WO2023056807A1 - 一种应用于射频电路组装调试的收纳盒 - Google Patents

一种应用于射频电路组装调试的收纳盒 Download PDF

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Publication number
WO2023056807A1
WO2023056807A1 PCT/CN2022/116509 CN2022116509W WO2023056807A1 WO 2023056807 A1 WO2023056807 A1 WO 2023056807A1 CN 2022116509 W CN2022116509 W CN 2022116509W WO 2023056807 A1 WO2023056807 A1 WO 2023056807A1
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WIPO (PCT)
Prior art keywords
box
storage
debugging
radio frequency
plug
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PCT/CN2022/116509
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English (en)
French (fr)
Inventor
张莽
郭嘉帅
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深圳飞骧科技股份有限公司
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Publication of WO2023056807A1 publication Critical patent/WO2023056807A1/zh

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    • AHUMAN NECESSITIES
    • A45HAND OR TRAVELLING ARTICLES
    • A45CPURSES; LUGGAGE; HAND CARRIED BAGS
    • A45C13/00Details; Accessories
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B25HAND TOOLS; PORTABLE POWER-DRIVEN TOOLS; MANIPULATORS
    • B25HWORKSHOP EQUIPMENT, e.g. FOR MARKING-OUT WORK; STORAGE MEANS FOR WORKSHOPS
    • B25H3/00Storage means or arrangements for workshops facilitating access to, or handling of, work tools or instruments
    • B25H3/02Boxes
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65DCONTAINERS 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
    • B65D25/00Details of other kinds or types of rigid or semi-rigid containers
    • B65D25/02Internal fittings
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65DCONTAINERS 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
    • B65D51/00Closures not otherwise provided for
    • B65D51/24Closures not otherwise provided for combined or co-operating with auxiliary devices for non-closing purposes
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65DCONTAINERS 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
    • B65D85/00Containers, packaging elements or packages, specially adapted for particular articles or materials
    • B65D85/68Containers, packaging elements or packages, specially adapted for particular articles or materials for machines, engines or vehicles in assembled or dismantled form
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01LSEMICONDUCTOR DEVICES NOT COVERED BY CLASS H10
    • H01L21/00Processes or apparatus adapted for the manufacture or treatment of semiconductor or solid state devices or of parts thereof

Definitions

  • the utility model belongs to the technical field of storage equipment, in particular to a storage box used in the assembly and debugging of radio frequency circuits.
  • the frequently used tools include tweezers (clamping electronic components such as capacitors and inductors), hooks (adjusting the shape of the gold wire in the power amplifier module), tin spot needles (on the substrate Smear solder on the position of the capacitance and inductance pad of the capacitor), etc.; other materials that are often used include conductive adhesives such as silver paste and solder paste, electronic components such as capacitors and inductors.
  • tweezers clamping electronic components such as capacitors and inductors
  • hooks adjusting the shape of the gold wire in the power amplifier module
  • tin spot needles on the substrate Smear solder on the position of the capacitance and inductance pad of the capacitor
  • conductive adhesives such as silver paste and solder paste
  • electronic components such as capacitors and inductors
  • the technical problem to be solved by the utility model is how to provide a storage box used in the assembly and debugging of radio frequency circuits, so as to solve the problem of wasting time and energy for debugging personnel who need to wander in different areas to find corresponding tools and materials during radio frequency debugging work , thus leading to the problem that the efficiency of the radio frequency debugging work is very low.
  • the utility model provides a storage box for assembly and debugging of radio frequency circuits, including:
  • a box body the box body includes a top wall, a bottom wall corresponding to the top wall, and a peripheral wall connecting the top wall and the bottom wall, and the top wall, the bottom wall, and the peripheral wall together form a
  • the storage cavity, the peripheral wall is provided with an insertion slot that runs through it and communicates with the outside world and the storage cavity;
  • the storage unit includes a plurality of storage units, and each of the storage units is formed by recessing the side of the top wall away from the bottom wall toward the bottom wall, and is used for accommodating electronic components;
  • the number of the first transparent cover is equal to the number of the storage units, and each of the first transparent covers is respectively covered on one of the storage units;
  • a plug-in box the plug-in box has a storage cavity, the plug-in box is inserted into the slot to be accommodated in the storage cavity, and the side of the plug-in box close to the top wall is open to The storage cavity is communicated with the outside world.
  • a plurality of storage units are arranged in an array on the top wall.
