CN201371115Y - Glue spreader - Google Patents

Abstract

The utility model discloses a glue spreader, comprising a head unit, a Y axis driving unit and a laser displacement sensor. The head unit is provided with a nozzle for discharging glue and is arranged on a head supporting piece for moving horizontally along the X axis direction. The Y axis driving unit is arranged on the head unit, which comprises a direct driving part and a connecting part. The direct driving part generates linear driving force along the Y axis direction. The connecting part connects the nozzle and the direct driving part. The nozzle is moved along the Y axis direction by the driving force of the direct driving part. The laser displacement sensor is arranged on the head unit for measuring the distance between a base plate and the nozzle. The utility model reduces the X axis interval of the nozzles when a plurality of head units are close to each other. The utility model allows various patterns to be formed on the base plate efficiently.

Description

Glue spreader

Technical field

The utility model relates to the glue spreader that forms the glue pattern on substrate.

Background technology

Glue spreader is a kind ofly with predetermined pattern glue to be applied to substrate so that adhere to or the device of hermetic sealing substrate when making various types of flat-panel monitors (FPD).

This glue spreader comprises saddle, head unit, head support member and X-axis driver element.Substrate is installed on the saddle.The nozzle that is used to discharge glue is installed to head unit.Head unit is supported by head support member.The X-axis driver element places between head unit and the head support member, and along direction (X-direction) the slip-on head unit of the extrapolation line of head support member.Glue spreader is provided with a plurality of head units to form a plurality of glue patterns simultaneously and therefore increase productivity ratio on large-area substrate.

Glue spreader forms the glue pattern on substrate in the gap of regulating between nozzle and the substrate.For this purpose, head unit is provided with: laser displacement sensor is used for the gap data between gaging nozzle and the substrate; And Z axle driver element, be used for along Z-direction (vertical direction) moving nozzle and laser displacement sensor.

Laser displacement sensor comprises: the radiating portion of emission laser; And receiving unit, this receiving unit is from the spaced apart preset distance of radiating portion and receive laser.Laser displacement sensor will corresponding to from radiating portion emission and on substrate the image of laser light reflected form the position and the signal of telecommunication that produces outputs to control module, measure the gap between substrate and the nozzle thus.

In addition, head unit is provided with the Y-axis driver element with along Y direction moving nozzle and laser displacement sensor.The Y-axis driver element comprises: rotation motor; Be connected to the cam of the rotating shaft of rotation motor; And coupling member, be used for cam is connected to nozzle and laser displacement sensor.Like this, rotatablely moving of rotation motor is converted to the linear movement of nozzle and laser displacement sensor via cam and coupling member, makes nozzle and laser displacement sensor move along Y direction.

So, in X-axis, Y-axis and Z-direction moving nozzle, the glue pattern is formed on the substrate at glue spreader.As shown in fig. 1, under the situation of the space D n between the adjacent nozzle 81 when near-earth is closer to each other as far as possible when a plurality of head units 80 of the desired spacing Dp between the adjacent patterns 90, be difficult to use simultaneously a plurality of head units 80 to form patterns 90.Therefore, a plurality of head units 80 must alternately move to form pattern 90, and perhaps a plurality of patterns 90 must only be formed by a head unit 80.In addition, the restriction of the formation of glue pattern 90 mainly is subjected to the influence of the X-axis width W x of each head unit 80.

Yet, the problem of conventional glue spreader is, the radiating portion 821 of laser displacement sensor 82 and receiving unit 822 are arranged along X-direction, promptly are arranged to a row along the direction identical with the arranged direction of a plurality of head units 80, make the X-axis width W x of each head unit 80 increase.In addition, be used for being configured to the revolving force of rotation motor is delivered to nozzle 81 and laser displacement sensor 82 by cam along the Y-axis driver element that Y direction moves each nozzle 81 and laser displacement sensor 82, make complex structure, in addition, the rotating diameter of cam has increased the X-axis width W x of each head unit 80.

So, the problem of conventional glue spreader is, each head unit 80 that will have big X-axis width W x is applied to glue spreader, make when the stroke increase that forms head unit 80 when having closely spaced a plurality of pattern 90 therebetween, and the pattern 90 that can be applied to substrate is restricted.

