WO2010121477A1 - 胶水除泡装置及除泡方法 - Google Patents

胶水除泡装置及除泡方法 Download PDF

Info

Publication number
WO2010121477A1
WO2010121477A1 PCT/CN2009/076030 CN2009076030W WO2010121477A1 WO 2010121477 A1 WO2010121477 A1 WO 2010121477A1 CN 2009076030 W CN2009076030 W CN 2009076030W WO 2010121477 A1 WO2010121477 A1 WO 2010121477A1
Authority
WO
WIPO (PCT)
Prior art keywords
glue
defoaming
bubble
guiding pipe
container
Prior art date
Application number
PCT/CN2009/076030
Other languages
English (en)
French (fr)
Inventor
范继良
杨明生
罗文超
Original Assignee
东莞宏威数码机械有限公司
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 东莞宏威数码机械有限公司 filed Critical 东莞宏威数码机械有限公司
Publication of WO2010121477A1 publication Critical patent/WO2010121477A1/zh

Links

Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01DSEPARATION
    • B01D19/00Degasification of liquids
    • B01D19/0042Degasification of liquids modifying the liquid flow
    • B01D19/0052Degasification of liquids modifying the liquid flow in rotating vessels, vessels containing movable parts or in which centrifugal movement is caused
    • B01D19/0057Degasification of liquids modifying the liquid flow in rotating vessels, vessels containing movable parts or in which centrifugal movement is caused the centrifugal movement being caused by a vortex, e.g. using a cyclone, or by a tangential inlet
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01DSEPARATION
    • B01D19/00Degasification of liquids
    • B01D19/02Foam dispersion or prevention