  • a pen storage part for storing pens is arranged in the storage chamber.
  • the storage cavity is provided with a mixture storage part for storing adhesive, and the mixture storage part protrudes from the side of the plug box close to the top wall toward the direction of the top wall.
  • the surrounding wall formed and the side wall of the plug box are enclosed.
  • the storage box for assembly and commissioning of radio frequency circuits further includes a second transparent cover covering the opening of the mixture storage part.
  • the second transparent cover is pasted with a second sticky note for filling in the identification.
  • a guide structure is provided between the plug-in box and the box body.
  • the guide structure includes a guide groove formed by a side of the bottom wall close to the top wall being recessed in a direction away from the top wall, and a side of the plug box close to the bottom wall A guide block protrudes toward the direction close to the bottom wall and is inserted into the guide groove, and the guide block forms a sliding connection with the guide groove.
  • the guide structure includes two limit blocks formed by protruding outwards from both sides of the socket box respectively, and the position of the two limit blocks corresponding to the peripheral wall moves away from the
  • the direction of the plug box is recessed to form two limiting slots, and the two limiting blocks are respectively inserted in the two limiting slots and form a sliding connection with them.
  • a handle protruding outward is provided on a side of the first transparent cover away from the storage unit.
  • the storage box used in the assembly and debugging of the radio frequency circuit of the utility model is provided with a plurality of storage units on the top wall of the box body, and a plug-in box that can be accommodated in the storage cavity of the box body is added, and
  • the plug-in box is provided with a storage cavity, so that the box body can be divided into a double-layer storage structure to increase the storage space of the box body, so as to store electronic components such as capacitors and inductors in the storage unit, and then glue tools and conductors
  • the agent is stored in the storage cavity, so that the tools and materials required for RF debugging are stored in a storage box for RF circuit assembly and debugging, so that debuggers only need a storage box for RF circuit assembly and debugging when performing RF debugging.
  • Fig. 1 is a schematic diagram of the first side after the plug-in box in the storage box used in the assembly and debugging of radio frequency circuits provided by the embodiment of the present invention is closed;
  • Fig. 2 is a second schematic side view after the plug-in box in the storage box used in the assembly and debugging of the radio frequency circuit provided by the embodiment of the utility model is closed;
  • Fig. 3 is a closed top view of the plug box in the storage box used in the assembly and debugging of radio frequency circuits provided by the embodiment of the present utility model;
  • Fig. 4 is a side view of an opened plug-in box in a storage box used for assembling and debugging radio frequency circuits provided by an embodiment of the present invention.
  • Fig. 5 is a top view of an opened plug-in box in a storage box used for assembly and debugging of radio frequency circuits provided by an embodiment of the present invention.
  • FIG. 6 is a schematic diagram of cooperation between a single storage unit and a single first transparent cover in a storage box applied to assembly and debugging of radio frequency circuits provided by an embodiment of the present invention.
  • the embodiment of the utility model provides a storage box for assembly and debugging of radio frequency circuits, which includes a box body 1 , a storage unit 2 , a first transparent cover 3 and a plug box 4 , as shown in FIG. 1 to FIG. 6 .
  • the box body 1 includes a top wall 11, a bottom wall corresponding to the top wall 11, and a peripheral wall 13 connecting the top wall 11 and the bottom wall.
  • the top wall 11, the bottom wall, and the peripheral wall 13 together form a storage cavity.
  • the insertion slot runs through it and communicates with the outside world and the storage cavity.
  • each storage unit 2 is formed by recessing the side of the top wall 11 away from the bottom wall toward the direction of the bottom wall 12 for storing electronic components.
  • the number of storage units 2 is set according to actual needs. In this embodiment, the number of storage units 2 is twenty-eight.
  • a plurality of storage units 2 are arranged in a row on the top wall 11 , so that the arrangement of the storage units 2 can be optimized so that more storage units 2 can be formed on the top wall 11 in a limited area.
  • multiple storage units 2 can also be arranged in a staggered manner on the top.
  • the number of first transparent covers 3 is equal to the number of storage units 2 , and each first transparent cover 3 is respectively set on a storage unit 2 . In this way, the electronic components can be sealed in the storage unit 2 by the first transparent cover 3, preventing the electronic components from falling out.
  • the first transparent cover 3 is pasted with a first sticky note for filling in the identification. In this way, each storage unit 2 can be identified, so as to quickly find the corresponding electronic components.
