CN112976783B - Manufacturing method of rotary structure of pad printing machine - Google Patents

Abstract

The invention relates to the technical field of printing, in particular to a manufacturing method of a rotary structure of a pad printing machine. The method for manufacturing the rotary structure of the pad printer aims to solve the problem that the pad printer cannot print a plurality of surfaces at one time during printing, and the rotary structure of the pad printer has a rotary function so that the pad printer can print a plurality of surfaces at one time. The invention relates to a method for manufacturing a rotary structure of a pad printing machine, which is characterized in that a fixed part, a rotary main shaft body, a lower auxiliary mechanism and rotary pad printing components on the front side and the rear side are manufactured on a frame by taking a rotary main shaft as a center. The invention overcomes the defect that the traditional inductance silver printing can only print one surface at a time; the rotary main shaft, the plurality of ejection positioning plates and the material supporting piece are adopted for assistance, so that the precision of the inductance silver printing is improved, and the efficiency is improved; the rotary main shaft adopts the inductor which is hollow inside to absorb, and the problem that the inductor cannot fall off in the rotating process is solved.

Description

Manufacturing method of rotary structure of pad printing machine

Technical Field

The invention relates to the technical field of printing, in particular to a manufacturing method of a rotary structure of a pad printing machine.

Background

The existing inductance transfer printing on the market is to place a product on a special fixture manually, then place a 45-degree jig on a printing head, start transfer printing (a rubber head adopts an amplification edge covering type, and a silver printing mode is used for printing silver at 45-degree diagonal angles), once, take out the jig, take down materials, take down silver burning, manually place on the special fixture again, place on the jig of the printing head for the second time, transfer printing for the second time, take down again, manually feed, place in a baking tray, and burn silver for the second time.

Because the existing silver printing on the market by hand has the defects that: the efficiency is too low, and the cost of labor is big, and the silver-printing cycle is long, and the silver-printing of upset twice, twice clamping, twice sintering, 45 diagonal angles silver-printing can appear that the diagonal edges and corners lack the printing and appear black spot, and the silver technology is flowed to the side, can't guarantee the accurate size of silver-printing of side, and the yields is low. Therefore, the company invented an automatic pad printing machine, wherein the manufacturing method of the rotary structure of the pad printing machine solves the problem of printing multiple surfaces of the inductor at one time in the field.

Disclosure of Invention

The invention aims to solve the problem that a pad printer cannot print a plurality of surfaces at one time during printing, and provides a method for manufacturing a rotating structure of the pad printer, which solves the problem, and the rotating structure has a rotating function so that the pad printer can print a plurality of surfaces at one time.

In order to solve the above technical problems, the present invention provides a method for manufacturing a rotary structure of a pad printing machine, which performs manufacturing of a fixed portion, manufacturing of a main body of a rotary spindle, manufacturing of a lower auxiliary mechanism, and manufacturing of rotary pad printing members on front and rear sides of the rotary spindle on a frame, the method including:

step 1: the manufacturing steps of the fixed part are as follows,

step 1, arranging a fixedly connected supporting base on a rack;

Step 2, arranging a fixedly connected cylinder bracket on the frame or fixedly installing the cylinder bracket on a supporting base;

step 3, selecting positions as the front side and the rear side of the supporting base, arranging a first supporting seat and a second supporting seat which are fixedly connected with the supporting base, and arranging a first main shaft supporting piece and a second main shaft supporting piece which are fixedly connected with the supporting base on the left side and the right side between the first supporting seat and the second supporting seat;

step 4, arranging main shaft connecting holes in the same axis at the end parts of the first main shaft supporting piece and the second main shaft supporting piece;

and a step 2: a step of manufacturing a rotating main shaft,

step 1, movably connecting a rotating main shaft which is internally of a hollow structure and one side end of which is provided with an air receiving port with a main shaft connecting hole in the working procedure 1,

step 2, arranging a raised control platform outside the rotating main shaft, and arranging at least two concave troughs on the surface of the control platform;

step 3, arranging air holes which are communicated inwards in each trough,

step 4, confirming that the air holes in the step 3 are communicated with the air receiving port;

step 3: the manufacturing step of the lower auxiliary mechanism,

step 1, selecting a material supporting part which is arranged at a position vertically below a rotating main shaft and fixedly connected with a supporting base,

