CN111170038A - Multi-station automatic screen printer - Google Patents

Abstract

The invention relates to a multi-station automatic screen printer, which comprises a two-station automatic feeding device, a positioning device, a multi-station screen printer body, a transfer mechanism and a discharging device, wherein the two-station automatic feeding device is arranged on the multi-station automatic screen printer body; the two-station automatic feeding device comprises a first lifting and discharging device, a second lifting and discharging device and a first sucking disc assembly, wherein the first lifting and discharging device comprises a first lifting tray, and the second lifting and discharging device comprises a second lifting tray; the first lifting and discharging device and the second lifting and discharging device act alternately; the blanking device comprises a third sucker component used for transferring the printed product to a blanking station. The multi-station automatic screen printing machine can automatically take, discharge and print, reduces the labor intensity of workers and improves the printing efficiency.

Description

Multi-station automatic screen printer

Technical Field

The invention relates to the field of screen printing equipment, in particular to a multi-station automatic screen printing machine.

Background

The screen printing machine is applied more and more, the printing process is the same, and the basic principle that the meshes of the image-text part of the screen printing plate can be penetrated by ink and the meshes of the non-image-text part can not be penetrated by ink is utilized to print. When printing, ink is poured into one end of the screen printing plate, a scraper plate is used for applying a certain pressure to the ink position on the screen printing plate, meanwhile, the scraper plate moves towards the other end of the screen printing plate at a constant speed, and the ink is extruded onto a printing stock from meshes of the image-text part by the scraper plate in the moving process.

The printing principle is mature, for example, the utility model patent of the publication number CN203157316U discloses a small-sized semi-automatic high-precision screen printer. For example, the utility model with the publication number CN205022155U discloses a moving head mechanism of a screen printer, the head can be adjusted horizontally and in the height direction, and drives the printing blade and the ink returning blade to move. Only one product can be taken and placed manually, and the printing machine has waiting time when the product is taken and placed manually, so that the efficiency is low.

The invention patent of application publication No. CN110014723A (the same applicant as the present application) discloses an automatic feeding and discharging sheet screen printing machine, in which a sucker mechanism is adopted to intermittently convey sheets at a feeding device to a printing platform one by one, instead of manual work, so as to improve efficiency to a certain extent, but a certain waiting time is still needed in the process of replenishing materials again after a dozen of products at the feeding device are conveyed.

Disclosure of Invention

The invention aims to provide a multi-station automatic screen printing machine, which aims to solve the problem of low overall printing efficiency caused by long waiting time of the screen printing machine in the prior art in the printing process.

In order to achieve the purpose, the invention adopts the following technical scheme:

a multi-station automatic screen printing machine comprises a two-station automatic feeding device, a positioning device, a multi-station screen printing machine body, a transfer mechanism and a discharging device;

the two-station automatic feeding device comprises a first lifting discharging device, a second lifting discharging device and a first sucking disc assembly, wherein the first lifting discharging device comprises a first lifting tray and is used for placing a pile of products to be printed, and the second lifting discharging device comprises a second lifting tray and is used for placing another pile of products to be printed; the first lifting and discharging device and the second lifting and discharging device alternately act to enable one of the first lifting tray and the second lifting tray to be located at the feeding station;

the first sucking disc assembly comprises a first sucking disc seat and a first sucking disc assembly arranged on the first sucking disc seat, and the first sucking disc assembly is used for grabbing a product to be printed at a feeding station and transferring the product to a positioning device;

the positioning device comprises a positioning tray, and a positioning assembly for positioning the product to be printed is arranged on the positioning tray;

the transfer mechanism comprises a second sucker seat and a second sucker component arranged on the second sucker seat, and the second sucker component is used for transferring the positioned product to be printed to a printing station in the multi-station screen printing machine body;

the multi-station screen printing machine body comprises a screen printing rack, a multi-station turntable is arranged on the screen printing rack, and a plurality of adjusting platforms are arranged on the multi-station turntable;

the blanking device comprises a third sucker component used for transferring the printed product to a blanking station.

Furthermore, the first lifting and discharging device and the second lifting and discharging device share one moving base, and the moving base is assembled on the guide rail in a guiding and moving mode.

Furthermore, the first lifting and discharging device and the second lifting and discharging device are identical in structure, the first lifting and discharging device comprises a servo motor, a screw nut mechanism, a guide rod and an ejector rod, the screw nut mechanism comprises a screw and a nut, the screw is driven by the servo motor, the nut is fixedly provided with a bottom plate, the bottom plate is assembled on the guide rod in a vertical direction in a guiding mode, the lower end of the ejector rod is fixed on the bottom plate, and the upper end of the ejector rod is connected with the first lifting tray.

