CN203611548U

CN203611548U - Air floating type conveying device of screen printer

Info

Publication number: CN203611548U
Application number: CN201320777482.2U
Authority: CN
Inventors: 陈东钦
Original assignee: ATMA TUNG YUAN M/C IND (KUNSHAN) Co Ltd
Current assignee: ATMA TUNG YUAN M/C IND (KUNSHAN) Co Ltd
Priority date: 2013-11-28
Filing date: 2013-11-28
Publication date: 2014-05-28
Anticipated expiration: 2023-11-28

Abstract

Disclosed is an air floating type conveying device of a screen printer. The air floating type conveying device of the screen printer comprises a working table surface, a control unit and at least one pair of conveying mechanisms. The working table surface is provided with two parallel separated channels in a workpiece conveying direction, and the top surface of the working table surface is provided with a plurality of air ports; the control unit controls the flow direction of a gas and enables the gas to be exhausted upwards or sucked downwards when the gas passes by the plurality of air ports to stably float a workpiece above the working table surface without contact with the working table surface and free floating movement; the at least one pair of conveying mechanisms are symmetrically arranged under the working table surface, correspond to the two channels and can move upwards through the two channels to absorb and support the floated workpiece and move the workpiece along the channels. Therefore, the workpiece can be conveyed in the stable floating state, thereby avoiding deviation or damage due to scraping.

Description

The air-flotation type shifting apparatus of screen-printing machine

Technical field

The utility model is about the air-flotation type shifting apparatus of a kind of screen-printing machine (screen printer), espespecially a kind of top that utilizes the flow direction of control gas to be stably floated on work top with support works part, under this stable state of floating, carry out transfer and can promote the acceptance rate of work package, and then promote productivity ratio.

Background technology

The work package of general printing use as silicon wafer, film .. etc., is conventionally utilized as the conveying equipments such as roller, tooth fork, conveyer belt or robotic arm carry out transfer and is carried operation in manufacturing process.But, there are the following problems for above-mentioned known conveying equipment, that is: the work package being transferred easily produces skew, slippage in course of conveying, the surface that makes work package because of skew or slippage produce friction to such an extent as to cause scrape damages, flaw is bad, also possiblely cause the problems such as work package is contaminated because of improper or too much contact, and then affects the quality of work package, more there is drive structure complexity, stop place is many, and speed is slower, easily pollutes the shortcoming such as bottom surface or scratch glass surface.

Therefore, there is manufacturer's a kind of contactless air pressure of proposition to prop up carrying and be used for reducing impaired probability in work package (silicon wafer) course of conveying, as, Chinese utility model patent M410732 " air-flotation type solar energy silicon crystal chip conveying equipment ", the work package being transferred in order to utilize air to support, and use an airfloat equipment, so that the work package of printing use is propped up and is afloat to pick and place operation.The shortcoming of this kind of mode is: in the process of transportation work part because air is only upwards discharged, therefore, easily make pneumatically supported stability not good enough, cause work package that significantly skew occurs, and the accuracy of reduction printing, and more because of the shakiness of air-flow, also easily cause this work package clash into work top and damage, increase cost.

Utility model content

The utility model is that the problem that solves above-mentioned prior art completes, its object be to provide a kind of on printing production line with air supporting support this work package be floated on work top above, make this work package in course of conveying, avoid skew occurs and the air-flotation type shifting apparatus that reaches a screen-printing machine of steadily carrying.

In order to reach above-mentioned purpose, the utility model provides a kind of air-flotation type shifting apparatus of screen-printing machine, and it comprises:

One work top, according to the throughput direction of work package, one end of defining work top is feed end, the other end is discharge end, on this work top, be provided with parallel two passages that separate along the throughput direction of this work package, this two passage extends to this discharge end by this feed end, forms multiple gas ports on the end face of this work top;

One control module, this control module is communicated with the gas port of this work top, and controls the flow direction of gas by the plurality of gas port to do upwards exhaust and air-breathing downwards, does not contact with this work top to support this work package to be floated on the top of this work top; And,

At least one pair of transfer mechanism, be symmetricly set in the below of this work top and to should two passages, and can move up by this two passage with will be positioned at aforementioned floating state work package absorption and be supported on this transfer mechanism, then move along the length direction of this two passage, with this work package of transfer.

The air-flotation type shifting apparatus of described screen-printing machine, wherein, this work top, from this feed end to this discharge end, sequentially comprises a charging table top, a printing table and a discharging table top, and this two passage extends to this discharging table top by this charging table top by this printing table.

