9-1, a housing 9-2 is arranged in the middle of the conveyor belt 9-1, and a UV curing lamp is arranged in the housing 9-2; the conveying belt 9-1 is connected with a servo motor II in a power mode; the UV curing lamp and the servo motor II are respectively in signal connection with the controller.

In the transplanting area on the base 2, a second workpiece transplanting machine 10 is fixedly installed on the side face of the tail end of the conveyor belt in the UV curing furnace 9, the second workpiece transplanting machine 10 can grab the cured workpieces 4 in rows, and the workpieces 4 are placed in corresponding empty trays 3 on the transplanting area.

The second workpiece transplanter 10 has the same model as the first workpiece transplanter 8.

The other side of the second workpiece transplanter 10 is further provided with a second conveying belt 11, an empty tray 3 is placed on the second conveying belt 11 and used for receiving the workpieces 4 conveyed by the second workpiece transplanter 10, the second conveying belt moves forwards after the tray 3 is filled with the workpieces, the grabbing robot 1 can grab the whole tray 3 conveniently, the second conveying belt 11 is connected with a second servo motor in a power mode, and the second servo motor is electrically connected with the controller.

Furthermore, a rectangular opening 2-1 is formed in the area, located between the transplanting area and the feeding area, above the base 2, the size of the opening 2-1 is larger than that of the tray 3, the tray 3 which is filled with the solidified workpieces 4 on the transplanting area is grabbed through the grabbing robot 1, and the tray passes through the opening 2-1 and is placed in the space in the base 2; a cabinet door capable of being opened is arranged on the side surface of the base 2, and the interior of the base 2 can be used as a warehouse for storing the tray 3; when the workpiece 4 in the base 2 needs to be taken out, the tray 3 for accommodating the workpiece 4 can be taken out from the side lower part by opening the cabinet door.

Further, a third conveying belt 12 is further installed below the opening 2-1 in the base 2, and the third conveying belt 12 can penetrate through the other end of the base 2; the third conveying belt 12 is connected with a third servo motor 13 in a power mode, and the third servo motor 13 is electrically connected with the controller.

The invention discloses an integrated pad printing and storage device, and relates to a use method of a pad printing device, which comprises the following steps:

(1) stacking a tray 3 on the feeding area, and placing a workpiece 4 to be pad-printed in the tray 3;

(2) switching on a power supply, switching on the power supply of the controller, sequentially grabbing the workpieces 4 from the tray 3 on the feeding area by the grabbing robot 1, and sequentially placing the workpieces 4 on the rotary table type pad printing machine 6;

(3) after the workpiece 4 is transferred by the turntable type pad printing machine 6, the workpiece taking device 7 takes the workpiece away and temporarily stores the workpiece in a preset workpiece collecting bin;

(4) after the workpieces 4 in the workpiece collecting bin reach a preset number, a first workpiece transplanter 8 grabs all the workpieces 4 in the workpiece collecting bin and places the workpieces at the front end of a conveying belt 9-1 on a UV curing furnace 9;

(5) a conveying belt 9-1 on the UV curing furnace 9 conveys the workpiece 4 to be cured into a housing 9-2 and receives the curing of a UV curing lamp;

(6) after the workpiece 4 is solidified, outputting the workpiece from the housing 9-2;

(7) a second workpiece transplanter 10 simultaneously grabs the rows of solidified workpieces 4 and stacks the workpieces into the empty trays 3 in the transplanting area;

(8) after the tray 3 is filled with the workpieces 4, the grabbing robot 1 grabs the tray 3 and places the tray on a third conveying belt 12 below the opening 2-1;

(9) after the third conveying belt 12 is stacked to the preset number of layers, the third servo motor 13 is started, the tray 3 is moved to the front, the position of the third conveying belt 13 below the opening 2-1 is vacated, and the tray 3 containing the workpieces 4 is conveniently and continuously stacked.

When the finished workpiece 4 needs to be taken out, the cabinet door 2-2 on the side surface of the base 2 is opened, and the tray 3 is taken out.

Claims (10)

1. An integrated pad printing, storage device, comprising: the device comprises a frame type base, wherein a grabbing robot is fixedly arranged in the middle of the upper surface of the base, and a feeding area, a pad printing area, a carrying area, a curing area and a transplanting area are sequentially arranged on the base by taking the grabbing robot as a central point; the device comprises a loading area, a transfer printing area, a curing area, a transplanting area, a grabbing robot and a controller, wherein the loading area is used for intensively stacking workpieces to be subjected to transfer printing in batches, the transfer printing area is used for carrying out transfer printing on the workpieces, the transfer printing area is used for collecting the transferred workpieces and intensively inputting the workpieces into the curing area for curing after a preset collection number is reached, the curing area is used for carrying out surface curing on the transferred workpieces to prevent the transferred characters or patterns from falling off, the transplanting area is used for moving the cured workpieces from the curing area, the grabbing robot is electrically connected with the controller, the grabbing state of the grabbing robot can be controlled through the controller, devices on the loading area, the transfer printing area, the transferring area, the curing area and the transplanting area are respectively electrically connected with the controller, and the controller can control the working state of devices in the corresponding areas; the grabbing robot is also matched with a corresponding tray, corresponding workpieces are placed in the tray, and the grabbing robot can grab the corresponding workpieces as required;

the controller is an industrial computer, a P L C programmable controller or a singlechip.