Step 2, the confirmed positions are simultaneously positioned between the first spindle supporting piece and the second spindle supporting piece;

step 3, arranging two elastic top plates in the vertical direction in the material supporting piece, taking the axis of the rotating main shaft as a rotating center, and taking the positions corresponding to the downward vertical rotating radiuses on the two sides of the rotating main shaft as the positions of the two elastic top plates;

step 4: a manufacturing step of the rotary transfer printing component on the front side and the back side,

step 1, arranging a first sliding table cylinder fixedly connected with a first supporting seat in the middle of the first supporting seat, and arranging a first ejection positioning plate fixedly connected above the first sliding table cylinder; meanwhile, a fixedly connected positioning part is arranged above the first supporting seat, a sliding rail is arranged on the surface of the positioning part, a positioning plate connecting piece which is connected with the sliding rail in a sliding manner is arranged above the sliding rail, a material ejecting cylinder and a movable joint which can push the positioning plate connecting piece to move are arranged at the front end of the sliding rail, and finally, an elastic material ejecting positioning plate which is fixedly connected is arranged above the positioning plate connecting piece; the first material ejecting positioning plate and the elastic material ejecting positioning plate are positioned at a position which is vertically lower than the rotating radius close to the front side of the rotating main shaft in the longitudinal direction;

step 2, a second sliding table cylinder is fixedly connected above the second supporting seat, a second ejection positioning plate is fixedly connected above the second sliding table cylinder,

Step 3, arranging a fixedly connected third sliding table cylinder above the cylinder bracket, arranging a fixedly connected third material ejecting positioning plate above the third sliding table cylinder,

and 4, the second material ejecting positioning plate and the third material ejecting positioning plate in the steps 2 and 3 are positioned at a position which is vertical to the longitudinal direction, is lower by one and is higher by a rotating radius close to the rear side of the rotating main shaft.

The servo motor is used for controlling the rotation of the rotating main shaft, the reduction gearbox is fixedly connected with the output shaft of the servo motor, and the reduction gearbox is fixedly connected with the rotating main shaft through the coupler.

Wherein, servo motor utilizes motor installed part fixed connection in the frame, the position of motor installed part be located with first supporting seat, the same straight line at second supporting seat place.

Wherein, the tip of elasticity liftout locating plate sets up two at least and silo assorted liftouts.

Advantageous effects

The technology of the invention has the following innovative advantages:

1. the defect that only one surface can be printed at one time in the traditional inductance silver printing is overcome;

2. the rotary main shaft, the plurality of ejection positioning plates and the material supporting piece are adopted for assistance, so that the precision of the inductance silver printing is improved, and the efficiency is improved;

3. the rotary main shaft adopts the inductor which is hollow inside to absorb, and the problem that the inductor cannot fall off in the rotating process is solved.

Drawings

FIG. 1 is an overall effect diagram of the present invention;

FIG. 2 is an overall effect of the main body portion of the present invention;

FIG. 3 is a left side effect view of the present invention;

FIG. 4 is a top effect view of the present invention;

FIG. 5 is a front effect view of the present invention;

FIG. 6 is an enlarged partial view of portion "A" of FIG. 2;

FIG. 7 is an enlarged partial view of portion "B" of FIG. 2;

FIG. 8 is an enlarged partial view of portion "C" of FIG. 2;

FIG. 9 is an enlarged partial view of portion "D" of FIG. 3;

FIG. 10 is an enlarged partial view of portion "E" of FIG. 4;