Definitions

  • the present invention relates to a glue defoaming device and a defoaming method, and more particularly to an apparatus and method for eliminating air bubbles in a bonding glue during production of an optical disc. Background technique
  • the optical disc Since its inception, the optical disc has become the mainstream of optical information recording media due to its high storage density, small size, long storage period, low cost, high compatibility and low error rate. It is the most popular optical storage media.
  • the optical disc is intended to cover home entertainment, computer and business intelligence in a single digital format. It is a relatively new generation of storage technology with large digital capacity and fast read and write speed.
  • the CD has long been supported by all electronics companies and computer hardware companies, movies and music studios, making it the most successful storage medium in the history of storage technology. With the popularization of multimedia technology, many audio-visual files have become larger and larger, and single-sided optical discs have been limited. Therefore, single-sided double-layer optical discs have emerged and have begun to occupy the market.
  • each step requires a high degree of attention, especially the bonding of the two substrates through the adhesive in the bonding station.
  • Two or more substrates are bonded to each other to obtain a complete optical data carrier, so bonding is a necessary process, and it is also one of the most difficult parts in the production process of optical disks, such as two substrates.
  • the thickness of the adhesive layer should be very consistent. Otherwise, improper bonding may cause defects such as bending, unbalance, misalignment, bubble formation in the adhesive layer, especially if bubbles appear during bonding, which will not only cause Poor adhesion is also possible, and waste sheets may be produced.
  • the bonding material is also an important factor affecting the generation of bubbles.
  • the prior art has made many improvements in the bonding process of the substrate, for example, by applying a quantitative feeding needle on one or two substrates, in the combined station.
  • the substrates are merged together, and then the dry glue is removed to remove the excess glue, and then the two substrates are bonded together.
  • This process avoids the generation of bubbles to a certain extent, but the control precision is high, and the operation is cautious.
  • the vacuum method may remove the volatile components in the hardener and cause the final mixing ratio to be incorrect. It may also cause a film on the surface of the glue to cause the internal bubbles to fail to run out.
  • the vacuum method may remove the volatile components in the hardener and cause the final mixing ratio to be incorrect. It may also cause a film on the surface of the glue to cause the internal bubbles to fail to run out.
  • the volume of the glue bucket is large, the bubble is removed by vacuuming, and the bubble at the bottom of the bucket is difficult to be sucked up in a short time; when the volume of the glue bucket is small, although defoaming can be performed in a short time, Unable to meet the needs of normal production.
  • Another object of the present invention is to provide a glue bubble removing method which has a good bubble eliminating effect, can meet a large number of production needs, and is easy to operate.
  • the technical solution of the present invention is: providing a glue defoaming device, the glue defoaming device comprising a heating device and a container, the heating device being mounted on the container, the heating device and the outside
  • the electrical connection further includes a defoaming mechanism, the defoaming mechanism includes a glue guiding pipe and a filtering device, and the glue guiding pipe has a glue pressure inlet and a glue pressure outlet, and the glue pressure of the glue guiding pipe
  • the outlet end has an arched circuit which is bent and convex, and the convex arcuate circuit is provided with a bubble discharging opening, and the filtering device is disposed at the bubble discharging opening of the convex arch circuit,
  • a glue guide tube is housed in the container.
  • the rubber guide tube has a spiral shape, and the spiral guide tube has a long process, and can effectively save space, so that the glue guide tube can be installed in a small container, and the glue is in the glue.
  • the lengthening of the flow in the spiral pipe will lengthen the heating of the glue, so that the bubbles in the glue can float above the inner wall of the spiral tube.
  • the glue defoaming method of the present invention comprises the following steps: (1) pressing glue from a glue inlet of a glue guide pipe into the glue guide pipe; (2) starting a heating device to heat the glue guide pipe; and (3) The glue that is pressed out from the glue outlet is collected.
  • the glue defoaming device of the present invention has a defoaming mechanism composed of a rubber guiding pipe and a filtering device, and the glue pressing end of the rubber guiding pipe of the defoaming mechanism has a bending convex An arched circuit, and a bubble discharging opening is formed on the convex arch circuit, and the glue to be defoamed is pressed into the rubber guiding pipe from the glue inlet of the rubber guiding pipe during use, and the rubber guiding pipe is heated Under the heating of the device, the movement of the glue pressed into the glue guide pipe is intensified, and the bubbles contained in the glue gradually float above the inner wall of the glue guide pipe, and flow along the inner wall of the glue guide pipe along with the glue to the glue pressure outlet.
  • the glue defoaming device of the invention has a good defoaming effect and can meet the needs of mass production.
  • the device has a simple structure and can be easily transplanted into various existing technical devices.
  • FIG. 1 is a schematic plan view showing the structure of a glue defoaming device of the present invention.
  • Figure 2 is a cross-sectional view taken along line A-A of Figure 1.
  • FIG. 3 is a flow chart of a method for defoaming glue using the glue defoaming device of the present invention. detailed description Embodiments of the present invention will now be described with reference to the drawings, in which like reference numerals represent like elements.
