Batch head storage container and batch head set
By setting up multiple different colored bit storage modules in the bit storage container, users can install them in their own groups, solving the problem of inconvenient bit retrieval and achieving convenient and customized storage for quick identification and retrieval.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- YANTAI GREENERY TOOLS CO LTD
- Filing Date
- 2025-06-19
- Publication Date
- 2026-06-23
Smart Images

Figure CN224393311U_ABST
Abstract
Description
Technical Field
[0001] This application relates to the field of tool storage technology, and in particular to a bit storage container and bit set. Background Technology
[0002] Screwdriver bits (or screwdrivers) are a core accessory for modern power tools and hand tools. They come in a wide variety of types and models to meet the tightening needs of screws of different sizes.
[0003] In related technologies, screwdriver bits are usually stored in toolboxes in sets. A screwdriver bit set usually includes a toolbox and dozens or even hundreds of screwdriver bits of different sizes (such as Phillips head PH0-PH3, flathead head SL4-SL8, hexagonal head H3-H10, etc.) and different shapes (Phillips head, flathead, star head, hexagonal head, square head, etc.) stored in the toolbox. The screwdriver bits are usually stored in the toolbox in an array.
[0004] However, with a large number of bits neatly stored in the toolbox, it is difficult to quickly identify and retrieve the required type of bit, resulting in inconvenience in bit retrieval. Utility Model Content
[0005] This application provides a bit storage container and bit kit to solve the technical problem that when a large number of bits are neatly stored in a toolbox, it is difficult to quickly identify and retrieve the required bit, resulting in inconvenience in bit retrieval.
[0006] The embodiments of this application provide the following technical solutions to solve the above-mentioned technical problems:
[0007] This application provides a bit storage container, which includes a container body and at least two bit storage module groups; each bit storage module group includes at least one bit storage module, and each bit storage module has at least one bit storage position, the bit storage position being configured to hold the bit flat; the bit storage module is detachably installed in the container body; each bit storage module group has a different color.
[0008] The beneficial effects of this application's embodiments: When users actually use screwdriver bits, they may have frequently used bits, occasionally used bits, and infrequently used bits. Furthermore, the types and quantities of frequently used bits may differ for each user. The screwdriver bit storage container provided in this application embodiment includes multiple groups of screwdriver bit storage modules of different colors. Each group of storage modules contains at least one screwdriver bit storage module. Each storage module is detachably installed on the container body. Users can choose to divide the screwdriver bits into several groups according to their usage habits, such as frequently used bits, occasionally used bits, and infrequently used bits. Each bit group corresponds to a bit storage module group. Based on the number of bits in each bit group, a corresponding number of bit storage modules are selected and installed on the container body, forming a unique bit storage container for each user. This allows each user to obtain their own customized bit storage container. Users can arrange their bits according to their usage habits and frequency of use. Different colors of the bit storage module groups distinguish the bits in different groups, enabling users to quickly identify and retrieve the required bit model for convenient use.
[0009] In one possible implementation, the container body includes a support and a cover plate detachably connected to the support, the cover plate having a through-hole;
[0010] The bit storage module is sandwiched between the support and the cover plate, and each bit storage position is exposed through the through-hole.
[0011] In one possible implementation, there are multiple through ports, and each through port corresponds to one bit storage module;
[0012] The bit storage module has an extension portion, which is sandwiched between the support and the cover plate.
[0013] In one possible implementation, at least one of the support and the cover plate is provided with a positioning groove, the number of the positioning grooves is multiple and corresponding to each of the through-holes, and the positioning groove is configured to accommodate the extension portion.
[0014] In one possible implementation, the support is provided with a mounting slot corresponding to each of the through-holes, and the mounting slot is configured to hold the bit storage module.
[0015] In one possible implementation, the cover plate is provided with at least one clearance groove, the clearance groove at least corresponding to a portion of the through-hole;
[0016] In the corresponding through-hole and the relief groove, a portion of the through-hole is located in the relief groove, and in the bit storage module corresponding to this portion of the through-hole, the head of the bit stored in the bit storage module extends into the relief groove.
