WO2021135123A1 - 一种用于防尘结构的料带 - Google Patents
一种用于防尘结构的料带 Download PDFInfo
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- WO2021135123A1 WO2021135123A1 PCT/CN2020/099325 CN2020099325W WO2021135123A1 WO 2021135123 A1 WO2021135123 A1 WO 2021135123A1 CN 2020099325 W CN2020099325 W CN 2020099325W WO 2021135123 A1 WO2021135123 A1 WO 2021135123A1
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- dust
- proof
- proof structure
- structures
- material belt
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65D—CONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
- B65D73/00—Packages comprising articles attached to cards, sheets or webs
- B65D73/02—Articles, e.g. small electrical components, attached to webs
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H41/00—Machines for separating superposed webs
Definitions
- the present invention relates to the field of acousto-electric technology, and more specifically, to a material belt used for a dust-proof structure.
- the dust-proof structure is a small device that is manufactured in large quantities at the same time.
- multiple dust-proof structures are formed from a complete material belt, and the multiple dust-proof structures are manufactured in the same batch and transferred to a set position.
- An object of the present invention is to provide a new technical solution for the material belt of the dust-proof structure.
- a material belt for a dust-proof structure including:
- a plurality of dust-proof structures comprising a membrane body and a carrier connected to the membrane body;
- a grid structure is provided on the membrane body, a through hole is formed in the middle of the carrier, and the grid structure covers one end of the through hole;
- a plurality of connecting bars are formed to connect between the plurality of dust-proof structures, so that the plurality of dust-proof structures form an array.
- the connecting strip is arranged on the membrane body to form a connection between a plurality of dust-proof structures.
- the connecting strip is arranged at the position of the midpoint of each side of the film body.
- the connecting strips are arranged at the positions of the corners of the film body.
- the outermost ring of the array formed by a plurality of the dust-proof structures is also provided with the connecting strip.
- the connecting strip is arranged on the carrier to form a connection between a plurality of dust-proof structures.
- the material of the carrier is a metal material or an organic material.
- the connecting strip is arranged at the position of the midpoint of each side of the carrier.
- the connecting strip is also provided on the outermost ring of the plurality of dust-proof structures forming an array; the outermost ring of the plurality of dust-proof structures forming an array is also provided with a metal frame, which surrounds the outermost ring The connecting strips are all fixed to the metal frame.
- the connecting bar is connected to a plurality of the dust-proof structures by a welding method to form an array.
- the structural strength of the array formed by the dust-proof structures is enhanced, and the problems of disordered positions of the dust-proof structures and damage to the device structure during the manufacturing process are avoided.
- Fig. 1 is a schematic structural diagram of a dust-proof structure in an embodiment of the present disclosure.
- Fig. 2 is a schematic structural diagram of connecting strips arranged between dust-proof structures in an embodiment of the present disclosure.
- Fig. 3 is a schematic diagram of a structure in which connecting strips are arranged in the middle of each side of the membrane body in an embodiment of the present disclosure.
- Fig. 4 is a schematic structural diagram of a connecting strip provided at each corner of the film body in an embodiment of the present disclosure.
- Fig. 5 is a schematic diagram of a structure in which connecting bars are arranged in the middle of each side of the carrier in an embodiment of the present disclosure.
- Fig. 6 is a schematic structural diagram of a metal frame provided outside the connecting bars in the middle of each side of the carrier in an embodiment of the present disclosure.
- 1 is a membrane body
- 11 is a grid structure
- 2 is a carrier
- 3 is a connecting bar
- 4 is a metal frame.
- a material belt for a dust-proof structure is provided, as shown in FIGS. 1 and 2, which is a view viewed from the film body side of the dust-proof structure array.