FIG. 11 is an enlarged partial view of portion "F" of FIG. 4;

fig. 12 is a partial enlarged view of a portion "G" in fig. 5;

FIG. 13 is an enlarged partial view of portion "H" of FIG. 5;

in the figure: 1. the automatic feeding device comprises a rack, 2 parts of a supporting base, 3 parts of a cylinder bracket, 4 parts of a first supporting seat, 5 parts of a second supporting seat, 6 parts of a first main shaft supporting part, 7 parts of a second main shaft supporting part, 8 parts of a material supporting part, 9 parts of a main shaft connecting hole, 10 parts of a rotating main shaft, 11 parts of an operating board, 12 parts of a trough, 13 parts of an air receiving port, 14 parts of an air hole, 15 parts of a first sliding table cylinder, 16 parts of a second sliding table cylinder, 17 parts of a third sliding table cylinder, 18 parts of a material ejecting cylinder, 19 parts of a first material ejecting positioning plate, 20 parts of a second material ejecting positioning plate, 21 parts of a third material ejecting positioning plate, 22 parts of an elastic material ejecting positioning plate, 23 parts, 24 parts of a positioning plate connecting part, 25 parts of a movable joint, 26 parts of an elastic top plate, 27 parts, 28 parts of a servo motor, 29 parts of a reduction gearbox, 30 parts, 31 parts of an inductor, 32 parts of a slide rail and 33 parts of a coupler;

Detailed Description

The invention is further illustrated by the following examples in conjunction with the drawings.

As shown in fig. 1 to 13, the method for manufacturing a rotary structure of a pad printing machine according to the present invention is characterized in that a fixed portion, a rotary main shaft body, a lower auxiliary mechanism, and a front-rear two-side rotary pad printing component are manufactured on a rack by using a rotary main shaft as a center, wherein a support base 2 fixedly connected to the rack 1 is first provided, the support base 2 is used for mounting and fixing related accessories, and a cylinder support 3 fixedly connected to the rack 1 is provided, so that the cylinder support 3 can be fixedly mounted on the support base 2 for the convenience of application to different racks; a first supporting seat 4 and a second supporting seat 5 which are fixedly connected with the supporting base 2 are arranged on the front side and the rear side of the supporting base 2, and a first main shaft supporting piece 6 and a second main shaft supporting piece 7 which are fixedly connected with the supporting base 2 are arranged on the left side and the right side between the first supporting seat 4 and the second supporting seat 5, so that the first supporting seat 4, the second supporting seat 5, the first main shaft supporting piece 6 and the second main shaft supporting piece 7 are positioned on the supporting base 2 at positions corresponding to the front side, the rear side, the left side and the right side; meanwhile, the end parts of the first spindle supporting part 6 and the second spindle supporting part 7 are provided with spindle connecting holes 9 which are positioned at the same axis, the spindle connecting holes 9 are used for movably connecting a rotating spindle 10, the rotating spindle 10 is of an internal hollow structure, the end part of one side of the rotating spindle is provided with an air receiving port 13, the outer part of the rotating spindle 10 is provided with a raised control console 11, the surface of the control console 11 is provided with at least two material grooves 12 which are concave downwards, the inner part of each material groove 12 is provided with an air hole 14 which is communicated inwards, and the air hole 14 is communicated with the air receiving port 13; the inductor 31 can be placed into the trough 12, the air receiving port 13 is used for connecting an external air pipe, the external air pipe sucks air, the inductor 31 in the trough 12 can be sucked through the hollow rotating main shaft 10 and the hole 14, and the inductor 31 in the trough 12 can be conveniently processed;