The air-flotation type shifting apparatus of described screen-printing machine, wherein, the enterprising step of the charging table top of this work top is provided with several backstays, in order to locate this work package.

The air-flotation type shifting apparatus of described screen-printing machine, wherein, below between every two adjacent table tops in this charging table top, this printing table and this discharging table top configures respectively a pair of described transfer mechanism, so that these two pairs of transfer mechanisms can be respectively between this charging table top and this printing table, and between this printing table and this discharging table top, carry out the transfer of work package simultaneously.

The air-flotation type shifting apparatus of described screen-printing machine, wherein, the below of this printing table is provided with an elevating mechanism, in order to drive this printing table to move up and down.

The air-flotation type shifting apparatus of described screen-printing machine, wherein, this printing table is defined and is positioned at two interchannel pars intermedias by this two passage, and two outside portions in two passage outsides, the below of this printing table is provided with a driver module, in order to drive two outside portions towards this pars intermedia closing with closed this passage, with away from this pars intermedia to expose this passage.

The air-flotation type shifting apparatus of described screen-printing machine, wherein, this transfer mechanism comprises at least one suction nozzle, one support, one mobile unit and a track, wherein, this suction nozzle is arranged on this support, and can and be supported on this suction nozzle this work package absorption, this support is installed in this mobile unit upper end, this mobile unit is slidedly arranged on this track and can moves up and down, this track is located at this work top below along the throughput direction of this work package, make this support and this suction nozzle can utilize this mobile unit and move do length travel relative to this track, with move as lateral displacement along this track.

The air-flotation type shifting apparatus of described screen-printing machine, wherein, this control module has several flow control members, at least one source of the gas and at least one air-flow control piece, wherein, each flow control member is communicated with the gas port of this work top, in order to control this gas by the flow of gas port; This at least one air-flow control piece is arranged between flow control member and source of the gas and forms and is communicated with, and enters each flow control member in order to shunt this source of the gas.

Thus, make this work package be stable air supporting state and carry out transfer, to avoid work package produce skew and be subject to scratch and damage.

Accompanying drawing explanation

Fig. 1 is the stereogram of the air-flotation type shifting apparatus of the utility model screen-printing machine;

Fig. 2 is the top view of the air-flotation type shifting apparatus of the utility model screen-printing machine;

Fig. 3 is work top schematic top plan view of the present utility model;

Fig. 4 is the label B enlarged drawing of Fig. 3;

Fig. 5 is the structure block schematic diagram of control module of the present utility model;

Fig. 6 is transfer mechanism schematic perspective view of the present utility model;

Fig. 7 is the utility model in one of the embodiment schematic diagram at charging table top place;

Fig. 8 is the utility model in two of the embodiment schematic diagram at charging table top place;

Fig. 9 is that the utility model is in one of the embodiment at printing table place schematic diagram;

Figure 10 is that the utility model is in two of the embodiment at printing table place schematic diagram;

Figure 11 is that the utility model is in three of the embodiment at printing table place schematic diagram;

Figure 12 is that the utility model is in four of the embodiment at printing table place schematic diagram;

Figure 13 is the air-flotation type shifting apparatus one preferred embodiment schematic diagram of the utility model screen-printing machine;

Figure 14 is another possible embodiments schematic diagram of air-flotation type shifting apparatus of the utility model screen-printing machine.

Description of reference numerals: 10-work top; 10a-pars intermedia; 10b-outside portion; 11-charging table top; 111-backstay; 12-printing table; 121-groove; 122-gas port; 13-discharging table top; 14-passage; 15-gas port; 16-driver module; 17-elevating mechanism; 20-control module; 21-flow control member; 22-source of the gas; 23-air-flow control piece; 30-transfer mechanism; 31-suction nozzle; 32-support; 33-mobile unit; 34-track; 40-work package; 50-print head mechanism.

The specific embodiment

For making the utility model more clearly full and accurate, hereby enumerate preferred embodiment and coordinate following accompanying drawing, structure of the present utility model and technical characterictic thereof are described in detail as rear:

Please refer to shown in Fig. 1 to Fig. 7, the utility model provides a kind of air-flotation type shifting apparatus of screen-printing machine, includes a work top 10, a control module 20, and at least one pair of transfer mechanism 30.