The utility model content

Therefore, made the utility model in view of the problems referred to above that occur in the prior art, and the purpose of this utility model provides a kind of glue spreader, and this glue spreader minimizes between the glue discharge nozzle spacing along X-direction, therefore allows various patterns to be formed on the substrate efficiently.

To achieve these goals, the utility model provides a kind of glue spreader, and this glue spreader comprises: head unit, described head unit have and are used to discharge the nozzle of glue and are installed to head support member so that move horizontally along X-direction; Be arranged on the Y-axis driver element on the head unit, described Y-axis driver element comprises the coupling part that is used to produce along the direct drive part of the linear driving force of Y direction and is used for nozzle is connected with direct drive part, and the driving force of utilizing direct drive part is along the Y direction moving nozzle; And laser displacement sensor, described laser displacement sensor is arranged on the head unit to measure the spacing between substrate and the nozzle.

Laser displacement sensor comprises and is used to launch the radiating portion of laser and comprises receiving unit, this receiving unit is from the spaced apart preset space length of radiating portion and receive laser, radiating portion and receiving unit are along Y direction, promptly, be arranged to a row along direction perpendicular to the direction of arranging a plurality of head units.

Described glue spreader also comprises the X-axis driver element, and described X-axis driver element comprises the movable part that is fixed to head unit and be arranged on the head support member so that the stationary part that extends along X-direction, and along X-direction slip-on head unit.The movable part of X-axis driver element is different from adjacent movable part on the Z shaft position.

In addition, to achieve these goals, the utility model provides a kind of glue spreader, this glue spreader has and is installed to head support member so that the head unit that moves horizontally along X-direction and being arranged on the head unit to measure the laser displacement sensor of the spacing between glue discharge nozzle and the substrate, wherein, laser displacement sensor comprises and is used to launch the radiating portion of laser and comprises receiving unit that this receiving unit is from the spaced apart preset space length of radiating portion and receive laser.Radiating portion and receiving unit promptly along the direction perpendicular to the direction of arranging a plurality of head units, are arranged to a row along Y direction.

In addition, to achieve these goals, the utility model provides a kind of glue spreader, and this glue spreader comprises: a plurality of head units, and each head unit has the nozzle that is used to discharge glue; And a plurality of X-axis driver elements, described a plurality of X-axis driver elements are connected to head unit head support member and move horizontally head unit along X-direction.Wherein, each of X-axis driver element comprises the movable part that is fixed to head unit and comprises stationary part, this stationary part is arranged on the head support member so that along the X-direction extension, the movable part of X-axis driver element is different from adjacent movable part on Z axle (vertically) position.

Here, stationary part comprises a plurality of stationary parts that are mounted to the preset space length that is spaced apart from each other along Z-direction, and movable part is connected to different stationary parts with adjacent movable part.Simultaneously, head support member comprises guide member, and this guide member moves along the X-axis of X-direction extension and seeker unit.

Description of drawings

From detailed description below in conjunction with accompanying drawing, will more be expressly understood above and other purpose of the present utility model, feature and advantage, wherein:

Fig. 1 is the front view that the head unit of conventional glue spreader is shown;

Fig. 2 is the stereogram that illustrates according to the glue spreader of first embodiment of the present utility model;

Fig. 3 is the stereogram of head unit that the glue spreader of Fig. 2 is shown;

Fig. 4 illustrates the stereogram of Y-axis driver element from the state of the head unit separation of Fig. 3;

Fig. 5 is the stereogram that illustrates according to the glue spreader of second embodiment of the present utility model; And

Fig. 6 is the front view that the glue spreader of Fig. 5 is shown.

The specific embodiment

Hereinafter, glue spreader according to preferred implementation of the present utility model will be described with reference to the drawings.

＜the first embodiment 〉

Will be with reference to figs. 2 to 4 glue spreaders of describing according to first embodiment of the present utility model.

Fig. 2 is the stereogram that illustrates according to the glue spreader of first embodiment of the present utility model, and Fig. 3 is the stereogram of head unit that the glue spreader of Fig. 2 is shown, and Fig. 4 is the stereogram that the state that the Y-axis driver element separates from the head unit of Fig. 3 is shown.