In the step of performing rotary pad printing, a material supporting part 8 fixedly connected with the supporting base 2 is further arranged below the rotary main shaft 10, and the position of the material supporting part 8 is selected to be vertically below the rotary main shaft 10 and is positioned between the first main shaft supporting part 6 and the second main shaft supporting part 7; two elastic top plates 26 in the vertical direction are further arranged in the material supporting part 8, the axis of the rotating main shaft 10 is taken as the center of a circle, and the positions corresponding to the downward vertical rotating radiuses on the two sides of the operation 11 of the rotating main shaft 10 are the positions of the two elastic top plates 26;

as shown in the figure, a first sliding table cylinder 15 fixedly connected with the first supporting seat 4 is arranged in the middle of the first supporting seat 4, and a first ejection positioning plate 19 fixedly connected with the first sliding table cylinder 15 is arranged above the first sliding table cylinder 15; meanwhile, a fixedly connected positioning part 23 is arranged above the first supporting seat 4, a sliding rail 32 is arranged on the surface of the positioning part 23, a positioning plate connecting part 24 which is connected with the sliding rail 32 in a sliding manner is arranged above the sliding rail 32, a material ejecting cylinder 18 which is fixedly connected with the first supporting seat 2 is arranged at the front end of the sliding rail 32, the material ejecting cylinder 18 is fixedly connected with the positioning plate connecting part 24 through a movable joint 25, a fixedly connected elastic material ejecting positioning plate 22 is arranged above the positioning plate connecting part 24, finally, a fixedly connected elastic material ejecting positioning plate 22 is arranged above the positioning plate connecting part 24, at least two ejecting parts 27 are arranged at the end part of the elastic material ejecting positioning plate 22, and the ejecting parts 27 are matched with the positions of the material grooves 12; the first material ejecting positioning plate 19 and the elastic material ejecting positioning plate 22 are positioned at the front end of the rotating main shaft 10 and vertically arranged at a position which is lower than the rotating radius of the rotating main shaft by one height;

A second sliding table cylinder 16 fixedly connected is arranged above the second supporting seat 5, and a second ejection positioning plate 20 fixedly connected is arranged above the second sliding table cylinder 16; meanwhile, a third sliding table cylinder 17 is fixedly connected above the cylinder support 3, a third ejection positioning plate 21 is fixedly connected above the third sliding table cylinder 17, and the second ejection positioning plate 20 and the third ejection positioning plate 21 are vertically arranged at a position which is vertically lower than the rotating radius of the rear side of the rotating main shaft 10 by one height;

the movement of the rotating main shaft 10 depends on the servo motor 28 to control the rotation of the rotating main shaft 10, a reduction gearbox 29 fixedly connected with the output shaft of the servo motor 28 is installed, and the reduction gearbox 29 is fixedly connected with the rotating main shaft 10 through a coupler 33; the servo motor 28 is fixedly connected to the frame by the motor mounting part 30, and the position of the motor mounting part 30 is located on the same straight line with the first support seat 4 and the second support seat 5.

The using method comprises the following steps: when printing inductance 31, connect gas port 13 to connect outside cylinder, hold the location through 14 indirect inductance 31 of placing in silo 12 of gas pocket, make it can not drop inductance 31 when rotatory main shaft 10, when printing inductance 31's front, third liftout locating plate 21 and elasticity liftout locating plate 22 assist the centre gripping fixed to the both sides of inductance 31 in silo 12, when rotatory main shaft 10 is rotatory to front end or rear end, then carry out buffering location to inductance 31's side through holding in the palm material 8 elasticity roof 26, first liftout locating plate 19 and second liftout locating plate 20 then assist the centre gripping fixed to inductance 31 in silo 12 simultaneously, make inductance 31's a plurality of face prints all can be even.

While the invention has been described in connection with specific embodiments thereof, it will be understood that these should not be construed as limiting the scope of the invention, which is defined in the following claims, and any variations which fall within the scope of the claims are intended to be embraced thereby.