  • the glue defoaming device of the present invention comprises a heating device (not shown) and a container 30.
  • the heating device is mounted on the container 30, and the heating device is electrically connected to the outside.
  • the defoaming mechanism 50 includes a glue guiding pipe 10 and a filtering device 20, and the glue guiding pipe 10 has a glue pressing inlet 101 and a glue pressing port 102, and the glue of the guiding rubber pipe 10
  • the end of the pressure outlet 102 has an arched circuit 103 which is bent and convex.
  • the convex arch circuit 103 is provided with a bubble discharging opening 104.
  • the filtering device 20 is disposed on the convex arch circuit 103.
  • the glue guide pipe 10 is housed in the container 30.
  • the glue guiding pipe 10 is a spiral pipe, and the spiral guiding rubber pipe 10 can effectively save space while having a long process, so that the guiding rubber pipe 10 can be installed in the small container 30.
  • the lengthening of the glue in the spiral conduit 10 lengthens the time during which the glue is heated, so that the bubbles 41 in the glue can float sufficiently above the inner wall of the spiral guide tube 10.
  • the following step is used to heat the glue guiding pipe; and (S3) collecting the glue pressed out from the glue pressing port.
  • the defoaming process of the glue defoaming device of the present invention is described in detail.
  • the glue 40 to be defoamed is pressed from the screw guide pipe 10 by the glue pressure.
  • the inlet 101 is pressed into the spiral guide tube 10, and then the entire spiral guide tube 10 in the container 30 is heated by a heating device, so that the movement of the glue 40 pressed into the guide tube 10 is intensified, and the glue 40 is contained therein.
  • the bubble 41 gradually floats above the inner wall of the glue guiding pipe 10, and flows along the inner wall of the glue guiding pipe 10 with the glue 40 to the glue pressing port 102, and when the bubble 41 flows to the bubble discharging port opened on the arched circuit 103 At 104 o'clock, the bubble 41 is caused to be discharged from the filtering device 20 at the bubble discharging port 104; at the same time, the filtering device 20 can effectively prevent the glue 40 from being discharged together with the bubble 41, and also prevent the outside air from entering the guiding pipe 10.
  • the defoamed glue 40 is then pressed out through the glue pressure outlet 102 of the spiral guide pipe 10 for use. When glue is still needed, the glue 40 is continuously pressed. If the glue 40 is not required, the defoaming process is completed.
  • the glue defoaming device of the invention can be conveniently transplanted into the prior art equipment, for example, in the prior art
  • the glue supply device generally needs four sealing glue buckets, namely glue bucket, glue defoaming bucket, glue filter bucket and glue recycling bucket.
  • glue bucket glue defoaming bucket
  • glue filter bucket glue recycling bucket
  • glue recycling bucket glue recycling bucket
  • the glue 40 When the glue enters the glue defoaming device of the present invention from the filter barrel, the glue 40 is glued from the spiral glue guiding tube 10.
  • the pressure inlet 101 is pressed into the spiral guide tube 10, and then the entire spiral tube 10 in the container 30 is heated by a heating device, so that the movement of the glue 40 pressed into the guide tube 10 is intensified, resulting in glue.
  • the bubble 41 contained in the 40 gradually floats above the inner wall of the glue guiding pipe 10, and flows along the inner wall of the rubber guiding pipe 10 with the glue 40 to the glue pressing port 102, and when the bubble 41 flows to the arched circuit 103,
  • the bubble port 104 is discharged, the bubble 41 is caused to be discharged from the filter device 20 at the bubble discharge port 104, and the glue 40 is pushed out from the glue pressure outlet 102 of the screw guide pipe 10, and is put into the use bucket for use.
  • the glue guiding pipe 10 is a spiral pipe, and the spiral guiding pipe 10 has a long process, and can effectively save the occupied space, so that the guiding pipe 10 can be installed in the In the smaller container 30, the length of the glue 40 in the spiral conduit 10 is lengthened, which will lengthen the heating of the glue 40, so that the air bubbles 41 in the glue 40 can fully float above the inner wall of the spiral guide tube 10.
  • the filter device 20 is installed at the bubble discharge opening 104 of the convex arched circuit 103, which can effectively prevent the glue 40 from being discharged together with the bubble 41, and can also prevent outside air from entering the glue guide pipe 10. In turn, it effectively reduces the possibility of bubbles on the bonded disk and improves the yield of the disk.
  • the glue defoaming device of the present invention has a defoaming mechanism 50 composed of a glue guiding pipe 10 and a filtering device 20, and the glue pressing port 102 end of the rubber guiding pipe 10 of the defoaming mechanism 50 has a bent and convex arch.
  • a loop 103 is formed on the convex arched circuit 103, and the glue 40 to be defoamed is pressed into the glue conduit 10 from the glue inlet 101 of the glue conduit 10 during use.
  • the glue guide pipe 10 is heated by the heating device to intensify the movement of the glue 40 pressed into the glue guide pipe 10, so that the air bubbles 41 contained in the glue 40 gradually float above the inner wall of the glue guide pipe 10, and along the guide rubber.
  • the inner wall of the pipe 10 flows toward the glue pressure outlet 102 along with the glue, and when the bubble 41 flows to the bubble discharge opening 104 opened in the arched circuit 103, the bubble 41 is discharged from the bubble discharge port 104, thereby removing the glue 40.
  • the glue defoaming device of the invention has a good defoaming effect and can meet the needs of mass production.
  • the device has a simple structure and can be conveniently transplanted into various existing technical devices.
  • the glue defoaming device of the invention is not only suitable for eliminating bubbles in the glue water in the production of the optical disc, but also for defoaming the other viscous liquid.