[0017] In one possible implementation, the cover plate is provided with a through opening;
[0018] Each of the through holes is arranged around the through port, and the first end of each of the through holes communicates with the through port. In the bit storage module installed in the corresponding through hole, the head of the bit stored in the bit storage module extends into the through port.
[0019] The support is provided with an insertion hole, which is located inside the through opening and is configured to insert a screwdriver.
[0020] In one possible implementation, the circumferential edge of the insertion hole protrudes upward to form a raised ring, the raised ring passing through the through-hole;
[0021] The bit storage container also includes a top cover with a through hole. The top cover covers the container body to cover each bit storage module, and the top cover is sleeved on the protruding ring through the through hole.
[0022] In one possible implementation, the extension portion is an extension edge, which is clamped between the support and the cover plate.
[0023] In one possible implementation, the container body further includes a base, the base having a storage cavity configured to store a tool;
[0024] The support is fastened to the base, and the support is configured to either cover or open the storage cavity.
[0025] In one possible implementation, the extension portion is an extension shaft, which is rotatably clamped between the support and the cover plate;
[0026] The container body also includes a base, which has a top protrusion structure;
[0027] The support is movably or rotatably mounted on the base. The support is provided with clearance holes for each bit storage module. The clearance holes allow some of the bit storage modules to pass through the support and extend to the side of the support facing the base.
[0028] When the bit storage module moves to the upper part of the top protrusion structure, the top protrusion structure lifts the bit storage module, and the end of the bit storage module corresponding to the head of the bit is raised.
[0029] In one possible implementation, the bit storage module is provided with a protrusion located on the side of the support facing the base. When the bit storage module moves to the upper part of the top protrusion structure, the top protrusion structure lifts up the protrusion.
[0030] In one possible implementation, each of the bit storage module groups has a different hue, and all colors are highly saturated.
[0031] In one possible implementation, each bit storage module has one bit storage slot.
[0032] This application embodiment also provides a bit kit, which includes multiple bits and a bit storage container as described in any of the above claims.
[0033] The beneficial effects of the bit kit provided in this application embodiment are the same as those of the bit storage container described above, and will not be repeated here.
[0034] In addition to the technical problems solved by this application, the technical features constituting the technical solutions, and the beneficial effects brought about by the technical features of these technical solutions as described above, other technical problems that can be solved by the bit storage container and bit kit provided by this application, other technical features contained in the technical solutions, and the beneficial effects brought about by these technical features will be further explained in detail in the specific embodiments. Attached Figure Description
[0035] The accompanying drawings, which are incorporated in and form part of this specification, illustrate embodiments consistent with this application and, together with the description, serve to explain the principles of this application.
[0036] Figure 1 This is a schematic diagram of a bit storage container according to an embodiment of this application;
[0037] Figure 2 This is a schematic diagram of a bit storage container with a top cover according to an embodiment of this application;
[0038] Figure 3 This is an exploded view of a bit storage container according to an embodiment of this application;
[0039] Figure 4 This is a schematic diagram of a bit storage module according to an embodiment of this application;
[0040] Figure 5 This is a schematic diagram of a cover plate according to an embodiment of this application;
[0041] Figure 6 This is a schematic diagram of another type of bit storage container according to an embodiment of this application;
[0042] Figure 7 This is a schematic diagram of a support according to an embodiment of this application;
[0043] Figure 8 This is a schematic diagram of another type of bit storage container according to an embodiment of this application;
[0044] Figure 9 This is an exploded view of another bit storage container according to an embodiment of this application;
[0045] Figure 10 This is a schematic diagram of a screwdriver bit storage container according to an embodiment of this application;
[0046] Figure 11 This is a schematic diagram of a connector according to an embodiment of this application;
[0047] Figure 12 This is a bottom perspective view of a bit storage container according to an embodiment of this application;
[0048] Figure 13 This is an exploded view of a bit storage container from a bottom angle, according to an embodiment of this application.