This work top 10 is used for carrying work package 40, and sequentially comprises a charging table top 11, a printing table 12 and a discharging table top 13 according to the throughput direction (as shown in the arrow A of Fig. 2) of work package 40; And two passages 14 that this work top 10 is provided with space separately and is arranged in parallel along the throughput direction of this work package 40, this two passage 14 by this charging table top 11 by this printing table 12 and extend to this discharging table top 13; Two passages 14 of this work top 10 define a pars intermedia 10a who is positioned at 14, two passage, and the two outside portion 10b in two passage 14 outsides; On the end face of this work top 10, be formed with multiple gas ports 15, namely on the end face of this charging table top 11, this printing table 12 and this discharging table top 13, be formed with multiple gas ports 15, each gas port 15 is through the upper surface of this charging table top 11, this printing table 12 and this discharging table top 13; The below of this printing table 10 is also provided with a driver module 16, this driver module 16 to should two outside portion 10b with drive this two outside portion 10b towards this pars intermedia 10a displacement with closed this two passage 14, or leave this pars intermedia 10a to expose this two passage 14; The top of this work top 10 is also provided with a print head mechanism 50, in order to this work package 40 is carried out to a presswork.

This control module 20 is arranged at this work top 10 belows, this control module 20 comprises multiple flow control members 21, at least one source of the gas 22 and at least one air-flow control piece 23, the plurality of flow control member 21 is connected with the gas port 15 on this charging table top 11, printing table 12 and discharging table top 13 respectively, in order to control gas by the flow of gas port 15; This source of the gas 22 is a gas source; This at least one air-flow control piece 23 is arranged between flow control member 22 and source of the gas 23 and is interconnected, in order to above-mentioned gas source is shunted, so that the flow direction of controlling the gas by each gas port 15 is to carry out a upwards exhaust and aspiratory action downwards, thus, the gas that makes upwards to discharge can support this work package 40 and is floated on the top of this work top 10 and do not contact with this work top 10, utilizes the gas sucking that this work package 40 is stably being floated downwards simultaneously.

Transfer mechanism 30 is symmetricly set in to the below of this work top 10 and to should two passages 14, each transfer mechanism 30 includes: at least one suction nozzle 31, a support 32, a mobile unit 33 and a track 34; Wherein, this suction nozzle 31 is arranged at this support 32 upper ends, these support 32 lower ends are connected with this mobile unit 33, and this mobile unit 33 is slidedly arranged on this

track

34,34, this track throughput direction along this work package 40 is located at this work top 10 belows, so that this mobile unit 33 moves (as shown in the arrow B of Fig. 6) along this track 34 as transverse reciprocating, this mobile unit 33 itself also can be done a longitudinal reciprocal stroke start (as shown in the arrow C of Fig. 6), so that this suction nozzle 31 protrudes out this passage 14 and adsorbs this work package 40; Make this mobile unit 33 can drive support 32 on it and suction nozzle 31 can relative to these track 34 row laterally and length travel move.

As shown in Figures 2 and 3, for the air-flotation type shifting apparatus Application Example schematic diagram of screen-printing machine provided by the utility model, in the time that the quantity of transfer mechanism 30 is two pairs, wherein the first pair of transfer mechanism 30 is below between this charging table top 11 and this printing table 12, in order to this work package 40 is transferred load to this printing table 12 positions by these charging table top 11 positions; And the second pair of transfer mechanism 30 is below between this printing table 12 and discharging table top 13, in order to this work package 40 is transferred load to this discharging table top 13 positions by these printing table 12 positions, allow two pairs of above-mentioned transfer mechanisms 30 can synchronization actions, with between this charging table top 11 and this printing table 12, and between this printing table 12 and this discharging table top 13, carry out the transfer of work package 40 simultaneously, the result of use of carrying to reach two-track, and then promote operating efficiency.Utilize aforementioned two-track to carry effect, and between charging table top 11, printing table 12 and discharging table top 13 form three transfer positions, and see through the suction nozzle 31 of transfer mechanism 30 for absorption and the release movement of work package 40, make the utility model that the result of use of the full-automatic transfer of self-feeding, blowing is provided for thin large glass.