Landscapes

  • Chemical & Material Sciences (AREA)
  • Chemical Kinetics & Catalysis (AREA)
  • Dispersion Chemistry (AREA)
  • Coating Apparatus (AREA)

Description

胶水除泡装置及除泡方法
技术领域
本发明涉及一种胶水除泡装置及除泡方法, 尤其涉及一种适用于光盘生产 时消除粘合用胶水中气泡的装置及方法。 背景技术
随着人们对信息需求的不断增加, 固有存储空间早已不能满足要求, 强大 的社会需求促使光电技术迅猛发展。 光盘自问世以来, 由于具有存储密度高、 体积小、 存储期限长、 成本低廉、 兼容性高以及错误率低等优点, 已成为目前 光学信息记录媒体的主流, 是最受欢迎的光存储媒体之一。 从技术上来说, 光 盘意在以一种单一的数字格式覆盖家庭娱乐、 电脑及商务情报等, 是比较新的 一代存储技术, 它具有较大数字容量, 且读写速度快。 现在光盘早已经得到了 来自所有电子企业和计算机硬件企业、 电影和音乐演播的支持, 成为存储技术 史上最成功的存储媒质。 随着多媒体技术的普及, 许多影音文件越来越大, 单 面光盘已经出现局限, 因此单面双层的光盘应运而生, 并开始占领市场。
在光盘的生产中控制、 模具成膜、 注塑、 金属化、 印刷、 测试等, 每一步 都需要高度的重视, 尤其将两个基片在粘合站中通过粘合胶粘合的环节。 将两 个或多个基片相互粘合, 才能得到完整的光学数据载体, 因此粘合是必要的工 艺, 它也是光盘等盘片生产过程中最困难的部分之一, 因为两个基片之间的粘 合层厚度要非常一致, 否则粘合不恰当会使碟片产生弯曲、 不平衡、 错误的排 列、 粘合层出现气泡等缺陷, 尤其粘合的过程中若出现气泡, 不仅会致使粘合 效果不佳, 还可能会产生废片, 而除了粘合工艺外, 粘合材料也是影响气泡产 生的重要因素。
为控制粘合层气泡的产生, 现有技术在基片的粘合工艺进行了诸多改进, 例如, 通过一个定量的给料针头涂布在一张或两张基片上, 在合并工位内将基 片合并在一起, 之后进去甩干工位将多余的胶水甩掉, 再将两个基片粘合起来, 这种工艺在一定程度上避免了气泡的产生, 但控制精度要求高, 动作小心翼翼, 速度慢; 为了减少气泡, 尤其是小气泡, 通常在粘合的两个基片中的一个, 尤 其是涂有胶水的基片上加一个静电场或在胶水表面喷射电荷以使胶水层带有静 电, 这样带有静电的胶水层在与另外一个基片粘合时, 通过电荷之间的吸引力 加强两者之间的粘合, 从而减少气泡的产生, 但静电在盘片上存留对后工序生 产会造成影响。
为了达到更有效减少气泡的目的, 除了对粘合工艺进行改进, 同时也需要 对用于粘合的胶水进行预先除泡处理, 保证胶水的质量, 使得基片粘合的质量 更高。 在原始的胶水除泡方法中, 常选用化学消除剂来消除气泡, 这种方法存 在的缺点有: 一是消除剂一般只能用来消除胶溶液表面的气泡, 对高粘度胶溶 液内的微小气泡, 因其浮力很小, 很难浮到溶液表面而不能消除; 二是消除剂 遗留参杂在胶溶液中, 会引起胶溶液变质, 形成细小颗粒状粒子, 会影响胶制 品的表面质量和光泽度。
现常用来除去胶水内气泡的方法主要有两种: 加热法和抽真空法。 釆用抽 真空方式可能会将硬化剂中的易挥发成分抽走而使得最后的混合比例不对, 还 可能导致胶水表面形成一层膜而导致内部气泡无法跑出。 另外, 当胶水桶的容 积较大时, 用抽真空法除泡, 桶底的气泡很难在短时间内抽上来; 当胶水桶的 容积较小时, 虽可以在短时间内进行除泡, 但是无法满足正常生产的需要。
因此, 急需一种具有良好消除气泡效果、 满足大量生产需要、 结构简单且 方便移植到现有技术的胶水除泡装置。 发明内容
本发明的目的在于提供一种具有良好消除气泡效果、 满足大量生产需要、 结构简单且方便移植到现有技术的胶水除泡装置。