[0049] Explanation of reference numerals in the attached figures:
[0050] 100. Container body;
[0051] 110. Support; 120. Cover plate; 130. Base;
[0052] 111. Positioning groove; 112. Mounting groove; 113. Insertion hole; 114. Protruding ring; 115. Limiting hole; 116. Clearance hole; 117. Protrusion;
[0053] 121. Through-hole; 122. Through-hole; 123. Relief groove;
[0054] 131. Storage cavity; 132. Top protrusion structure; 133. Screwdriver storage compartment; 134. Bottom cover; 135. Threaded hole;
[0055] 200. Bit storage module;
[0056] 210. Extension portion; 220. Protrusion; 230. Bit storage location;
[0057] 300. Top cover;
[0058] 310. Through hole;
[0059] 400. Connectors;
[0060] 410. Extensional limiting edge;
[0061] 500, charging female component;
[0062] 600, screwdriver bits;
[0063] 700. Screwdriver.
[0064] The accompanying drawings illustrate specific embodiments of this application, which will be described in more detail below. These drawings and descriptions are not intended to limit the scope of the concept in any way, but rather to illustrate the concept of this application to those skilled in the art through reference to particular embodiments. Detailed Implementation
[0065] Screwdriver bits, as a core accessory of modern power and hand tools, come in a wide variety of models. While they are typically stored in an array in a toolbox, which neatly organizes them and reduces loss, research has revealed that users have frequently used bits, occasionally used bits, and infrequently used bits. Furthermore, the types and quantities of bits frequently used by each user may differ, as do their usage habits. This conventional storage method makes it difficult to quickly identify and retrieve the required bit, resulting in inconvenience in bit access.
[0066] In view of this, the inventors of this application have designed a DIY bit storage container. This container consists of multiple bit storage modules, grouped into different groups. Different groups of modules have different colors, while modules within the same group have the same color. The bit storage modules are detachably installed within the container. Users can group their bits according to their preferences and then select the appropriate storage module based on the grouping. Since different groups of bits correspond to different colored storage modules, each user can have their own customized bit storage container. This allows users to quickly identify and retrieve the desired bit model, making it convenient to use.
[0067] The technical solutions of the embodiments of this application will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only a part of the embodiments of this application, and not all of the embodiments. Based on the embodiments of this application, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the scope of protection of this application. Example 1
[0068] like Figure 1 and Figure 3As shown, the bit storage container provided in this embodiment includes a container body 100 and at least two bit storage module groups. Each bit storage module group includes at least one bit storage module 200, and each bit storage module 200 is provided with at least one bit storage position 230. The bit storage position 230 is configured to hold bit 600 flat. That is, the bit storage container includes multiple bit storage modules 200, which are divided into at least two groups. Each bit storage module 200 is provided with at least one bit storage position 230. The bit storage position 230 is used to hold bit 600 flat, that is, bit 600 is stored in bit storage position 230 in a flat manner. Each bit storage module 200 can be provided with one bit storage position 230 for storing bit 600, or multiple bit storage positions 230 (including two) for storing bit 600 can be provided.
[0069] It should be noted that in the embodiments of this application, "multiple" includes two.
[0070] In this embodiment, each bit storage module group has a different color; that is, bit storage modules 200 in different groups have different colors, while bit storage modules 200 in the same group have the same color. The bit storage modules 200 are detachably installed in the container body 100. This allows users to group the bits 600 according to their usage habits and then select the appropriate bit storage module 200 to install in the bit storage container based on the grouping of the bits 600. Different groups of bits 600 correspond to different colored bit storage modules 200, meaning one bit group corresponds to one bit storage module group. This creates a unique bit storage container for each user, allowing each user to have their own customized bit storage container. Users can arrange the bits 600 according to their usage habits and frequency of use, distinguishing different groups of bits 600 by the different colors of the bit storage module groups. This enables users to quickly identify and retrieve the required bit 600, making it convenient to use.
[0071] For example, users can divide the bit 600 into three groups based on their usage habits: frequently used bit group, occasionally used bit group, and infrequently used bit group. They can select one bit storage module group for each bit group, with one module corresponding to each bit group. For example, the three bit storage module groups are colored red, yellow, and black, respectively; that is, the bit storage modules 200 in each group are red, yellow, and green, respectively. Users select the corresponding number of bit storage modules 200 based on the number of bits 600 in each bit group, and then... The bit storage modules 200 are installed on the container body 100. For example, the bits 600 of the frequently used bit group are stored in the red bit storage module 200, the bits 600 of the occasionally used bit group are stored in the yellow bit storage module 200, and the bits 600 of the infrequently used bit group are stored in the black bit storage module 200. In this way, each user can obtain their own customized bit storage container. When using the bits 600, the required bit model can be quickly identified and retrieved, making it convenient to use.