2. An integrated pad printing, storage device according to claim 1, wherein: the grabbing robot is provided with two grabbing heads with different specifications, the smaller grabbing head is used for grabbing a single workpiece to be subjected to pad printing, and the larger grabbing head is used for grabbing a tray for holding the cured workpiece.

3. An integrated pad printing, storage device according to claim 1, wherein: the tray is rectangular, a plurality of cavities with the same specification are arranged in the tray, and workpieces can be correspondingly placed in each cavity.

4. An integrated pad printing, storage device according to claim 1, wherein: the feeding area is provided with a first conveying belt, and trays to be pad-printed are stacked on the first conveying belt;

and a first servo motor is also arranged on the first conveying belt and is in signal connection with the controller.

5. An integrated pad printing, storage device according to claim 1, wherein: the pad printing district on fixed mounting have a carousel formula pad printing machine, still install at the rear end of carousel formula pad printing machine and get a device, get and to be provided with an album storehouse on the device, can keep in a plurality of work pieces of accomplishing the pad printing on an album storehouse.

6. An integrated pad printing, storage device according to claim 1, wherein: the first workpiece transplanting machine is fixedly installed on the carrying area, and can grab a plurality of workpieces temporarily stored on the workpiece collecting bin at one time and carry the workpieces to the curing area.

7. An integrated pad printing, storage device according to claim 1, wherein: a UV curing furnace is arranged on the curing area, the UV curing furnace is provided with a conveyor belt, the middle part of the conveyor belt is provided with a housing, and a UV curing lamp is arranged in the housing; the conveying belt is in power connection with a servo motor II; the UV curing lamp and the servo motor II are respectively in signal connection with the controller.

8. An integrated pad printing, storage device according to claim 1, wherein: a second workpiece transplanter is fixedly arranged on the side face of the tail end of the conveyor belt in the UV curing furnace in the transplanting area on the base, and can grab the cured workpieces in rows and place the workpieces in corresponding empty trays on the transplanting area;

and a second conveying belt is further installed on the other side of the second workpiece transplanter, an empty tray is placed on the second conveying belt, a second servo motor is connected to the second conveying belt in a power mode, and the second servo motor is electrically connected with the controller.

9. An integrated pad printing, storage device according to claim 1, wherein: a rectangular opening is formed in the area, located between the transplanting area and the feeding area, above the base, the size of the opening is larger than that of the tray, the tray filled with the solidified workpieces on the transplanting area is grabbed through the grabbing robot, and the tray penetrates through the opening and is placed in the space in the base; a cabinet door capable of being opened is arranged on the side surface of the base;

a third conveying belt is further installed below the opening in the base and can penetrate through to the other end of the base; the third conveying belt is connected with a third servo motor in a power mode, and the third servo motor is electrically connected with the controller.

10. An integrated pad printing and storing device relates to a use method of the pad printing device, which is characterized in that:

(1) stacking trays on the feeding area, and placing workpieces to be pad-printed in the trays;

(2) switching on a power supply, switching on the controller, sequentially grabbing the workpieces from the tray on the feeding area by the grabbing robot, and sequentially placing the workpieces on the rotary table type pad printing machine;

(3) after the workpiece is transferred and printed by the rotary disc type pad printing machine, the workpiece is taken away by the workpiece taking device and temporarily stored in a preset workpiece collecting bin;

(4) after the workpieces in the workpiece collecting bin reach a preset number, a first workpiece transplanter grabs all the workpieces in the workpiece collecting bin and places the workpieces at the front end of a conveying belt on a UV curing furnace;

(5) the conveying belt on the UV curing furnace conveys the workpiece to be cured into the housing and receives the curing of the UV curing lamp;

(6) outputting the workpiece from the housing after the workpiece is cured;

(7) a second workpiece transplanter picks rows of solidified workpieces at the same time and stacks the workpieces in a vacant tray in a transplanting area;

(8) after the tray is filled with the workpieces, the grabbing robot grabs the tray and places the tray on a third conveying belt below the opening;

(9) after the third conveying belt is stacked to the preset number of layers, the third servo motor is started to move the tray to the front, the position of the third conveying belt below the opening is vacated, and the tray containing the workpieces is conveniently and continuously stacked.

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