  • the side of the first transparent cover 3 away from the storage unit 2 is provided with a handle 31 protruding outward, which facilitates the opening of the first transparent cover 3 .
  • the handle 31 is arranged at the edge of the transparent cover to avoid covering the first label.
  • the plug box 4 has a storage cavity and is inserted into the storage cavity by a plug slot, and the side of the plug box 4 close to the top wall 11 is open so that the storage cavity communicates with the outside world.
  • the storage cavity is used for storing tools and conductor adhesives, etc.; and the plug-in box 4 is inserted into the storage cavity by the plug-in slot, so that the plug-in box 4 can be accommodated in the storage of the box body 1 when not in use.
  • the plug-in box 4 is taken out from the plug-in slot when it needs to be used.
  • the exposed side of the plug-in box 4 after being stored in the storage cavity can also be provided with a pull-out Bit; the side of the plug box 4 close to the top wall 11 is open, so that an opening can be formed to facilitate the storage or removal of tools and materials.
  • a pen storage part 5 for accommodating pens is arranged in the storage cavity, and the pen storage part 5 is surrounded by an elastic cloth disposed on a side of the plug box 4 close to the top wall 11 .
  • the pens required for radio frequency debugging can be fixed through the pen storage part 5, so as to prevent the pens from being damaged due to rolling when the storage box used for assembling and debugging the radio frequency circuit shakes.
  • the number of writing tool storage parts 5 is set according to actual needs.
  • the number of writing tool storage parts 5 is four and arranged side by side.
  • a mixture storage part 6 for storing adhesive is arranged in the storage cavity, and the mixture storage part 6 is a surrounding wall 61 formed by protruding and extending toward the direction of the top wall 11 from the side of the plug box 4 close to the top wall 11 And the side walls of the plug box 4 are surrounded. This facilitates storage and use of the adhesive.
  • the number of mixture storage parts 6 is set according to actual needs. In this embodiment, there are two mixture storage parts 6 and they are arranged at two corners of the socket box 4 close to the peripheral wall 13 .
  • the storage box applied to the assembly and debugging of the radio frequency circuit also includes a second transparent cover that covers the opening of the mixture storage part 6. This prevents the adhesive from losing water too quickly and drying out.
  • the quantity of the second transparent cover is the same as the quantity of the mixture storage part 6 , and one second transparent cover is provided on one mixture storage part 6 .
  • the second transparent cover is pasted with a second sticky note for filling in the identification.
  • each mixture storage part 6 can be identified, so as to quickly find the corresponding adhesive.
  • a structure similar to the handle 31 of the first transparent cover 3 may also be provided on the second transparent cover to facilitate opening of the second transparent cover.
  • a guide structure is provided between the plug box 4 and the box body 1 .
  • the plug box 4 can be stably and smoothly inserted into the slot.
  • the first guide structure includes a guide groove formed by a side of the bottom wall 12 close to the top wall 11 being recessed in a direction away from the top wall 11 and a side of the plug box 4 close to the bottom wall 12 protruding in a direction close to the bottom wall 12
  • the guide block is extended and inserted into the guide groove, and the guide block and the guide groove form a sliding connection.
  • the guide groove can also be provided on the plug box 4, and then the guide block can be provided on the bottom wall 12.
  • the second guide structure includes two limit blocks formed by protruding outwards from both sides of the socket box 4 and a recess formed by the peripheral wall 13 corresponding to the positions of the two limit blocks in a direction away from the socket box 4.
  • the two limiting slots and the two limiting blocks are respectively inserted in the two limiting slots and form a sliding connection therewith.
  • two limiting grooves can also be arranged on both sides of the plug-in box 4, and then two limiting blocks can be arranged on corresponding positions of the peripheral wall 13 .
  • the box body 1 has a length of 210 mm, a width of 120 mm, and a height of 90 mm, wherein the part formed by the storage unit 2 is 30 mm high, and the part formed by the plug box 4 is 60 mm high.
  • the length, width and height of the box body 1 can also be adjusted adaptively.
  • the storage box applied to the assembly and debugging of radio frequency circuits in this embodiment is provided with a plurality of storage units 2 on the top wall 11 of the box body 1, and a plug-in box 4 that can be accommodated in the storage cavity of the box body 1 is added, and the plug-in box
  • the junction box 4 is provided with a storage cavity, so that the box body 1 can be divided into a double-layer storage structure, and the storage space of the box body 1 is increased to accommodate electronic components such as capacitors and inductors in the storage unit 2, and then the tools and conductors
  • the adhesive is stored in the storage cavity, so that the tools and materials required for RF debugging are stored in a storage box for RF circuit assembly and debugging, so that debuggers only need a storage box for RF circuit assembly and debugging when performing RF debugging.