- the material belt includes: a plurality of dust-proof structures, the dust-proof structure includes a membrane body 1 and a carrier 2 connected to the membrane body 1; the membrane body 1 is provided with a grid structure 11, and the carrier 2 A through hole is formed in the middle, and the grid structure 11 covers one end of the through hole; a plurality of connecting bars 3, and the plurality of connecting bars 3 form a connection between the plurality of dust-proof structures, so that the plurality of The dust-proof structure forms an array.
- connecting strips 3 are arranged between the dust-proof structures on the material belt, and the connecting strips 3 connect the dust-proof structures together to form an array.
- the connecting strip 3 may be a metal material.
- the connecting strip effectively maintains the array structure among the dust-proof structures. It can prevent the dust-proof structure from being disordered and overlapping in the process of separating from the material belt.
- the connecting strip 3 is arranged on the film body 1 to form a connection between a plurality of dust-proof structures.
- the dust-proof structures are connected by arranging connecting strips 3 on the membrane body 1.
- the film body 1 is formed by the metal layer on the strip.
- the connecting strip 3 and the film body 1 are made of the same material.
- the connecting bars connected between the film bodies 1 can be formed in the process of forming the film bodies 1 by, for example, photolithography.
- the connecting strip 3 formed in this way can not only maintain the structural strength between the dust-proof structures during the separation process, but also facilitate the disconnection of the connection between the dust-proof structures when the dust-proof structure is prevented from reaching the set position.
- Fig. 3 it is a view viewed from the side of the membrane body of the dust-proof structure array.
- the connecting strip 3 is arranged at the position of the midpoint of each side of the film body 1.
- a connecting strip 3 is provided at the midpoint of each side of each membrane body 1 for connection.
- the film body 1 is projected as a square on the material belt, and the connecting bar 3 connects the film bodies 1 from the end points of each side, so that the dust-proof structure forms an array.
- the connecting strip 3 is arranged at the midpoint of each side to provide reliable connection strength. In this way, when the dust-proof structure is separated from the material belt, the distance between the dust-proof structures can be effectively maintained, and there will be no overlap or misalignment between the dust-proof structures.
- Fig. 4 it is a view viewed from the side of the membrane body of the dust-proof structure array.
- the connecting strips 3 are arranged at the positions of the corners of the film body 1.
- connecting strips 3 are provided at each corner of each film body 1 for connection.
- the film body 1 is projected as a square on the tape, and the connecting strips 3 connect the film bodies 1 on a plurality of dust-proof structures from the corners of the film body 1, so that the dust-proof structures form an array.
- the connecting strips 3 are arranged on each corner of the film body 1 to connect the film body 1 from different directions, improve the stability of the connection between the dust-proof structures, and can effectively maintain the distance between the dust-proof structures. In this way, when the dust-proof structure is separated from the material belt, there will be no overlap or misalignment between the dust-proof structures.
- the outermost ring of the array formed by the plurality of dust-proof structures is also provided with the connecting strip 3.
- Connecting strips 3 are also connected to the outermost ring of the dust-proof structure, for example, connecting strips are connected to the outermost ring of the membrane body of the dust-proof structure.
- the outermost connecting strip 3 can be used as an electrode in the electroplating process in the process of manufacturing the dust-proof structure, so that no additional electroplated electrode is required. It is more convenient to carry out the manufacturing process.
- the connecting strip 3 is arranged on the carrier 2 to form a connection between a plurality of dust-proof structures.
- the carriers 2 are connected together by arranging connecting strips on the carrier 2, so that the dust-proof structure forms an array.
- the film body 1 is close to the material belt, and the carrier 2 is facing away from the material belt.
- the connecting strip 3 is arranged on the carrier 2, and the operation of setting the connecting strip is more convenient and can simplify the process.
- the connecting strips 3 arranged between the carriers 2 form a stable connection between the dust-proof structures, so that when the dust-proof structure array is separated from the material belt, the material belt will not pull the dust-proof structure due to the incomplete removal of the sacrificial layer. . Effectively avoid the structure overlap and damage caused by the separation of the dust-proof structure and the material belt.