Refer again to shown in Fig. 3 and Fig. 7～Fig. 9; In the time that this work package 40 wants to enter this charging table top 11, rely on this control module 20 to control gas and carry out upwards exhaust and an air-breathing action downwards (as shown in Fig. 7,8 single line arrow) by multiple gas ports 15, be an air supporting state so that this work package 40 enters this charging table top 11, can avoid work package 40 and work top 10 to produce scratch because of phase mutual friction; At this air supporting state, this mobile unit 33 to transfer mechanism 30 carries out stretching out vertical motion (as shown in the arrow E of Fig. 8), drive this suction nozzle 31 to move to top offset with this support 32, make this suction nozzle 31 by this passage 14, the work package 40 that is positioned at aforementioned air supporting state be adsorbed and be supported thereon, then, this mobile unit 33 can move along this track 34, and carry out displacement in the passage 14 of this work top 10, to be moved to this printing table 12 positions (as shown in Fig. 3, Fig. 9) by these charging table top 11 positions; And this control module 20 still makes this work package 40 be held in air supporting state.

Please refer to shown in Fig. 9～Figure 11, in the time that this work package 40 moves to printing table 12, this suction nozzle 31 to transfer mechanism 30 is removed the absorption to this work package 40, and make this mobile unit 33 carry out a retraction down maneuver after, two outside portion 10b of this printing table 12 are driven to pars intermedia 10a displacement with closed this passage 14 by this driver module 16, now, this control module 20 is controlled gas and is done air-breathing and two outside portion 10b do upwards exhaust at the pars intermedia 10a of this printing table 12 downwards, make this work package 40 be subject at the same time downwards air-breathing with upwards under scavenging action, form " " shape (as shown in figure 12) that two ends are upturned, to avoid with this printing table 12 because of friction scratch, then, 20 of this control modules stop upwards exhaust action, make this work package 40 by original air supporting state, be subject to the aspiratory action of this gas port 21 and be adsorbed on after this printing table 12, this printing table 12 further utilizes an elevating mechanism 17(as Fig. 6, shown in Figure 13) drive this printing table 12 to be moved upward to a precalculated position, so that this print head mechanism 50 carries out a presswork to the work package 40 on this printing table 12, this elevating mechanism 13 is disposed at this printing table 12 lower ends, and to should pars intermedia 10a and two outside portion 10b, to drive this pars intermedia 10a and two outside portion 10b to move up and down, namely drives this printing table 10 to move up and down.

After finishing printing, this control module 22 recovers upwards exhaust action, now, this control module 20 is controlled gas and is done air-breathing and two outside portion 10b do upwards exhaust at the pars intermedia 10a of this printing table 12 downwards, make this work package 40 be subject at the same time downwards air-breathing with upwards under scavenging action, form " " shape (as shown in figure 12) that two ends are upturned, to avoid this work package 40 to rub and scratch with this printing table 12, thereafter, this two outside portion 10b leaves this pars intermedia 10a to appear this two passage 14, for this to transfer mechanism 30 again by this two passage 14 so that this work package 40 is transferred load to this discharging table top 13 positions by these printing table 12 positions.And this discharging table top 13 to make flowing mode identical with the embodiment of above-mentioned charging table top 11, therefore not in this to go forth.

According to the air-flotation type shifting apparatus of screen-printing machine of the present utility model, when this work package 40 is positioned on this printing table 12, and two outside portion 10b of this printing table 12 draw close front or leave before this pars intermedia 10a to pars intermedia 10a, the pars intermedia 10a of this printing table 12 does air-breathing downwards, and two outside portion 10b do upwards exhaust, make this work package 40 be subject at the same time downwards air-breathing with upwards under scavenging action, form " " shape that two ends are upturned, to avoid this work package 40 and the outside portion 10b in movement to rub and scratch mutually.

In addition, when this work package 40 is moved on printing table 12, and two outside portion 10b of this printing table 12 are while drawing close to pars intermedia 10a, the gas port 15 of pars intermedia 10a by this printing table 12 carries out an air-breathing operation, and carry out an exhaust operation by the gas port 15 of two outside portion 10b, the zone line of this work package 40 is first attached on this printing table 12, and its two rear flank is attached on this printing table 12, clashes into this printing table 12 to avoid this work package 40 to be subject to moment absorption and cause and cause damage; In addition, the flow control member 21 of this control module 20 can turn weak to disappear (closing) by planning and designing one flow gradually, maybe the upwards exhaust of this air-flow control piece 23 and air-breathing operation are downwards disposed to each gas port 15 in the mode of interting, and close with subregion or segmented, also belong to the category of this case.