Further, be equipped with four slot holes that the cross was arranged on the first lift tray, be fixed with one through the bolt in each slot hole and keep off the material pole, keep off the material pole and upwards extend along first lift tray, four keep off the material pole and treat printing product spacing all around.

Furthermore, first sucking disc seat and second sucking disc seat are all installed on first slip table, are equipped with on the first slip table with first sucking disc seat and the direction of second sucking disc seat remove the complex slide rail.

Furthermore, the positioning tray is provided with adjusting long holes distributed in a cross shape, the positioning assembly comprises two fixed positioning blocks and two movable positioning blocks, the two fixed positioning blocks are arranged in the two adjusting long holes, the two movable positioning blocks are arranged in the other two adjusting long holes, and the movable positioning blocks are driven by the positioning air cylinders to move along the length direction of the corresponding adjusting long holes.

Further, adjust the slot hole and divide into first regulation slot hole, second regulation slot hole, first regulation slot hole, second regulation slot hole respectively have two, and two first regulation slot holes are adjacent to be arranged, and first regulation slot hole cooperates with the fixed positioning piece, and first regulation slot hole includes two elongated holes, and the fixed positioning piece has the fixed position portion of protrusion location tray upper flank and blocks the card foot in two elongated holes downwards, and card foot tip has the clamp plate through the bolt fastening, and the clamp plate is located the downside of location tray.

Furthermore, the movable positioning block is provided with a movable positioning part protruding out of the upper side face of the positioning tray and a driving part inserted into the second adjusting long hole, and the driving part is connected with the positioning cylinder.

Furthermore, the multi-station turntable is a four-station turntable, and a positioning slot used for being installed in a matched mode with a matched jig is formed in the adjusting platform.

Furthermore, the multi-station automatic screen printing machine further comprises a feeding belt conveyor, and the third sucker component transfers the printed product to the feeding belt conveyor.

The invention has the beneficial effects that:

the multi-station automatic screen printing machine can realize the automation of feeding, positioning and discharging, and the feeding device comprises the first lifting discharging device and the second lifting discharging device, can switch positions and is alternately positioned at a feeding station, so that the waiting time of equipment during manual product discharging can be reduced. After the automatic positioning of the positioning device, the subsequent printing precision can be improved. And the efficiency can be further improved by adopting a matched multi-station screen printing machine body. Still be equipped with unloader and with unloader complex pay-off belt feeder, realize automatic unloading, if with the oven cooperation back, can directly carry the product after the printing to the oven, do not need the link of artifical transportation product, reduce intensity of labour and human cost, raise the efficiency, do benefit to and realize automaticly.

Drawings

FIG. 1 is a schematic structural diagram of a multi-station automatic screen printing machine according to the present invention;

FIG. 2 is a schematic view of a portion of the mechanism of FIG. 1;

FIG. 3 is a schematic view of the mechanism of FIG. 2 (with the outer frame plate removed);

FIG. 4 is a schematic structural diagram of the first lifting and discharging device in FIG. 3;

FIG. 5 is a schematic view of the positioning device of FIG. 2;

FIG. 6 is a schematic view of another angle of the positioning device of FIG. 5;

FIG. 7 is a schematic view of the multi-station screen printing machine body in FIG. 1;

fig. 8 is a schematic structural view of the blanking device in fig. 1.

Names corresponding to the marks in the figure:

1. a first lifting and discharging device 10, a movable base 11, a first lifting tray 12, a material blocking rod 13, a top rod 14, a screw rod 15, a guide rod 16, a bottom plate 17, a guide rail 18, a first air cylinder 19, a servo motor 2, a second lifting and discharging device 21, a second lifting tray 3, a first sucker component 31, a first sucker seat 32, a first sucker group 4, a first sliding table 5, a positioning device 51, a positioning tray 52, a first adjusting long hole 53, a fixed positioning block, a pressing plate 54, a second adjusting long hole 55, a movable positioning block 551, a driving part 56, a positioning air cylinder 6, a transfer mechanism 61, a second sucker seat 7, a multi-station screen printing machine body 71, a lifting cross beam 72, a printing machine head 73, a four-station turntable 531, a positioning slot 731, a positioning slot 8, a blanking device 81 and a second sliding table, 82. third sucking disc subassembly, 83, third sucking disc seat, 9, pay-off belt feeder.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

The embodiment of the invention comprises the following steps:

as shown in fig. 1, the multi-station automatic screen printing machine comprises a two-station automatic feeding device, a positioning device 5, a multi-station screen printing machine body 7, a transfer mechanism 6 and a discharging device 8.