- the purpose of transferring the dust-proof structure to the UV tape is to prevent the dust-proof structure from being scattered from the material belt and overlapping between the dust-proof structures.
- the carrier 2 on the dust-proof structure is adhered to the UV tape.
- the connecting strip 3 After the carriers 2 are connected together by the connecting strip 3, a stable connection is formed between the carriers 2, and the dust-proof structure will not be scattered and overlapped. This can reduce the steps of transferring the dust-proof structure to the UV tape in the process of manufacturing the dust-proof structure. Effectively optimize the entire manufacturing process, mentioning manufacturing efficiency.
- the dust-proof structure needs to be removed from the UV tape.
- a certain force needs to be applied to the dust-proof structure. If the applied force is too large, it will be damaged. If the applied force is too small, the dust-proof structure cannot be removed smoothly.
- the connecting strips 3 are arranged between the carriers 2, there is no need to perform the steps of removing the dust-proof structure from the UV tape. The steps are reduced and the time required for the process is saved. The damage to the dust-proof structure is avoided, and the yield is improved.
- the material of the carrier 2 is a metal material or an organic material.
- the carrier 2 is made of a metal material, which has high strength and can prevent the dust-proof structure from being damaged when it is separated from the material belt.
- the carrier 2 of metal material can make electrical connections between the connecting bars. This makes the electroplating process easier.
- the carrier 2 may also be an organic material, which is lighter in weight and can reduce the weight of the dust-proof structure. More optional materials, low material cost.
- FIG. 5 it is a view viewed from the carrier side of the dust-proof structure array.
- the connecting strip 3 is arranged at the position of the midpoint of each side of the carrier 2.
- the connecting strips 3 are arranged at the positions of the midpoints of the sides of the carrier 2 to make the connections between the carriers 2 neat, so that the structure between the dust-proof structures forming the array is more stable. It can avoid overlapping and damage when the dust-proof structure is separated from the material belt.
- connecting strips 3 are arranged between the carriers 2 to fix each dust-proof structure in an array. In this way, it is not necessary to transfer the dust-proof structure to the UV tape before separating the dust-proof structure from the material belt.
- the carrier 2 that can be fixed by the connecting strip 3 serves the fixing function of the UV tape.
- the purpose of transferring the dust-proof structure to the UV tape is to prevent the dust-proof structure from being scattered from the material belt, and the dust-proof structures overlap.
- the connecting strip 3 After the carriers 2 are connected together by the connecting strip 3, a stable connection is formed between the carriers 2, and the dust-proof structure will not be scattered and overlapped. This can reduce the steps of transferring the dust-proof structure to the UV tape in the process of manufacturing the dust-proof structure. Effectively optimize the entire manufacturing process, mentioning manufacturing efficiency.
- FIG. 6 it is a view viewed from the carrier side of the dust-proof structure array.
- the outermost ring of the plurality of dust-proof structures forming an array is also provided with the connecting strip 3; the outermost ring of the plurality of dust-proof structures forming an array is also provided with a metal frame 4, which surrounds the outermost ring
- the connecting bars 3 are all fixed to the metal frame 4.
- a metal frame 4 is fixed on a plurality of connecting strips 3 arranged around the outermost circle of the dust-proof structure array, so that the entire dust-proof structure array is fixed on the metal frame 4.
- the metal frame 4 has a high structural strength. After the connecting strip 3 of the outermost ring is fixed to the metal frame 4, the metal frame 4 provides a stable support for the dust-proof structure array.
- the metal frame 4 After the metal frame 4 is provided, there is no need to transfer the dust-proof structure to the UV tape during the manufacturing process.
- the stable support provided by the metal frame 4 can maintain the structural stability between the dust-proof structures.
- the dust-proof structure After the sacrificial layer is removed, the dust-proof structure is separated from the material belt. Due to the support provided by the metal frame 4, the dust-proof structures will not be scattered or overlapped. This makes it easier to transfer the dust-proof structure to the set position.