As shown in Fig. 2 to 4, comprise pedestal 10, saddle 30, pair of L M (linearity) guide member 40, head support member 50, a plurality of head unit 60 and X-axis driver element 70 according to the glue spreader of first embodiment of the present utility model.Saddle 30 is fixed to pedestal 10, and wherein substrate 20 is placed on the saddle 30.LM guide member 40 is installed in the both sides of saddle 30 along Y direction.Head support member 50 is mounted to by this and extends to 40 supports of LM guide member and along X-direction.A plurality of head units 60 are installed to head support member 50.Each X-axis driver element 70 is promptly arranged the direction of a plurality of head units 60 except along X-direction, moves horizontally outside the head unit 60, and the head unit 60 that also is used for being associated is connected to head support member 50.

The first drive unit (not shown) can be arranged on the pedestal 10 with respect to pedestal 10 (Y direction) mobile saddle 30 forward and backward, and second drive unit 59 can be arranged on the head support member 50 with along LM guide member 40 slip-on head support members 50.When substrate 20 has big area, a plurality of head support members 50 can be set so that increase the efficient of glue pattern forming process.

As shown in Fig. 3 and 4, each head unit 60 comprises: the syringe 61 that is filled with glue; Nozzle 62, this nozzle are communicated with syringe 61 and discharge glue; Laser displacement sensor 63, this laser displacement sensor 63 are positioned to the spacing between adjacent nozzles 62 and gaging nozzle 62 and the substrate 20; Y-axis driver element 64, this Y-axis driver element 64 are along Y direction, promptly along the direction perpendicular to the direction of arranging a plurality of head units 60, moving nozzle 62 and laser displacement sensor 63; With Z axle driver element 65, this Z axle driver element 65 is along Z-direction moving nozzle 62 and laser displacement sensor 63.

Here, laser displacement sensor 63 comprises: the radiating portion 631 of emission laser; With receiving unit 632, this receiving unit 632 is from radiating portion 631 spaced apart preset distances and receive from substrate 20 laser light reflected.Radiating portion 631 and receiving unit 632 are arranged to a row along Y direction.

So, when the radiating portion 631 of laser displacement sensor 63 and receiving unit 632 when Y direction is arranged to a row, compare along the regular situation that X-direction is arranged to a row with receiving unit 822 with radiating portion 821, the X-axis width W x of each head unit 60 can reduce about 50%.Therefore, the X-axis space D n that is arranged between the adjacent nozzle 62 on a plurality of head units 60 can reduce.

Y-axis driver element 64 comprises: direct drive part 641, this direct drive part 641 are arranged on each head unit 60 and produce linear driving force along Y direction; With coupling part 642, this coupling part 62 is connected with laser displacement sensor 63 nozzle 62 with direct drive part 641.

Here, directly drive part has movable part and stationary part therein, and can comprise linear motor so that provide linear driving force by the electromagnetic interaction between movable part and the stationary part, perhaps can comprise rotation motor and ball-screw.

The coupling part 642 of Y-axis driver element 64 can comprise plate 643 and connecting rod 644.Nozzle 62 and laser displacement sensor 63 are fixed to plate 643.One end of connecting rod 644 is connected to plate 643, and the other end is connected to direct drive part 641, therefore driving force is delivered to plate 643 from direct drive part 641.Preferably, in order to reduce the X-axis width W x of each head unit 60, plate 643 comprises flat board, makes two surface towards X-direction.

In glue spreader according to first embodiment of the present utility model, be used for comprising direct drive part 641 linear driving force that this direct drive part 641 produces along Y direction along the Y-axis driver element 64 of Y direction moving nozzle 62 and laser displacement sensor 63.Therefore compare with the conventional glue spreader with rotation motor and cam, this structure has reduced the X-axis width W x of each head unit 60, has reduced as a plurality of head units 60 minimum spacing Dn between the adjacent nozzle 62 when near-earth is closer to each other as far as possible.