本发明的另一目的在于提供一种具有良好消除气泡效果、 能满足大量生产 需要且操作简便的胶水气泡消除方法。
为实现上述目的, 本发明的技术方案为: 提供一种胶水除泡装置, 所述胶 水除泡装置其包括加热装置及容器, 所述加热装置安装于所述容器上, 所述加 热装置与外界电性连接, 其还包括除泡机构, 所述除泡机构包括导胶管道及过 滤装置, 所述导胶管道具有胶水压入口及胶水压出口, 所述导胶管道的胶水压 出口端具有弯折呈凸起的拱形回路, 所述凸起的拱形回路上开设有排泡口, 所 述过滤装置设置于所述凸起的拱形回路的排泡口处, 所述导胶管道容置于所述 容器内。
较佳地, 所述导胶管道呈螺旋状, 呈螺旋状的导胶管在具有较长流程的同 时, 还可以有效的节约占用空间, 使得导胶管道可以安装在较小的容器内, 胶 水在螺旋管道中的流程加长, 将使得胶水被加热的时间加长, 致使胶水中的气 泡能充分的浮在螺旋管内壁上方。
本发明胶水除泡方法, 其包括如下步骤: ( 1 )将胶水从导胶管道的胶水压 入口压入所述导胶管道内; (2 )启动加热装置对所述导胶管道加热; 及(3 )收 集从所述胶水压出口压出的胶水。
本发明与现有技术相比, 由于本发明胶水除泡装置具由导胶管道及过滤装 置组成的除泡机构, 且所述除泡机构的导胶管道的胶水压出口端具有弯折呈凸 起的拱形回路, 并且在所述凸起的拱形回路上开设有排泡口, 使用时待除泡的 胶水从导胶管道的胶水压入口被压入导胶管道内, 导胶管道在加热装置的加热 下, 使得压入到导胶管道内的胶水运动加剧, 导致胶水内含有的气泡逐步浮至 导胶管道的内壁上方, 并沿着导胶管道的内壁随胶水一起往胶水压出口流动, 当气泡流动到拱形回路上开设的排泡口时, 致使气泡从排泡口处被排出, 从而 达到对胶水除泡的目的; 另由于排泡口处还具有过滤装置, 所述过滤装置能有 效的阻止胶水随气泡一同被排出, 同时也能防止外界空气的进入。 因此, 本发 明胶水除泡装置具有良好的除泡效果, 并能够满足大量生产的需要, 该装置结 构简单, 可方便的移植到现有的各种技术设备中。 附图说明
图 1是本发明胶水除泡装置的俯视的结构示意图。
图 2是沿图 1中 A-A线的剖视图。
图 3是利用本发明胶水除泡装置进行胶水除泡的方法的流程图。 具体实施方式 现在参考附图描述本发明的实施例, 附图中类似的元件标号代表类似的元 件。
如图 1及图 2所示, 本发明胶水除泡装置, 其包括加热装置(图未示)及 容器 30, 所述加热装置安装于所述容器 30上, 所述加热装置与外界电性连接, 其还包括除泡机构 50, 所述除泡机构 50包括导胶管道 10及过滤装置 20, 所述 导胶管道 10具有胶水压入口 101及胶水压出口 102,所述导胶管道 10的胶水压 出口 102端具有弯折呈凸起的拱形回路 103 ,所述凸起的拱形回路 103上开设有 排泡口 104,所述过滤装置 20设置于所述凸起的拱形回路 103的排泡口 104处, 所述导胶管道 10容置于所述容器 30内。 其中, 导胶管道 10为螺旋管道, 呈螺 旋状的导胶管道 10在具有较长流程的同时, 还可以有效的节约占用的空间, 使 得导胶管道 10可以安装在较小的容器 30内,胶水在螺旋管道 10中的流程加长, 将使得胶水被加热的时间加长, 致使胶水中的气泡 41能充分的浮在螺旋状导胶 管 10内壁上方。
如图 3 所示, 利用本发明胶水除泡装置消除胶水中的气泡时, 包括如下步 热装置对所述导胶管道加热; 及(S3 )收集从所述胶水压出口压出的胶水。