  • the required tools or materials can be found in the box, and there is no need to walk in different areas to find the required tools and materials, so as to save time and effort in finding tools and materials, thereby improving the efficiency of RF debugging work.
  • the first sticky note is pasted on the first transparent cover 3, so that each storage unit 2 can be identified, so as to quickly find the corresponding electronic components.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Physics & Mathematics (AREA)
  • Condensed Matter Physics & Semiconductors (AREA)
  • General Physics & Mathematics (AREA)
  • Manufacturing & Machinery (AREA)
  • Computer Hardware Design (AREA)
  • Microelectronics & Electronic Packaging (AREA)
  • Power Engineering (AREA)
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Abstract

一种应用于射频电路组装调试的收纳盒,包括:盒体(1)、存储单元(2)、第一透明盖子(3)和插接盒(4)。所述盒体包括顶壁(11)、底壁(12)及周壁(13),其共同围成收纳腔,周壁设置有贯穿其上的插接槽;存储单元包括多个,每一存储单元均由顶壁远离底壁的一侧向底壁的方向凹陷形成;第一透明盖子的数量与存储单元的数量相等,且一个第一透明盖子盖设于一个存储单元,第一透明盖子上贴设有用于填写标识的第一便签;插接盒具有存储腔,插接盒由插接槽插入以收容于收纳腔内。该收纳盒可以节省射频调试工作中寻找工具及材料的时间和精力,以提升射频调试工作的效率。

Description

一种应用于射频电路组装调试的收纳盒 技术领域
本实用新型属于收纳设备技术领域,具体地涉及一种应用于射频电路组装调试的收纳盒。
背景技术
在射频行业中,射频电路的调试一直是最复杂,最耗费时间的部分。如何通过使用各种工具和装置,更加高效便捷的进行射频电路的调试工作,一直是射频调试工作的难点。
射频调试工作中需要用到很多种工具和器件,经常使用的工具有镊子(夹取电容电感等电子元器件),钩子(调整功率放大器模组中金线形状),点锡针(在基板上的电容电感焊盘位置上涂抹焊锡)等;经常要用到的其他材料有银浆及焊锡膏等导体粘合剂,电容及电感等电子元器件。这些工具和材料一般情况下是按照类别,分不同区域集中放置,以方便供给多人同时使用。
调试人员工作中想要使用到需要的工具和材料,往往需要游走于各个实验室,以到不同的区域寻找这些工具和材料,这样便会浪费很多时间和精力,导致射频调试工作的效率很低。
实用新型内容
本实用新型需要解决的技术问题是如何提供一种应用于射频电路组装调试的收纳盒,以解决调试人员在射频调试工作中需要游走于不同的区域寻找对应的工具及材料而浪费时间和精力,从而导致射频调试工作的效率很低的问题。
为解决上述技术问题,本实用新型提供了一种应用于射频电路组装调试的收纳盒,包括:
盒体,所述盒体包括顶壁、与所述顶壁对应的底壁及连接所述顶 壁和所述底壁的周壁,所述顶壁、所述底壁及所述周壁共同围成收纳腔,所述周壁设置有贯穿其上且连通外界与所述收纳腔的插接槽;