- the metal frame 4 supports the array of dust-proof structures, and there is no need to transfer the dust-proof structure to the UV tape.
- the dust-proof structure needs to be removed from the UV tape and placed in a set position, and a certain pulling force needs to be applied to the dust-proof structure.
- damage to the dust-proof structure caused by excessive pulling force may occur.
- the process steps of transferring the dust-proof structure to the UV tape are not required, and the damage of the dust-proof structure can be effectively avoided.
- the connecting bar 3 is connected to a plurality of the dust-proof structures by a welding method to form an array.
- the connecting strip 3 When the connecting strip 3 is arranged between the dust-proof structure, it can also be fixed by welding.
- the connecting bar 3 and the dust-proof structure are fixed by a welding process of laser irradiation.
- Such a fixing method is more convenient, and is suitable for a small-volume structure such as a dust-proof structure.
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Abstract
一种用于防尘结构的料带,包括:多个防尘结构,防尘结构包括膜体(1)以及与膜体(1)连接的载体(2);膜体(1)上设置有网格结构(11),载体(2)的中部形成有通孔,网格结构(11)覆盖通孔的一端;多个连接条(3),多个连接条(3)在多个防尘结构间形成连接,以使多个防尘结构形成阵列。通过在防尘结构间设置连接条(3),增强了防尘结构形成的阵列的结构强度,避免在制造过程中出现的防尘结构间位置错乱,器件结构被损坏的问题。
Description
本发明涉及声电技术领域,更具体地,涉及一种用于防尘结构的料带。
防尘结构是一种体积微小的器件,是同时大批量的制造。在制造的过程中,从一个完整的料带上形成多个防尘结构,将多个防尘结构同批次制造并转移放置到设定的位置上。
例如,在转印的过程中,需要将牺牲层去除以及将防尘结构转印在UV胶带上。去除牺牲层的过程中会出现去除不彻底或过度的情况,导致转印到UV胶带上的多个防尘结构间出现位置重叠、位置错乱和结构损坏的情况。
因此,需要一种新的技术方案,以解决上述技术问题。
发明内容
本发明的一个目的是提供一种用于防尘结构的料带的新技术方案。
根据本发明的第一方面,提供了一种用于防尘结构的料带,包括:
多个防尘结构,所述防尘结构包括膜体以及与膜体所述连接的载体;