As shown in fig. 1 to 4, the two-station automatic feeding device includes a first lifting/lowering device 1, a second lifting/lowering device 2, and a first sucking disc assembly 3, wherein the first lifting/lowering device 1 includes a first lifting/lowering tray 11 for placing a stack of products to be printed.

The second lifting and discharging device 2 comprises a second lifting tray 21 for placing another pile of products to be printed.

As shown in FIG. 3, the first lifting and discharging device 1 and the second lifting and discharging device 2 share one movable base 10, and the movable base 10 is guided to move and assembled on the guide rail 17. The movable base 10 is driven by a first air cylinder 18 and can move in a reciprocating mode in the left-right direction so as to switch the positions of the first lifting discharging device 1 and the second lifting discharging device 2, the two devices are alternately located at a feeding station, and the other device is in a waiting state.

As shown in fig. 3 and 4, the first lifting and discharging device 1 and the second lifting and discharging device 2 have the same structure, and taking one of the devices as an example, the first lifting and discharging device 1 comprises a servo motor 19, a screw-nut mechanism, a guide rod 15 and a push rod 13, the screw-nut mechanism comprises a screw 14 and a nut, the screw 14 is driven by the servo motor 19, and the nut is fixed with a bottom plate 16. The screw 14 is provided in a central region of a base plate 16, and the base plate 16 is guide-fitted to the guide bar 15 in the up-down direction. The lower end of the guide rod 15 penetrates through the bottom plate and then is fixed on a support plate, and the support plate is fixed on the upper side of the movable base 10. Four guide rods 15 are arranged and distributed in a rectangular shape, and when the screw rod drives the bottom plate 16 to move up and down, the guide rods 15 play a role in guiding. The lower end of the ejector rod 13 is fixed on the bottom plate 16, and four ejector rods 13 are arranged and distributed at four corners of the bottom plate 16. The upper end of each ejector rod 13 is connected with the first lifting tray 11, when the servo motor 19 acts, the screw-nut mechanism drives the first lifting tray 11 to move up and down, and the first lifting tray 11 can intermittently rise, namely, after the top layer product to be printed is taken away, the first lifting tray 11 rises a little to enable the next product to be positioned.

Four long holes which are arranged in a cross shape are formed in the first lifting tray 11, a material blocking rod 12 is fixed in each long hole through a bolt, the material blocking rod 12 extends upwards along the first lifting tray 11, and the four material blocking rods 12 are used for limiting the periphery of a stack of products to be printed. The position of the material blocking rod 12 is adjustable, and the material blocking rod is suitable for products of different specifications.

As shown in fig. 2, the first chuck assembly 3 includes a first chuck base 31 and a first chuck set 32 disposed on the first chuck base 31, and the first chuck set 32 is used for grabbing a product to be printed at the feeding station and transferring the product to the positioning device 5. The first suction cup group 32 comprises four vacuum suction cups, and the suction principle of the vacuum suction cups belongs to the prior art and is not described in detail.

The first chuck base 31 is mounted on the first slide table 4 with the length direction of the first slide table 4 in the front-rear direction. The first sliding table 4 is provided with a sliding rail extending in the front-rear direction, and is in sliding fit with the first chuck base 31.

As shown in fig. 5 and 6, the positioning device 5 includes a positioning tray 51, and a positioning assembly for positioning the product to be printed is disposed on the positioning tray 51.

The positioning tray 51 is provided with adjusting long holes distributed in a cross shape, the positioning assembly comprises two fixed positioning blocks 53 and two movable positioning blocks 55, the two fixed positioning blocks 53 are arranged in the two adjusting long holes, the two movable positioning blocks 55 are arranged in the other two adjusting long holes, and the movable positioning blocks 55 are driven by a positioning cylinder 56 to move along the length direction of the corresponding adjusting long holes.

The regulation slot hole divide into first regulation slot hole 52, second regulation slot hole 54, first regulation slot hole 52, second regulation slot hole 54 respectively have two, two first regulation slot hole 52 are adjacent to be arranged, first regulation slot hole 52 and the cooperation of fixed positioning piece 53, first regulation slot hole 52 includes two elongated holes, fixed positioning piece 53 has the fixed position portion of protrusion location tray 51 upper flank and blocks the card foot in two elongated holes downwards, card foot tip has clamp plate 531 through the bolt fastening, clamp plate 531 is located the downside of location tray 51, through the screwing up of bolt, realize the fixed positioning piece position fixed.