In glue spreader as above-mentioned structure according to first embodiment of the present utility model, the radiating portion 631 and the receiving unit 632 of laser displacement sensor 63 are arranged to a row along Y direction, and direct drive part 641 is applied to Y-axis driver element 64 so that along Y direction moving nozzle 62 and laser displacement sensor 63.This structure can reduce to be arranged on the minimum X-axis space D n between the nozzle 62 on a plurality of head units 60, therefore the various patterns that allow to have little space D p therebetween are formed on efficiently on the substrate 20 and are not limited to specific pattern form, and have reduced the stroke of each head unit 60.

＜the second embodiment 〉

Will be with reference to figure 5 and 6 glue spreaders of describing according to second embodiment of the present utility model.Those total elements of first and second embodiments will indicate identical Reference numeral, and will omit the detailed description of these elements at this.

Fig. 5 is the stereogram that illustrates according to the glue spreader of second embodiment of the present utility model, and Fig. 6 is the front view that the glue spreader of Fig. 5 is shown.

With reference to figure 5 and 6, in the glue spreader according to second embodiment of the present utility model, the X-axis driver element 70 that is used for moving along X-direction each head unit 60 comprises: stationary part 71, this stationary part 71 are installed to head support member 50 and extend along X-direction; With movable part 72, this movable part 72 is fixed to the gripper shoe 69 of each head unit 60 and inserts in the stationary part 71 to be connected to it.X-axis driver element 70 guides each head unit 60 by the electromagnetic interaction between stationary part 71 and the movable part 72 along the guide member of installing along the longitudinal direction of head support member 50 51, therefore along X-direction slip-on head unit 60.

Here, stationary part 71 comprises a plurality of stationary parts.Stationary part 71 is arranged to along the Z-direction preset space length that is spaced apart from each other.According to second embodiment of the present utility model, two stationary parts 71, promptly first stationary part 711 and second stationary part 712 are arranged on the upper and lower part of head support member 50 so that be spaced apart from each other preset space length.In addition, adjacent movable part 72 is arranged such that a movable part 72 is different from another movable part 72 on the Z shaft position.In other words, be connected to first stationary part 711 if be installed to the movable part 72 of a head unit 60, the movable part 72 that then is installed to adjacent head unit 60 is connected to second stationary part 712.

This structure allows adjacent head unit 60 to move and irrelevant with the width W d of each movable part 72 along X-direction, make head unit 60 near the influence that is not subjected to the width of movable part 72, and therefore head unit 60 near-earth is closer to each other as far as possible.In addition, can reduce as head unit space D h between the head unit 60 when near-earth is closer to each other as far as possible.As a result of, can reduce to be arranged on minimum spacing Dn between the nozzle 62 on the head unit 60.

Simultaneously, movable part 72 is designed to be suitable for the weight and the translational speed of head unit 60.Here, each movable part 72 can be designed to wideer than corresponding head unit 60.In this case, because the width of each movable part 72, a plurality of head units 60 are cannot minimum spacing closer to each other.Yet according to the utility model, adjacent movable part 72 is positioned at diverse location on Z-direction, has therefore overcome the problems referred to above.

So, according to the glue spreader of second embodiment of the present utility model be configured such that be arranged on one on the head unit 60 movable part 72 and be arranged on movable part 72 on the adjacent head unit 60 and be mounted on the Z shaft position and differ from one another, therefore reduced to be arranged on the minimum X-axis space D n between the nozzle 62 on a plurality of head units 60, be not limited to specific pattern form thereby the various patterns that have little space D p between the permission pattern are formed on the substrate 20 efficiently, and reduced the stroke of each head unit 60.

In according to of the present utility model as the glue spreader of above-mentioned structure, the radiating portion 631 and the receiving unit 632 of laser displacement sensor 63 are arranged to a row along Y direction, and directly drive part 641 is applied to Y-axis driver element 64 so that along Y direction moving nozzle 62 and laser displacement sensor 63, therefore make the X-axis width W x attenuation of each head unit 60, and reduce when a plurality of head units 60 minimum spacing between the nozzle 62 when near-earth is closer to each other as far as possible.Therefore, various patterns can be applied on the substrate 20, and can prevent the unnecessary stroke of each head unit 60.