所述膜体上设置有网格结构,所述载体的中部形成有通孔,所述网格结构覆盖所述通孔的一端;
多个连接条,多个所述连接条在多个所述防尘结构间形成连接,以使多个所述防尘结构形成阵列。
可选地,所述连接条设置在所述膜体上,以在多个防尘结构间形成连接。
可选地,所述连接条设置在所述膜体的各边中点所在位置。
可选地,所述连接条设置在所述膜体的各角所在位置。
可选地,多个所述防尘结构形成阵列的最外圈也设置有所述连接条。
可选地,所述连接条设置在所述载体上,以在多个防尘结构间形成连接。
可选地,所述载体的材料为金属材料或有机材料。
可选地,所述连接条设置在所述载体的各边中点所在位置。
可选地,在多个所述防尘结构形成阵列的最外圈也设置有所述连接条;多个所述防尘结构形成阵列的最外圈还设置有金属框架,围绕最外圈的所述连接条均与所述金属框固定。
可选地,所述连接条通过焊接的方法连接多个所述防尘结构,以形成阵列。
根据本公开的一个实施例,通过在防尘结构间设置连接条,增强了防尘结构形成的阵列的结构强度,避免在制造过程中出现的防尘结构间位置错乱,器件结构被损坏的问题。
通过以下参照附图对本发明的示例性实施例的详细描述,本发明的其它特征及其优点将会变得清楚。
被结合在说明书中并构成说明书的一部分的附图示出了本发明的实施例,并且连同其说明一起用于解释本发明的原理。
图1是本公开一个实施例中的防尘结构的结构示意图。
图2是本公开一个实施例中的防尘结构间设置连接条的结构示意图。
图3是本公开一个实施例中的膜体各边的中部设置连接条的结构示意图。
图4是本公开一个实施例中的膜体各角设置连接条的结构示意图。
图5是本公开一个实施例中的载体各边的中部设置连接条的结构示意图。
图6是本公开一个实施例中的载体各边中部的连接条外设置金属框架的结构示意图。
图中,1为膜体,11为网格结构,2为载体,3为连接条,4为金属框架。
现在将参照附图来详细描述本发明的各种示例性实施例。应注意到:除非另外具体说明,否则在这些实施例中阐述的部件和步骤的相对布置、数字表达式和数值不限制本发明的范围。
以下对至少一个示例性实施例的描述实际上仅仅是说明性的,决不作为对本发明及其应用或使用的任何限制。
对于相关领域普通技术人员已知的技术、方法和设备可能不作详细讨论,但在适当情况下,所述技术、方法和设备应当被视为说明书的一部分。
在这里示出和讨论的所有例子中,任何具体值应被解释为仅仅是示例性的,而不是作为限制。因此,示例性实施例的其它例子可以具有不同的值。
应注意到:相似的标号和字母在下面的附图中表示类似项,因此,一旦某一项在一个附图中被定义,则在随后的附图中不需要对其进行进一步讨论。
根据本公开的一个实施例,提供了一种用于防尘结构的料带,如图1,2所示,图2为从防尘结构阵列的膜体一侧观测的视图。该料带包括:多个防尘结构,所述防尘结构包括膜体1以及与膜体1所述连接的载体2;所述膜体1上设置有网格结构11,所述载体2的中部形成有通孔,所述网格结构11覆盖所述通孔的一端;多个连接条3,多个所述连接条3在多个所述防尘结构间形成连接,以使多个所述防尘结构形成阵列。
在上述实施例中,料带上的防尘结构间设置有连接条3,连接条3将各防尘结构连接在一起形成阵列。例如,连接条3可以是金属材料。在制造防尘结构的过程中,需要将防尘结构从料带上转印到UV胶带上,然后再将防尘结构放置在设定位置。在转印的过程中,首先需要将防尘结构固定在UV胶带上。然后将防尘结构从料带上脱离,再将各防尘结构放置在设定位置。例如,通过去除料带上的牺牲层将防尘结构和料带脱离。
脱离过程中,因各防尘结构间连接有连接条,形成了阵列的结构。连接条有效地保持了各防尘结构间阵列结构。的能够避免各防尘结构在脱离料带过程中出现防尘结构间位置错乱、重叠的情况。
在一个实施例中,所述连接条3设置在所述膜体1上,以在多个防尘结构间形成连接。