存储单元,所述存储单元包括多个,每一所述存储单元均由所述顶壁远离所述底壁的一侧向所述底壁的方向凹陷形成,用于收纳电子元器件;
第一透明盖子,所述第一透明盖子的数量与所述存储单元的数量相等,且每一个所述第一透明盖子分别盖设于一个所述存储单元;所述第一透明盖子上贴设有用于填写标识的第一便签;
插接盒,所述插接盒具有存储腔,所述插接盒由所述插接槽插入以收容于所述收纳腔内,所述插接盒靠近所述顶壁的一面为开口状态以使所述存储腔与外界连通。
更进一步地,多个所述存储单元呈阵列排布设置在所述顶壁。
更进一步地,所述存储腔内设置有用于收纳笔具的笔具存储部。
更进一步地,所述存储腔内设置有用于收纳粘合剂的合剂存储部,所述合剂存储部由所述插接盒靠近所述顶壁的一侧向所述顶壁的方向凸出延伸形成的围壁以及所述插接盒的侧壁围成。
更进一步地,所述应用于射频电路组装调试的收纳盒还包括盖设于所述合剂存储部的开口位置的第二透明盖子。
更进一步地,所述第二透明盖子上贴设有用于填写标识的第二便签。
更进一步地,所述插接盒与所述盒体之间设置有导向结构。
更进一步地,所述导向结构包括由所述底壁靠近所述顶壁的一侧向远离所述顶壁的方向凹陷形成的导向槽以及由所述插接盒靠近所述底壁的一侧向靠近所述底壁的方向凸出延伸形成且插设在所述导向槽内的导向块,所述导向块与所述导向槽形成滑动连接。
更进一步地,所述导向结构包括由所述插接盒的两侧分别向外凸出延伸形成的两个限位块以及由所述周壁对应两个所述限位块的位置向远离所述插接盒的方向凹陷形成的两个限位槽,两个所述限位块分别插设在两个所述限位槽内并与其形成滑动连接。
更进一步地,所述第一透明盖子远离所述存储单元的一侧设置有向外凸出延伸形成的把手。
相较于现有技术,本实用新型的应用于射频电路组装调试的收纳盒通过在盒体的顶壁设置多个存储单元,并增设可收容于盒体的收容腔内的插接盒,且该插接盒设置有存储腔,这样便可以将盒体分为双层收容结构,增加盒体的收容空间,以将电容及电感等电子元器件收容于存储单元,再将工具及导体粘合剂收容于存储腔,从而通过一个应用于射频电路组装调试的收纳盒收纳射频调试所需的工具和材料,使调试人员在进行射频调试工作时只需要一个应用于射频电路组装调试的收纳盒便能寻找到所需的工具或材料,无需游走于与不同的区域寻找所需的工具及材料,以节省寻找工具及材料的时间和精力,进而提升射频调试工作的效率,同时,通过在第一透明盖子上贴设第一便签,从而可以对每个存储单元进行标识,以便于快速寻找到对应的电子元器件。
附图说明
为了使本实用新型的内容更加清晰,下面将对实施例描述中所需要使用的附图作简单的介绍,显而易见地,下面描述中的附图仅仅是本实用新型的一些实施例,对本领域的普通技术人员来讲,在不付出创造性劳动的前提下,还可以根据这些附图获得其他附图,其中:
图1为本实用新型实施例提供的一种应用于射频电路组装调试的收纳盒中的插接盒关闭后的第一侧面示意图;
图2为本实用新型实施例提供的一种应用于射频电路组装调试的收纳盒中的插接盒关闭后的第二侧面示意图;
图3为本实用新型实施例提供的一种应用于射频电路组装调试的收纳盒中的插接盒关闭后的俯视图;
图4为本实用新型实施例提供的一种应用于射频电路组装调试的收纳盒中的插接盒打开后的侧视图。
图5为本实用新型实施例提供的一种应用于射频电路组装调试 的收纳盒中的插接盒打开后的俯视图。
图6为本实用新型实施例提供的一种应用于射频电路组装调试的收纳盒中单个存储单元与单个第一透明盖子的配合示意图。
其中,1、盒体;11、顶壁;12、底壁;13、周壁;2、存储单元;3、第一透明盖子;31、把手;4、插接盒;5、笔具存储部;6、合剂存储部;61、围壁。
具体实施方式
下面将结合本实用新型实施例中的附图,对本实用新型实施例中的技术方案进行清楚、完整地描述,显然,所描述的实施例仅是本实用新型的一部分实施例,而不是全部的实施例。基于本实用新型中的实施例,本领域普通技术人员在没有做出创造性劳动前提下所获得的所有其它实施例,都属于本实用新型保护的范围。