The movable positioning block 55 is provided with a movable positioning part protruding out of the upper side surface of the positioning tray 51 and a driving part 551 inserted into the second adjusting long hole 54, the driving part 551 is connected with the positioning cylinder 56, the positioning cylinder 56 drives the movable positioning block 55 to push the adjacent two sides of the product placed on the positioning tray 51, and the fixed positioning block 53 is matched to realize accurate positioning.

As shown in fig. 2, the transfer mechanism 6 includes a second suction cup seat 61 and a second suction cup assembly disposed on the second suction cup seat 61, and the second suction cup assembly is used for transferring the positioned product to be printed to a printing station of the multi-station screen printer body 7. The second sucker component is the same as the first sucker component 3, and the principle is not repeated.

The second sucker seat 61 is also assembled on the first sliding table 4 in a guiding manner, and is provided with a sliding rail which is movably matched with the first sucker seat and the second sucker seat 61 in a guiding manner. The first sucker seat 31 and the second sucker seat 61 are driven by a synchronous belt, and the synchronous belt is driven by a servo motor. The first sucker seat and the second sucker seat act simultaneously to realize simultaneous picking and placing of products to be printed at two different positions.

As shown in fig. 7, the multi-station screen printing machine body 7 includes a screen printing frame, a multi-station rotary table is arranged on the screen printing frame, the multi-station rotary table is a four-station rotary table 73, and has four printing stations, one of which is used for loading, one of which is used for printing, and the other is used for unloading. The four-station carousel 73 is provided with four adjustment stages to correspond to a corresponding number of printing stations. In this embodiment, only the adjusting platform is shown, and the adjusting platform has a positioning slot 731 for fitting with a matching fixture. The jig supporting the product to be printed and after printing is not shown. The jig can be selected and installed according to different products.

The screen printing frame is provided with a lifting beam 71, the lifting beam 71 is provided with a printing machine head 72, the printing principle belongs to the prior art and is not repeated, and the screen printing machine mainly aims at the existing screen printing machine to design a matched mechanism so as to realize automation. The multi-station rotary table is used for improving efficiency and reducing waiting time, and belongs to the prior art, for example, a multi-station rotary table screen printing machine disclosed in application publication No. CN 109109442A.

As shown in fig. 8, the blanking device 8 includes a third suction cup seat 83 and a third suction cup assembly 82, and the third suction cup assembly 82 includes four suction cups, which are identical to the first suction cup assembly in principle. The third chuck base 83 is guide-fitted on the second slide table 81. The blanking device 8 is used for transferring the printed product to a blanking station.

The multi-station automatic screen printing machine further comprises a feeding belt conveyor 9, and printed products are transferred onto the feeding belt conveyor 9 by the third sucker component 82 and conveyed away.

Furthermore, the feeding belt conveyor 9 can be selectively butted with an oven (not shown), and the printed product is directly conveyed to the oven to enter a baking process, so that an intermediate manual transfer link is omitted.

The working principle of the multi-station automatic screen printer is as follows:

before starting, the products to be printed are manually placed on the first lifting tray 11 and the second lifting tray 21, the first lifting tray 11 is located at a feeding station, and the first sucking disc assembly intermittently grabs the products and places the positioning devices 5 according to set time to position the products. The second sucking disc subassembly snatchs the product of location and shifts to one of them station of four-station carousel 73, and the carousel intermittent type nature is rotatory 90 degrees, and the product that the multistation silk screen printing machine body is under the printing aircraft nose 72 prints, and the product after accomplishing the printing is sent to next station along with the rotation of carousel, waits for snatching of third sucking disc subassembly 82, and third sucking disc subassembly 82 snatchs this product and takes away and place pay-off belt feeder 9. If the drying oven is available, the printing and baking connecting line is directly conveyed into the drying oven, so that the printing and baking connecting line integration is realized.

In the process, after the product on the first lifting tray 11 is taken out, the first air cylinder 18 drives the movable base 10 to move, the second lifting and discharging device 2 is switched to the original first lifting and discharging device, and the operation can be continued without stopping and waiting. At this time, the empty first lifting tray 11 may be manually discharged. According to the process, the waiting time of equipment during manual product placement is saved, and the efficiency is improved.

In other embodiments, the first lifting and discharging device and the second lifting and discharging device can be driven by independent cylinders to realize station switching.

In other embodiments, a third lifting and placing device can be further arranged, and the third lifting and placing device and the first lifting and placing device and the second lifting and placing device share the same moving base or are driven independently.

The present invention is not limited to the above-mentioned preferred embodiments, and any other products in various forms can be obtained by anyone in the light of the present invention, but any changes in the shape or structure thereof, which have the same or similar technical solutions as those of the present application, fall within the protection scope of the present invention.