在该实施例中,通过在膜体1上设置连接条3连接各防尘结构。膜体1通过料带上的金属层成型。例如,连接条3与膜体1的材料相同。可以通过例如光刻的方式在形成膜体1的工序中形成连接在各膜体1间的连接条。该方式形成的连接条3既能保持脱离过程中的防尘结构间的结构强度,又便于在防止防尘结构到设定位置时断开各防尘结构间的连接。
如图3所示,为从防尘结构阵列的膜体一侧观测的视图。所述连接条3设置在所述膜体1的各边中点所在位置。
在该实施例中,各膜体1的各边的中点设置连接条3进行连接。例如,膜体1在料带上投影为正方形,连接条3从各边的终点处连接各膜体1,使防尘结构形成阵列。
连接条3设置在各边中点能够提供可靠的连接强度。这样在防尘结构脱离料带的过程中,能够有效保持各防尘结构间的距离,不会出现防尘结构间重叠、错位的情况。
如图4所示,为从防尘结构阵列的膜体一侧观测的视图。所述连接条3设置在所述膜体1的各角所在位置。
在该实施例中,各膜体1的各角设置连接条3进行连接。例如,膜体1在料带上投影为正方形,连接条3从膜体1的各角将多个防尘结构上的膜体1连接在一起,使防尘结构形成阵列。
连接条3设置在膜体1的各个角上,能够从不同方向对膜体1进行连接,提高各防尘结构间连接的稳定性,能够有效保持各防尘结构间的距离。这样在防尘结构脱离料带的过程中,不会出现防尘结构间重叠、错位的情况。
在一个实施例中,如图3,4所示,多个所述防尘结构形成阵列的最外圈也设置有所述连接条3。
在防尘结构的最外圈也连接有连接条3,例如,在防尘结构的膜体上的最外圈连接有连接条。最外圈的连接条3可以用作制造防尘结构工艺中的电镀工艺的电极,这样不用另外设置电镀的电极。更方便制造工艺的进行。
在一个实施例中,所述连接条3设置在所述载体2上,以在多个防尘结构间形成连接。
在该实施例中,通过在载体2上设置连接条将各载体2连接在一起,使防尘结构形成阵列。
例如,在制造防尘结构的过程中,膜体1接近料带,而载体2是背向料带的。将连接条3设置在载体2上,设置连接条的操作更方便进行,能够简化工艺过程。
载体2间设置的连接条3使各防尘结构间形成了稳定的连接,这样防尘结构阵列在与料带分离时,不会因牺牲层去除不彻底造成的料带对防尘结构的拉扯。有效地避免了防尘结构和料带分离后造成的结构重叠和损坏。
将防尘结构转印到UV胶带上的目的是为了防止防尘结构从料带上脱离后散落,各防尘结构间重叠。转印后是防尘结构上的载体2粘连在UV胶带上。而将载体2通过连接条3连接在一起后,载体2间形成了稳固的连接,防尘结构间不会散乱重叠。这样能够减少制造防尘结构的工艺中的将防尘结构转印到UV胶带上的步骤。有效优化了整个制造的工艺过程,提到了制造效率。
例如,将防尘结构转印到UV胶带上之后,需要将防尘结构从UV胶带上取下。在取下防尘结构的过程中,需要对防尘结构施加一定的力,若施加的力过大会损坏,施力过小不能顺利取下防尘结构。而在载体2间设置连接条3后,不需要进行上述将防尘结构从UV胶带上取下的步骤。减少了步骤,节省了工艺所需的时间。避免了对防尘结构的损坏,提高了成品率。
可选地,所述载体2的材料为金属材料或有机材料。
将载体2设置为金属材料,金属材料强度高,能够避免防尘结构在脱离料带时被破坏。并且,金属材料的载体2能使连接条间形成电连接。这 样更容易进行电镀的工艺步骤。载体2还可以是有机材料,有机材料重量更轻,能够降低防尘结构的重量。可选材料更多,材料成本低。
如图5所示,为从防尘结构阵列的载体一侧观测的视图。所述连接条3设置在所述载体2的各边中点所在位置。
将连接条3设置在载体2的各边中点所在的位置,使各载体2间连接整齐,这样形成阵列的防尘结构间的结构更加稳定。能够避免防尘结构脱离料带时发生相互重叠以及损坏。
并且,载体2间设置连接条3能够将各防尘结构固定成阵列。这样在将防尘结构与料带分离前不需要将防尘结构转印在UV胶带上。可以以连接条3固定的载体2起到UV胶带的固定功能。