[0072] For example, the bit storage module groups in this application embodiment can be set to multiple groups. For instance, the sales end can set multiple groups of bit storage module groups such as red, orange, yellow, green, blue, purple, black, and white. Each bit storage module group contains multiple bit storage modules 200. On the purchasing end, users can select their preferred groups of bit storage module groups and the number of bit storage modules 200 in each group according to their own preferences and needs, giving users ample choice and improving the user experience. In addition, when users want to change the style, they can directly replace the bit storage module 200, resulting in low replacement costs.
[0073] For example, such as Figure 2 As shown, in order to prevent the bits 600 from being exposed, the bit storage container also includes a top cover 300, which covers the container body 100 to cover each bit storage module 200.
[0074] For example, such as Figure 4 As shown, each bit storage module 200 has a bit storage slot 230, which enhances the user's flexibility in configuring the bit storage module 200.
[0075] like Figure 1 , Figure 3 and Figure 5As shown in some embodiments of this application, to facilitate the installation and replacement of the bit storage module 200, the container body 100 includes a support 110 and a cover plate 120 detachably connected to the support 110, the cover plate 120 having a through-hole 121. The bit storage module 200 is sandwiched between the support 110 and the cover plate 120, and each bit storage position 230 is exposed through the through-hole 121. That is, the bit storage module 200 is placed between the support 110 and the cover plate 120, the cover plate 120 and the support 110 clamp the bit storage module 200, realizing the detachable installation of the bit storage module 200. When installing or replacing the bit storage module 200, the cover plate 120 and the support 110 are disassembled, and the bit storage module 200 is placed on the support 110, or the bit storage module 200 is placed on the cover plate 120. Then, the cover plate 120 and the support 110 are connected, and the bit storage module 200 can be installed on the container body 100. This method of disassembling and assembling the bit storage module 200 facilitates its installation and replacement. Furthermore, since a container body 100 typically has multiple bit storage modules 200, this installation method improves the assembly efficiency of the bit storage module 200, allowing it to be quickly assembled onto the container body 100. The assembly method is simple and labor-saving.
[0076] like Figure 5 and Figure 6 As shown, in some embodiments of this application, there are multiple through-holes 121, each through-hole 121 corresponding to a bit storage module 200. The bit storage module 200 has an extension portion 210, which is sandwiched between the support 110 and the cover plate 120. One bit storage module 200 corresponds to one through-hole 121, and the edges on both sides of the through-hole 121 cooperate with the support 110 to clamp the extension portion 210 of the bit storage module 200. This arrangement facilitates the clamping of the bit storage module 200.
[0077] like Figure 7 As shown, to facilitate the quick installation of the bit storage module 200, at least one of the support 110 and the cover plate 120 is provided with a positioning slot 111. There are multiple positioning slots 111, each corresponding to a through-hole 121. The positioning slot 111 is configured to accommodate the extension portion 210. For example, the positioning slot 111 is provided on the support 110. During assembly, the extension portion 210 of the bit storage module 200 is placed within the positioning slot 111. This arrangement allows the user to quickly position the bit storage module 200, and after assembly, the positioning slot 111 can, to a certain extent, limit the position of the bit storage module 200, reducing its offset.
[0078] Continue reading Figure 7For example, the support 110 is provided with a mounting groove 112 corresponding to each through-hole 121. The mounting groove 112 is configured to hold the bit storage module 200. When assembling the bit storage module 200, the bit storage module 200 is placed in the mounting groove 112, and the extended side is placed in the positioning groove 111. The mounting groove 112 and the positioning groove 111 are connected. The setting of the mounting groove 112 enables the bit storage module 200 to be placed quickly and accurately on the support 110, improving the assembly efficiency of the bit storage module 200. In addition, the mounting groove 112 can restrict the position of the bit storage module 200, which is convenient for the assembly of the cover plate 120. Furthermore, after assembly, it can restrict the position of the bit storage module 200 and reduce its left and right swaying.