Please refer to again shown in Figure 14, for another possible embodiments of air-flotation type shifting apparatus of screen-printing machine that the utility model provides, for making the utility model further reach energy-conservation or preventing unnecessary interference in air flow, this control module 20 carries out this driving operation before can wanting to enter this charging table top 11 or this printing table 12 or this discharging table top 13 according to this work package 40, more can be with the throughput direction of this work package 40 (as shown in the lateral arrows of Figure 14), segmented drives this air-flow control piece 23; Separately can be by source of the gas 22 gases in this air-flow control piece 23, be controlled in and in a planning region, carry out exhaust and air-breathing operation according to the size of this work package 40.

Please refer again to Fig. 1 to Fig. 4, on the charging table top 11 of this work top 10, being further provided with multiple backstays 111 is beneficial to this suction nozzle 31 to transfer mechanism 30 and adsorbs for this work package 40 being positioned to a center position, in the time that this work package 40 is transferred load to this printing table 12, also be a more upright form to carry out next operation, a better press quality more can be provided; In addition, on this printing table 12, be further provided with the groove 121 of at least one hollow, the bottom surface of this groove 121 is provided with the gas port 122 of downward air-breathing use, in order to when this work package 40 is during corresponding to this groove 121, rely on this gas port 122 is air-breathing can be by the gas sucking-off in this groove 121 to form a vacuum state, this work package 40 can be stably attached on this printing table 12, be conducive to presswork.

From the above, the utility model relies on the upwards exhaust of this control module 20 and air-breathing operation downwards, the top that makes this work package 40 can reach stable, be floated on reposefully this work top 10, can avoid this work package 40 to enter this work top 10 time, or in course of conveying, contact with this work top 10 and cause scratch or damage; And rely on this control module 20 to carry out a first air-breathing operation, final vacuum operation in subregional mode in this printing table 12, and can avoid this work package 40 to be subject to moment absorption and clash into this printing table 12 and damage.

The foregoing is only this novel preferred embodiment, novel for this is only illustrative, and nonrestrictive; Those of ordinary skills understand, and in the spirit and scope that limit, can carry out many changes to it in this novel claim, revise, and even equivalence is changed, but all will fall in this novel protection domain.

Claims

1. an air-flotation type shifting apparatus for screen-printing machine, is characterized in that, comprises:

2. the air-flotation type shifting apparatus of screen-printing machine as claimed in claim 1, it is characterized in that, this work top is from this feed end to this discharge end, sequentially comprise a charging table top, a printing table and a discharging table top, this two passage extends to this discharging table top by this charging table top by this printing table.

3. the air-flotation type shifting apparatus of screen-printing machine as claimed in claim 2, is characterized in that, the enterprising step of charging table top of this work top is provided with several backstays, in order to locate this work package.

4. the air-flotation type shifting apparatus of screen-printing machine as claimed in claim 2, it is characterized in that, below between every two adjacent table tops in this charging table top, this printing table and this discharging table top configures respectively a pair of described transfer mechanism, so that these two pairs of transfer mechanisms can be respectively between this charging table top and this printing table, and between this printing table and this discharging table top, carry out the transfer of work package simultaneously.

5. the air-flotation type shifting apparatus of screen-printing machine as claimed in claim 2, is characterized in that, the below of this printing table is provided with an elevating mechanism, in order to drive this printing table to move up and down.

6. the air-flotation type shifting apparatus of screen-printing machine as claimed in claim 2, it is characterized in that, this printing table is defined and is positioned at two interchannel pars intermedias by this two passage, and two outside portions in two passage outsides, the below of this printing table is provided with a driver module, in order to drive two outside portions towards this pars intermedia closing with closed this passage, with away from this pars intermedia to expose this passage.

7. the air-flotation type shifting apparatus of screen-printing machine as claimed in claim 1, it is characterized in that, this transfer mechanism comprises at least one suction nozzle, one support, one mobile unit and a track, wherein, this suction nozzle is arranged on this support, and can and be supported on this suction nozzle this work package absorption, this support is installed in this mobile unit upper end, this mobile unit is slidedly arranged on this track and can moves up and down, this track is located at this work top below along the throughput direction of this work package, make this support and this suction nozzle can utilize this mobile unit and move do length travel relative to this track, with move as lateral displacement along this track.

8. the air-flotation type shifting apparatus of screen-printing machine as claimed in claim 1, it is characterized in that, this control module has several flow control members, at least one source of the gas and at least one air-flow control piece, wherein, each flow control member is communicated with the gas port of this work top, in order to control this gas by the flow of gas port; This at least one air-flow control piece is arranged between flow control member and source of the gas and forms and is communicated with, and enters each flow control member in order to shunt this source of the gas.