例如,将防尘结构转印到UV胶带上的目的是为了防止防尘结构从料带上脱离后散落,各防尘结构间重叠。而将载体2通过连接条3连接在一起后,载体2间形成了稳固的连接,防尘结构间不会散乱重叠。这样能够减少制造防尘结构的工艺中的将防尘结构转印到UV胶带上的步骤。有效优化了整个制造的工艺过程,提到了制造效率。
在一个实施例中,如图6所示,为从防尘结构阵列的载体一侧观测的视图。在多个所述防尘结构形成阵列的最外圈也设置有所述连接条3;多个所述防尘结构形成阵列的最外圈还设置有金属框架4,围绕最外圈的所述连接条3均与所述金属框4固定。
在该实施例中,在围绕防尘结构阵列的最外圈设置的多个连接条3上固定了金属框架4,这样整个防尘结构的阵列都被固定在了金属框架4上。
金属框架4的结构强度高,在最外圈的连接条3与金属框架4固定后,金属框架4为防尘结构阵列提供了稳定的支撑。
例如,设置了金属框架4之后,不需要在制造过程中将防尘结构转印到UV胶带上。金属框架4提供的稳定支撑能够保持各防尘结构间的结构稳定。在去除牺牲层后,防尘结构与料带间脱离。由于金属框架4提供的支撑,防尘结构间不会发生散乱、重叠的情况。这样更方便将防尘结构转移放置到设定的位置。
并且,通过金属框架4支撑防尘结构的阵列,不需要进行将防尘结构 转印到UV胶带上的工艺步骤。
例如,转印后需要从UV胶带上取下防尘结构放置到设定位置,需要对防尘结构施加一定的拉扯力。在取下防尘结构的过程中会出现拉扯力过大造成的防尘结构损坏。不需要进行将防尘结构转印到UV胶带上的工艺步骤,能够有效避免防尘结构的损坏。
可选地,所述连接条3通过焊接的方法连接多个所述防尘结构,以形成阵列。
在防尘结构间设置连接条3时,还可以是通过焊接的方式进行固定。例如,通过激光照射的焊接工艺将连接条3和防尘结构固定。这样的固定方法更加方便,适用于防尘结构这种体积小的结构。
虽然已经通过例子对本发明的一些特定实施例进行了详细说明,但是本领域的技术人员应该理解,以上例子仅是为了进行说明,而不是为了限制本发明的范围。本领域的技术人员应该理解,可在不脱离本发明的范围和精神的情况下,对以上实施例进行修改。本发明的范围由所附权利要求来限定。
Claims (10)
- 一种用于防尘结构的料带,其特征在于,包括:多个防尘结构,所述防尘结构包括膜体以及与膜体所述连接的载体;所述膜体上设置有网格结构,所述载体的中部形成有通孔,所述网格结构覆盖所述通孔的一端;多个连接条,多个所述连接条在多个所述防尘结构间形成连接,以使多个所述防尘结构形成阵列。
- 根据权利要求1所述的用于防尘结构的料带,其特征在于,所述连接条设置在所述膜体上,以在多个防尘结构间形成连接。
- 根据权利要求2所述的用于防尘结构的料带,其特征在于,所述连接条设置在所述膜体的各边中点所在位置。
- 根据权利要求2所述的用于防尘结构的料带,其特征在于,所述连接条设置在所述膜体的各角所在位置。
- 根据权利要求1-4中任意一项所述的用于防尘结构的料带,其特征在于,多个所述防尘结构形成阵列的最外圈也设置有所述连接条。
- 根据权利要求1所述的用于防尘结构的料带,其特征在于,所述连接条设置在所述载体上,以在多个防尘结构间形成连接。
- 根据权利要求6所述的用于防尘结构的料带,其特征在于,所述载体的材料为金属材料或有机材料。
- 根据权利要求6所述的用于防尘结构的料带,其特征在于,所述连接条设置在所述载体的各边中点所在位置。
- 根据权利要求6-8中任意一项所述的用于防尘结构的料带,其特征在于,在多个所述防尘结构形成阵列的最外圈也设置有所述连接条;多个所述防尘结构形成阵列的最外圈还设置有金属框架,围绕最外圈的所述连接条均与所述金属框固定。
- 根据权利要求1所述的用于防尘结构的料带,其特征在于,所述连接条通过焊接的方法连接多个所述防尘结构,以形成阵列。
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