本实用新型实施例提供了一种应用于射频电路组装调试的收纳盒,结合附图1至附图6所示,包括盒体1、存储单元2、第一透明盖子3及插接盒4。
具体地,盒体1包括顶壁11、与顶壁11对应的底壁及连接顶壁11和底壁的周壁13,顶壁11、底壁及周壁13共同围成收纳腔,周壁13设置有贯穿其上且连通外界与收纳腔的插接槽。
具体地,存储单元2为多个,且每一存储单元2均由顶壁11远离底壁的一侧向底壁12的方向凹陷形成,用于收纳电子元器件。
具体地,存储单元2的数量根据实际需求设定,在本实施例中,存储单元2的数量为二十八个。
更进一步地,多个存储单元2呈整列排布设置在顶壁11,这样可以优化存储单元2的排布,使顶壁11在有限的面积下形成更多的存储单元2。当然,根据实际需求,多个存储单元2也可以交错排布设置在顶部。
具体地,第一透明盖子3的数量与存储单元2的数量相等,且每一个第一透明盖子3盖分别设于一个存储单元2。这样可以通过第一 透明盖子3将电子元器件封闭于存储单元2内,避免电子元器件掉出。
更进一步地,第一透明盖子3上贴设有用于填写标识的第一便签。这样可以对每个存储单元2进行标识,以便于快速寻找到对应的电子元器件。
更进一步地,第一透明盖子3远离存储单元2的一侧设置有向外凸出延伸形成的把手31,这样可方便第一透明盖子3的打开。
其中,把手31设置在透明盖子的边缘位置,避免遮挡第一标签。
具体地,插接盒4具有存储腔且由插接槽插入以收容于收纳腔内,插接盒4靠近顶壁11的一面为开口状态以使存储腔与外界连通。
其中,存储腔用于存储工具及导体粘合剂等;而插接盒4由插接槽插入以收容于收纳腔内,这样可以在未使用时将插接盒4收容于盒体1的收纳腔中,在需要使用时将插接盒4由插接槽处取出,再则,为了方便插接盒4的抽拉,插接盒4收容于收纳腔后显露的一侧还可以设置抽拉位;插接盒4靠近顶壁11的一面为开口状态,这样可以形成一开口,便于工具及材料的存放或取出。
更进一步地,存储腔内设置有用于收纳笔具的笔具存储部5,笔具存储部5由设置在插接盒4靠近顶壁11的一侧的弹性布料围成。这样可以通过笔具存储部5固定射频调试工作所需的笔具,避免笔具在应用于射频电路组装调试的收纳盒晃动时滚动而导致笔具损坏。
其中,笔具存储部5的数量根据实际所需设定,在本实施例中,笔具存储部5的数量为四个且并排设置。
更进一步地,存储腔内设置有用于收纳粘合剂的合剂存储部6,合剂存储部6由插接盒4靠近顶壁11的一侧向顶壁11的方向凸出延伸形成的围壁61以及插接盒4的侧壁围成。这样可便于粘合剂的存储及使用。
其中,合剂存储部6的数量根据实际所需设定,在本实施例中,合剂存储部6的数量为两个且设置在插接盒4靠近周壁13的两个角部。
更进一步地,应用于射频电路组装调试的收纳盒还包括盖设于合 剂存储部6的开口位置的第二透明盖子。这样可以防止粘合剂失水过快而变干。
其中,第二透明盖子的数量与合剂存储部6的数量相同,且一个第二透明盖子盖设于一个合剂存储部6。
更进一步地,第二透明盖子上贴设有用于填写标识的第二便签。这样可以对每个合剂存储部6进行标识,以便于快速寻找到对应的粘合剂。
更进一步地,还可以在第二透明盖子上设置与所述第一透明盖子3的把手31类似的结构,以便于第二透明盖子的打开。
更进一步地,插接盒4与盒体1之间设置有导向结构。通过导向结构的设计,可以使插接盒4稳定且平滑的由插接槽插入。
其中,导向结构的实施方案具备多种,在此进行两种实施方案的具体描述。
第一种导向结构包括由底壁12靠近顶壁11的一侧向远离顶壁11的方向凹陷形成的导向槽以及由插接盒4靠近底壁12的一侧向靠近底壁12的方向凸出延伸形成且插设在导向槽内的导向块,导向块与导向槽形成滑动连接。当然,根据实际需求还可以将导向槽设置在插接盒4,再将导向块设置在底壁12上。
第二种导向结构包括由插接盒4的两侧分别向外凸出延伸形成的两个限位块以及由周壁13对应两个限位块的位置向远离插接盒4的方向凹陷形成的两个限位槽,两个限位块分别插设在两个限位槽内并与其形成滑动连接。当然,根据实际需求,还可以将两个限位槽设置在插接4盒的两侧,再将两个限位块设置在周壁13对应的位置。