Claims (4)

1. The method for manufacturing the rotary structure of the pad printing machine is characterized in that a fixed part, a rotary main shaft body, a lower auxiliary mechanism and front and rear rotary pad printing parts are manufactured on a rack by taking a rotary main shaft as a center, and comprises the following steps:

step 1: the manufacturing steps of the fixed part are as follows,

step 1, arranging a fixedly connected supporting base on a rack;

step 2, arranging a fixedly connected cylinder bracket on the frame or fixedly installing the cylinder bracket on a supporting base;

step 3, selecting positions as the front side and the rear side of the supporting base, arranging a first supporting seat and a second supporting seat which are fixedly connected with the supporting base, and arranging a first main shaft supporting piece and a second main shaft supporting piece which are fixedly connected with the supporting base on the left side and the right side between the first supporting seat and the second supporting seat;

step 4, arranging main shaft connecting holes in the same axis at the end parts of the first main shaft supporting piece and the second main shaft supporting piece;

Step 2: a step of manufacturing a rotating main shaft,

step 1, movably connecting a rotating main shaft which is internally of a hollow structure and one side end of which is provided with an air receiving port with a main shaft connecting hole in the working procedure 1,

step 2, arranging a raised control platform outside the rotating main shaft, and arranging at least two concave troughs on the surface of the control platform;

step 3, arranging air holes which are communicated inwards in each trough,

step 4, confirming that the air holes in the step 3 are communicated with the air receiving port;

step 3: the manufacturing step of the lower auxiliary mechanism,

step 1, selecting a material supporting part which is arranged at a position vertically below a rotating main shaft and fixedly connected with a supporting base,

step 2, the confirmed position is simultaneously positioned between the first spindle supporting piece and the second spindle supporting piece;

step 3, arranging two elastic top plates in the vertical direction in the material supporting piece, taking the axis of the rotating main shaft as a rotating center, and taking the positions corresponding to the downward vertical rotating radiuses on the two sides of the rotating main shaft as the positions of the two elastic top plates;

and step 4: a manufacturing step of the rotary pad printing component at the front side and the rear side,

step 1, arranging a first sliding table cylinder fixedly connected with a first supporting seat in the middle of the first supporting seat, and arranging a first ejection positioning plate fixedly connected above the first sliding table cylinder; meanwhile, a fixedly connected positioning part is arranged above the first supporting seat, a sliding rail is arranged on the surface of the positioning part, a positioning plate connecting piece which is connected with the sliding rail in a sliding manner is arranged above the sliding rail, a material ejecting cylinder and a movable joint which can push the positioning plate connecting piece to move are arranged at the front end of the sliding rail, and finally, an elastic material ejecting positioning plate which is fixedly connected is arranged above the positioning plate connecting piece; the first material ejecting positioning plate and the elastic material ejecting positioning plate are positioned at a position which is vertically lower than the rotating radius close to the front side of the rotating main shaft in the longitudinal direction;

Step 2, arranging a second sliding table cylinder fixedly connected above the second supporting seat, arranging a second ejection positioning plate fixedly connected above the second sliding table cylinder,

step 3, arranging a fixedly connected third sliding table cylinder above the cylinder bracket, arranging a fixedly connected third material ejecting positioning plate above the third sliding table cylinder,

and 4, the second material ejection positioning plate and the third material ejection positioning plate in the steps 2 and 3 are positioned at a position which is vertically lower than the rotating radius close to the rear side of the rotating main shaft by one in the longitudinal direction.

2. A method for making a rotary structure of a pad printing machine as claimed in claim 1, wherein the rotation of the rotary main shaft is controlled by a servo motor, and a reduction box fixedly connected to an output shaft of the servo motor is mounted and fixedly connected to the rotary main shaft through a coupling.

3. A method for manufacturing a rotary structure of a pad printing machine according to claim 1 or 2, wherein the servo motor is fixedly connected to the frame by a motor mounting member, and the motor mounting member is positioned on the same line as the first support base and the second support base.

4. A method for making a rotating structure of a pad printing machine according to claim 3, wherein at least two ejecting members are provided at the end of the elastic ejecting positioning plate to match the hopper.

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