Claims (10)

1. The utility model provides an automatic silk screen printing machine of multistation which characterized in that: the automatic feeding device comprises a two-station automatic feeding device, a positioning device, a multi-station screen printing machine body, a transfer mechanism and a discharging device;

the two-station automatic feeding device comprises a first lifting discharging device, a second lifting discharging device and a first sucking disc assembly, wherein the first lifting discharging device comprises a first lifting tray and is used for placing a pile of products to be printed, and the second lifting discharging device comprises a second lifting tray and is used for placing another pile of products to be printed; the first lifting and discharging device and the second lifting and discharging device alternately act to enable one of the first lifting tray and the second lifting tray to be located at the feeding station;

the first sucking disc assembly comprises a first sucking disc seat and a first sucking disc assembly arranged on the first sucking disc seat, and the first sucking disc assembly is used for grabbing a product to be printed at a feeding station and transferring the product to a positioning device;

the positioning device comprises a positioning tray, and a positioning assembly for positioning the product to be printed is arranged on the positioning tray;

the transfer mechanism comprises a second sucker seat and a second sucker component arranged on the second sucker seat, and the second sucker component is used for transferring the positioned product to be printed to a printing station in the multi-station screen printing machine body;

the multi-station screen printing machine body comprises a screen printing rack, a multi-station turntable is arranged on the screen printing rack, and a plurality of adjusting platforms are arranged on the multi-station turntable;

the blanking device comprises a third sucker component used for transferring the printed product to a blanking station.

2. The multi-station automatic screen printing machine according to claim 1, characterized in that: the first lifting and discharging device and the second lifting and discharging device share one movable base, and the movable base is assembled on the guide rail in a guiding and moving mode.

3. The multi-station automatic screen printing machine according to claim 2, characterized in that: the first lifting and discharging device and the second lifting and discharging device are identical in structure, the first lifting and discharging device comprises a servo motor, a screw nut mechanism, a guide rod and an ejector rod, the screw nut mechanism comprises a screw rod and a nut, the screw rod is driven by the servo motor, a bottom plate is fixed on the nut, the bottom plate is assembled on the guide rod in a vertical direction in a guiding mode, the lower end of the ejector rod is fixed on the bottom plate, and the upper end of the ejector rod is connected with the first lifting tray.

4. A multi-station automatic screen printing machine according to any one of claims 1 to 3, characterized in that: four long holes which are arranged in a cross shape are formed in the first lifting tray, a material blocking rod is fixed in each long hole through a bolt, the material blocking rod extends upwards along the first lifting tray, and the four material blocking rods are used for limiting the periphery of a product to be printed.

5. The multi-station automatic screen printing machine according to claim 1, characterized in that: first sucking disc seat and second sucking disc seat are all installed on first slip table, are equipped with on the first slip table with first sucking disc seat and second sucking disc seat guide removal complex slide rail.

6. The multi-station automatic screen printing machine according to claim 1, characterized in that: the positioning tray is provided with adjusting long holes distributed in a cross shape, the positioning assembly comprises two fixed positioning blocks and two movable positioning blocks, the two fixed positioning blocks are arranged in the two adjusting long holes, the two movable positioning blocks are arranged in the other two adjusting long holes, and the movable positioning blocks are driven by the positioning air cylinders to move along the length direction of the corresponding adjusting long holes.

7. The multi-station automatic screen printing machine according to claim 6, characterized in that: the regulation slot hole divide into first regulation slot hole, second regulation slot hole, and first regulation slot hole, second regulation slot hole respectively have two, and two first regulation slot holes are adjacent to be arranged, and first regulation slot hole cooperates with the fixed positioning piece, and first regulation slot hole includes two elongated holes, and the fixed positioning piece has the fixed position portion of protrusion location tray upper flank and blocks the card foot in two elongated holes downwards, and card foot tip has the clamp plate through the bolt fastening, and the clamp plate is located the downside of location tray.

8. The multi-station automatic screen printing machine according to claim 7, characterized in that: the movable positioning block is provided with a movable positioning part protruding out of the upper side face of the positioning tray and a driving part inserted into the second adjusting long hole, and the driving part is connected with the positioning cylinder.

9. The multi-station automatic screen printing machine according to claim 1, characterized in that: the multi-station turntable is a four-station turntable, and a positioning slot used for being installed in a matched mode with a matched jig is formed in the adjusting platform.

10. The multi-station automatic screen printing machine according to claim 1, characterized in that: the multi-station automatic screen printing machine further comprises a feeding belt conveyor, and the third sucker component transfers printed products to the feeding belt conveyor.

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