在本实施例中,盒体1的长为210mm、宽为120mm、高为90mm,其中,存储单元2形成的部分高为30mm,插接盒4部分形成的高为60mm。当然,根据实际需求,盒体1的长、宽及高还可以进行适应性调整。
本实施例的应用于射频电路组装调试的收纳盒通过在盒体1的顶壁11设置多个存储单元2,并增设可收容于盒体1的收容腔内的 插接盒4,且该插接盒4设置有存储腔,这样便可以将盒体1分为双层收容结构,增加盒体1的收容空间,以将电容及电感等电子元器件收容于存储单元2,再将工具及导体粘合剂收容于存储腔,从而通过一个应用于射频电路组装调试的收纳盒收纳射频调试所需的工具和材料,使调试人员在进行射频调试工作时只需要一个应用于射频电路组装调试的收纳盒便能寻找到所需的工具或材料,无需游走于与不同的区域寻找所需的工具及材料,以节省寻找工具及材料的时间和精力,进而提升射频调试工作的效率,同时,通过在第一透明盖子3上贴设第一便签,从而可以对每个存储单元2进行标识,以便于快速寻找到对应的电子元器件。
以上实施例仅为清楚说明本实用新型所作的举例,并非对实施方式的限定;本实用新型的范围包括并不限于上述实施例,凡是按照本实用新型的形状、结构所作的等效变化均包含在本实用新型的保护范围内。

Claims (10)

  1. 一种应用于射频电路组装调试的收纳盒,其特征在于,包括:
    盒体,所述盒体包括顶壁、与所述顶壁对应的底壁及连接所述顶壁和所述底壁的周壁,所述顶壁、所述底壁及所述周壁共同围成收纳腔,所述周壁设置有贯穿其上且连通外界与所述收纳腔的插接槽;
    存储单元,所述存储单元包括多个,每一所述存储单元均由所述顶壁远离所述底壁的一侧向所述底壁的方向凹陷形成,用于收纳电子元器件;
    第一透明盖子,所述第一透明盖子的数量与所述存储单元的数量相等,且每一个所述第一透明盖子分别盖设于一个所述存储单元;所述第一透明盖子上贴设有用于填写标识的第一便签;
    插接盒,所述插接盒具有存储腔,所述插接盒由所述插接槽插入以收容于所述收纳腔内,所述插接盒靠近所述顶壁的一面为开口状态以使所述存储腔与外界连通。
  2. 如权利要求1所述的应用于射频电路组装调试的收纳盒,其特征在于,多个所述存储单元呈阵列排布设置在所述顶壁。
  3. 如权利要求1所述的应用于射频电路组装调试的收纳盒,其特征在于,所述存储腔内设置有用于收纳笔具的笔具存储部。
  4. 如权利要求1所述的应用于射频电路组装调试的收纳盒,其特征在于,所述存储腔内设置有用于收纳粘合剂的合剂存储部,所述合剂存储部由所述插接盒靠近所述顶壁的一侧向所述顶壁的方向凸出延伸形成的围壁以及所述插接盒的侧壁围成。
  5. 如权利要求4所述的应用于射频电路组装调试的收纳盒,其特征在于,所述应用于射频电路组装调试的收纳盒还包括盖设于所述合剂存储部的开口位置的第二透明盖子。
  6. 如权利要求5所述的应用于射频电路组装调试的收纳盒,其特征在于,所述第二透明盖子上贴设有用于填写标识的第二便签。
  7. 如权利要求1所述的应用于射频电路组装调试的收纳盒,其特 征在于,所述插接盒与所述盒体之间设置有导向结构。
  8. 如权利要求7所述的应用于射频电路组装调试的收纳盒,其特征在于,所述导向结构包括由所述底壁靠近所述顶壁的一侧向远离所述顶壁的方向凹陷形成的导向槽以及由所述插接盒靠近所述底壁的一侧向靠近所述底壁的方向凸出延伸形成且插设在所述导向槽内的导向块,所述导向块与所述导向槽形成滑动连接。
  9. 如权利要求7所述的应用于射频电路组装调试的收纳盒,其特征在于,所述导向结构包括由所述插接盒的两侧分别向外凸出延伸形成的两个限位块以及由所述周壁对应两个所述限位块的位置向远离所述插接盒的方向凹陷形成的两个限位槽,两个所述限位块分别插设在两个所述限位槽内并与其形成滑动连接。
  10. 如权利要求1所述的应用于射频电路组装调试的收纳盒,其特征在于,所述第一透明盖子远离所述存储单元的一侧设置有向外凸出延伸形成的把手。
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