结合图 1、 图 2及图 3 , 对本发明胶水除泡装置除泡过程进行详细说明, 当 胶水除泡装置进入正常工作状态后, 将要待除泡的胶水 40从螺旋导胶管道 10 的胶水压入口 101压入螺旋导胶管道 10内, 然后利用加热装置对容器 30中的 螺旋导胶管道 10整体进行加热处理, 使得压入到导胶管道 10内的胶水 40运动 加剧, 导致胶水 40内含有的气泡 41逐步浮至导胶管道 10的内壁上方, 并沿着 导胶管道 10的内壁随胶水 40—起往胶水压出口 102流动, 当气泡 41流动到拱 形回路 103上开设的排泡口 104时,致使气泡 41从排泡口 104处的过滤装置 20 被排出; 同时过滤装置 20能有效的阻止胶水 40随气泡 41一同被排出, 也能防 止外界空气进入导胶管道 10内。 经过除泡处理的胶水 40再经过螺旋导胶管道 10的胶水压出口 102压出以备使用, 当还需要胶水时, 继续压入胶水 40, 如果 不需要胶水 40, 则完成除泡过程。
本发明胶水除泡装置, 可以方便的移植到现有技术设备中, 例如在现有技 术中, 胶水供应装置一般需要四个密封胶水桶, 即胶水使用桶、 胶水除泡桶、 胶水过滤桶及胶水回收桶, 使用时, 将胶水压入过滤桶进行过滤处理后, 在进 入除泡桶进行除泡处理, 之后进入使用桶中备用, 回收桶用来盛放回收的胶水。 在这种设备中, 可以将本发明胶水除泡装置移植并替换上述胶水除泡桶, 当胶 水由过滤桶进入本发明所述胶水除泡装置后, 将胶水 40从螺旋导胶管道 10的 胶水压入口 101压入所述螺旋状的导胶管道 10内,然后利用加热装置对容器 30 中的整个螺旋管道 10进行加热处理, 使得压入到导胶管道 10内的胶水 40运动 加剧, 导致胶水 40内含有的气泡 41逐步浮至导胶管道 10的内壁上方, 并沿着 导胶管道 10的内壁随胶水 40—起往胶水压出口 102流动, 当气泡 41流动到拱 形回路 103上开设的排泡口 104时,致使气泡 41从排泡口 104处的过滤装置 20 被排出, 再将胶水 40从所述螺旋导胶管道 10的胶水压出口 102压出, 进入使 用桶中备用。 在本发明胶水除泡装置中, 导胶管道 10为螺旋管道, 呈螺旋状的 导胶管道 10在具有较长流程的同时, 还可以有效的节约占用的空间, 使得导胶 管道 10可以安装在较小的容器 30内, 胶水 40在螺旋管道 10中的流程加长, 将使得胶水 40被加热的时间加长, 致使胶水 40中的气泡 41能充分的浮在螺旋 状导胶管 10内壁上方。过滤装置 20安装在呈凸起的拱形回路 103的排泡口 104 处, 能有效的阻止胶水 40随气泡 41一同被排出, 也能防止外界空气进入导胶 管道 10内。进而有效减少粘合磁盘出现气泡的可能性,提高磁盘生产的良品率。
本发明胶水除泡装置由于具有由导胶管道 10及过滤装置 20组成的除泡机 构 50, 且所述除泡机构 50的导胶管道 10的胶水压出口 102端具有弯折呈凸起 的拱形回路 103 , 并且在所述凸起的拱形回路 103上开设有排泡口 104, 使用时 待除泡的胶水 40从导胶管道 10的胶水压入口 101被压入导胶管道 10内, 导胶 管道 10在加热装置的加热下, 使得压入到导胶管道 10内的胶水 40运动加剧, 导致胶水 40内含有的气泡 41逐步浮至导胶管道 10的内壁上方, 并沿着导胶管 道 10的内壁随胶水一起往胶水压出口 102流动, 当气泡 41流动到拱形回路 103 上开设的排泡口 104时, 致使气泡 41从排泡口 104处被排出, 从而达到对胶水 40除泡的目的; 另由于排泡口 104处还具有过滤装置 20, 所述过滤装置 20能 有效的阻止胶水 40随气泡 41一同被排出, 同时也能防止外界空气的进入过滤 装置 20内。 因此, 本发明胶水除泡装置具有良好的除泡效果, 并能够满足大量 生产的需要, 该装置结构简单, 可方便的移植到现有的各种技术设备中。
本发明胶水除泡装置不仅适用于光盘生产中消除胶水中的气泡, 还可以用 于对其他粘稠状的液体进行除泡处理。
本发明胶水除泡装置所涉及的过滤装置及加热装置的工作原理, 均为本领 域普通技术人员所熟知, 在此不再做详细的说明。
以上所揭露的仅为本发明的优选实施例而已, 当然不能以此来限定本发明 之权利范围, 因此依本发明申请专利范围所作的等同变化, 仍属本发明所涵盖 的范围。