In addition, be configured such that according to glue spreader of the present utility model being arranged on a movable part 72 on the head unit 60 differs from one another on the Z shaft position with the movable part 72 that is arranged on the adjacent head unit 60, has therefore reduced to be arranged on the minimum X-axis space D n between the nozzle 62 on a plurality of head units 60.Therefore, the various patterns that have little space D p between the pattern can be formed on efficiently on the substrate 20 and be not limited to specific pattern form, and can reduce the stroke of each head unit 60.

As mentioned above, the utility model provides a kind of glue spreader, this glue spreader realizes respectively having along X-direction the head unit of thin width, therefore minimize when a plurality of head units spacing between nozzle when near-earth is closer to each other as far as possible, so allow various patterns to be formed on the substrate efficiently and reduce the stroke of each head unit.

In addition, the utility model provides a kind of glue spreader, wherein be connected to head unit and be mounted on the Z shaft position with another movable part and differ from one another, therefore minimize the X-axis spacing between the nozzle along the movable part of X-direction slip-on head unit and contiguous aforementioned movable part.

Aforementioned embodiments of the present utility model can independently be implemented, and can make up these embodiments.Though disclose preferred implementation of the present utility model for illustrative purpose, but it will be understood by those skilled in the art that and to carry out various modifications, interpolation and substitute and do not depart from as disclosed scope and spirit of the present utility model in the appended claims.

Claims (8)

1. glue spreader is characterized in that comprising:

Head unit, described head unit have and are used to discharge the nozzle of glue and are installed to head support member so that move horizontally along X-direction;

The Y-axis driver element, described Y-axis driver element is arranged on the described head unit, comprise the coupling part that is used to produce along the direct drive part of the linear driving force of Y direction and is used for described nozzle is connected with described direct drive part, and utilize the driving force of described direct drive part to move described nozzle along Y direction; And

Laser displacement sensor, described laser displacement sensor are arranged on the described head unit to measure the spacing between substrate and the described nozzle.

2. glue spreader according to claim 1, wherein, described laser displacement sensor comprises:

Radiating portion, described radiating portion is used to launch laser;

Receiving unit, described receiving unit is from the spaced apart preset space length of described radiating portion and receive from the substrate laser light reflected, and described radiating portion and described receiving unit are arranged to a row along Y direction.

3. glue spreader according to claim 1 and 2 also comprises:

The X-axis driver element, the stationary part that described X-axis driver element comprises the movable part that is fixed to described head unit and is arranged on the described head support member and extends along X-direction, and move described head unit along X-direction, the described movable part of described X-axis driver element is different from adjacent movable part in the position of Z axle.

4. glue spreader, described glue spreader has: head unit, described head unit is installed to head support member so that move horizontally along X-direction; And laser displacement sensor, described laser displacement sensor is arranged on the described head unit with the spacing between gaging nozzle and the substrate, wherein

Described laser displacement sensor comprises:

Radiating portion, described radiating portion is used to launch laser; And

Receiving unit, described receiving unit is from the spaced apart preset space length of described radiating portion and receive from the substrate laser light reflected, and described radiating portion and described receiving unit are arranged to a row along Y direction.

5. glue spreader according to claim 4 also comprises:

The X-axis driver element, the stationary part that described X-axis driver element comprises the movable part that is fixed to described head unit and is arranged on the described head support member and extends along X-direction, and move described head unit along X-direction, the described movable part of described X-axis driver element is different from adjacent movable part in the position of Z axle.

6. glue spreader comprises:

A plurality of head units, each head unit has the nozzle that is used to discharge glue; And

A plurality of X-axis driver elements, described a plurality of X-axis driver elements are connected to described head unit head support member and move horizontally described head unit along X-direction, wherein

The stationary part that each of described X-axis driver element comprises the movable part that is fixed to described head unit and is arranged on the described head support member and extends along X-direction, the vertical position of the described movable part of described X-axis driver element is different from adjacent movable part.

7. glue spreader according to claim 6, wherein

Described stationary part comprises a plurality of stationary parts that are mounted to the preset space length that is spaced apart from each other along Z-direction, and

Described movable part is connected to different stationary parts with described adjacent movable part.

8. according to claim 6 or 7 described glue spreaders, wherein, described head support member comprises guide member, and described guide member is along the X-direction extension and guide the X-axis of described head unit to move.

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