Claims

1.一种胶水除泡装置, 包括加热装置及容器, 所述加热装置安装于所述容器上, 所述加热装置与外界电性连接, 其特征在于: 还包括除泡机构, 所述除泡机构 包括导胶管道及过滤装置, 所述导胶管道具有胶水压入口及胶水压出口, 所述 导胶管道的胶水压出口端具有弯折呈凸起的拱形回路, 所述凸起的拱形回路上 开设有排泡口, 所述过滤装置权设置于所述凸起的拱形回路的排泡口处, 所述导 胶管道容置于所述容器内。
2.如权利要求 1所述的胶水除泡装置, 其特征在于: 所述导胶管道呈螺旋状。
3.如权利要求 1所述的胶水除泡装置, 其特征在求于: 所述排泡口开设于所述拱形 回路的顶端。
4.一种使用如权利要求 1所述的胶水除泡装置的除泡方法, 其特征在于, 包括如 下步骤:
( 2 )启动加热装置对所述导胶管道加热; 及
PCT/CN2009/076030 2009-04-24 2009-12-25 胶水除泡装置及除泡方法 WO2010121477A1 (zh)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
CN200910038970.X 2009-04-24
CN200910038970XA CN101537269B (zh) 2009-04-24 2009-04-24 胶水除泡装置及除泡方法

Publications (1)

Publication Number Publication Date
WO2010121477A1 true WO2010121477A1 (zh) 2010-10-28

Family

ID=41120797

Family Applications (1)

Application Number Title Priority Date Filing Date
PCT/CN2009/076030 WO2010121477A1 (zh) 2009-04-24 2009-12-25 胶水除泡装置及除泡方法

Country Status (2)

Country Link
CN (1) CN101537269B (zh)
WO (1) WO2010121477A1 (zh)

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN111045402A (zh) * 2019-11-15 2020-04-21 福士瑞精密工业(郑州)有限公司 中控终端及其控制方法、中间设备及计算机存储介质
CN113448113A (zh) * 2021-06-28 2021-09-28 深圳市创裕达电子有限公司 一种液晶显示屏与背板粘合方法

Families Citing this family (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101537269B (zh) * 2009-04-24 2011-05-11 东莞宏威数码机械有限公司 胶水除泡装置及除泡方法
TW201307162A (zh) * 2011-08-04 2013-02-16 mei-zhen Liu 一種光學材貼合膠層水壓脫泡裝置結構與水壓脫泡之方法
CN103105481B (zh) * 2012-12-31 2014-12-03 上海九星印刷包装有限公司 粘合喷胶在线自动检测和消泡方法
CN109364570B (zh) * 2018-12-19 2021-02-02 武汉华星光电半导体显示技术有限公司 一种过滤装置及过滤方法

Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH0271804A (ja) * 1988-09-05 1990-03-12 Fujitsu Ltd 真空脱泡装置
JP2007054680A (ja) * 2005-08-22 2007-03-08 Nagoya Institute Of Technology 粘性流体に含まれる気泡の除去方法
CN1982340A (zh) * 2005-12-16 2007-06-20 天津科技大学 高粘度乳胶溶液中微小气泡的消除方法
CN201098566Y (zh) * 2007-08-24 2008-08-13 山东彼岸电力科技有限公司 一种高粘度液体硅橡胶的真空脱气装置
DE102007000709A1 (de) * 2007-09-07 2009-03-12 Voith Patent Gmbh Vorrichtung zum Entgasen von flüssigem oder pastösem Medium
CN101537269A (zh) * 2009-04-24 2009-09-23 东莞宏威数码机械有限公司 胶水除泡装置及除泡方法

Patent Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH0271804A (ja) * 1988-09-05 1990-03-12 Fujitsu Ltd 真空脱泡装置
JP2007054680A (ja) * 2005-08-22 2007-03-08 Nagoya Institute Of Technology 粘性流体に含まれる気泡の除去方法
CN1982340A (zh) * 2005-12-16 2007-06-20 天津科技大学 高粘度乳胶溶液中微小气泡的消除方法
CN201098566Y (zh) * 2007-08-24 2008-08-13 山东彼岸电力科技有限公司 一种高粘度液体硅橡胶的真空脱气装置
DE102007000709A1 (de) * 2007-09-07 2009-03-12 Voith Patent Gmbh Vorrichtung zum Entgasen von flüssigem oder pastösem Medium
CN101537269A (zh) * 2009-04-24 2009-09-23 东莞宏威数码机械有限公司 胶水除泡装置及除泡方法

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN111045402A (zh) * 2019-11-15 2020-04-21 福士瑞精密工业(郑州)有限公司 中控终端及其控制方法、中间设备及计算机存储介质
CN113448113A (zh) * 2021-06-28 2021-09-28 深圳市创裕达电子有限公司 一种液晶显示屏与背板粘合方法

Also Published As

Publication number Publication date
CN101537269A (zh) 2009-09-23
CN101537269B (zh) 2011-05-11

Similar Documents

Publication Publication Date Title
WO2010121477A1 (zh) 胶水除泡装置及除泡方法
CN105921431B (zh) 一种转印板清洗设备及其清洗方法
JP4919665B2 (ja) 液状物質供給装置
JPS6251725B2 (zh)
CN101884971B (zh) 一种光学胶的涂胶装置及涂胶方法
CN1591632A (zh) 用于制造压模的方法、压模及光记录介质
CN218686785U (zh) 一种转化液浓缩处理装置
CN1467515A (zh) 高分子光导波管制造方法
CN105251241A (zh) 除泡系统
CN105771817A (zh) 浆态床反应器中催化剂与重质烃的分离装置及方法
CN201404716Y (zh) 管路式胶水除泡装置
CN102081938B (zh) 胶水供给装置及供给方法
CN201988493U (zh) 胶水供给装置
CN204543652U (zh) 一种蓝光光盘(bd)粘合剂用过滤脱泡装置
CN205269498U (zh) 一种用于空气净化器检测的气态污染物发生器
CN102841213B (zh) 无动力顺序进样的微流体自动进样装置及应用
US20130101827A1 (en) Optical curable resin composite for laminating optical substrates and method thereof
CN213435355U (zh) 一种用于光盘生产的涂胶均匀型旋涂装置
TWI526255B (zh) Method and apparatus for removing bubbles from substrate
TWI252485B (en) Optical disc adherence method
CN109999610A (zh) 一种蜂窝活性炭空气净化装置
CN201199449Y (zh) 车载汉显数码音响播放机
CN100587821C (zh) 旋涂温控装置及方法
JPH1139734A (ja) 光学記録媒体の製造方法
CN211781187U (zh) 一种蒸汽锅炉用低氮排放装置

Legal Events

Date Code Title Description
121 Ep: the epo has been informed by wipo that ep was designated in this application

Ref document number: 09843581

Country of ref document: EP

Kind code of ref document: A1

NENP Non-entry into the national phase

Ref country code: DE

122 Ep: pct application non-entry in european phase

Ref document number: 09843581

Country of ref document: EP

Kind code of ref document: A1