[0079] In some embodiments of this application, the bit storage module 200 is fixedly clamped between the support 110 and the cover plate 120. For example, the extension portion 210 is an extension edge, which is clamped between the support 110 and the cover plate 120.
[0080] To facilitate differentiation between the bit storage module groups, each bit storage module group has a different hue, and all colors are highly saturated. That is to say, in this embodiment, the colors of the bit storage module groups are all relatively bright, and the distinction between them is quite obvious. For example, the colors of the bit storage module groups are red, orange, yellow, green, blue, purple, black, white, etc.
[0081] This application embodiment also provides a bit 600 kit, which includes a plurality of bits 600 and a bit storage container of any of the above. Example 2
[0082] The bit storage container provided in this embodiment is basically the same as the bit storage container provided in Embodiment 1, except that the cover plate 120 in this embodiment is provided with a clearance groove 123.
[0083] The bit storage modules 200 installed on the container body 100 are arranged in a circular array, linear array, or rectangular array, etc., that is, arranged through the opening 121 in a circular array, linear array, or rectangular array, etc. Figure 6 and Figure 8As shown, the through-hole 121 is divided into areas according to the array. Based on the area division of the through-hole 121, a corresponding clearance groove 123 is provided on the cover plate 120. Each through-hole 121 in the same area corresponds to one clearance groove 123. In the corresponding through-hole 121 and clearance groove 123, a portion of the through-hole 121 is located within the clearance groove 123. Furthermore, in the bit storage module 200 corresponding to this portion of the through-hole, the head of the bit 600 stored in the bit storage module 200 extends into the clearance groove 123. In other words, the cover plate 120 is provided with at least one clearance groove 123, and the clearance groove 123 at least corresponds to a portion of the through-hole 121. In the corresponding through-hole 121 and clearance groove 123, a portion of the through-hole 121 is located within the clearance groove 123. Furthermore, in the bit storage module 200 corresponding to this portion of the through-hole, the head of the bit 600 stored in the bit storage module 200 extends into the clearance groove 123. In other words, the cover plate 120 has one or more clearance grooves 123 (including two clearance grooves). When the cover plate 120 has one clearance groove 123, the clearance groove 123 corresponds to all the through-holes 121, and each through-hole 121 is partially located within the clearance groove 123. When the cover plate 120 has multiple clearance grooves 123 according to the area division of the clearance holes, each clearance groove 123 corresponds to a portion of the through-hole 121, and in the corresponding through-hole 121 and clearance groove 123, a portion of the through-hole 121 is located within the clearance groove 123. For example, the through-holes 121 are arranged in a circular array, and the number of clearance grooves 123 is one; or, the through-holes 121 are arranged in a linear array, and the number of clearance grooves 123 is one. Through the openings 121, a rectangular array of n rows and m columns is arranged, and the number of clearance slots 123 is set to n, n / 2, or between n / 2 and n. For example, as shown... Figure 6 As shown, the number of clearance slots 123 is one, arranged in a rectangular array of two rows and m columns through the opening 121. Figure 8 As shown, the number of clearance slots 123 arranged in a rectangular array of 2 rows and m columns through the port 121 is 2. In this embodiment of the application, when the head of the bit 600 is pressed to take the bit 600, the setting of clearance slots 123 increases the lower space of the head of the bit 600, making it easier to take the bit 600. Example 3
[0084] The bit storage container provided in this embodiment is basically the same as the bit storage container provided in Embodiment 1, except that the cover plate 120 in this embodiment is provided with a through opening 122.
[0085] like Figure 5 and Figure 9As shown, the cover plate 120 is provided with a through opening 122. Each through opening 121 is arranged around the through opening 122, and the first end of each through opening 121 is connected to the through opening 122. In the bit storage module 200 installed in each corresponding through opening, the head of the bit 600 stored in the bit storage module 200 extends into the through opening 122. When pressing the head of the bit 600 to take it out, the through-hole 122 increases the lower space of the bit head, making it easier to take out the bit. On the other hand, since the through-holes 121 are circumferentially distributed, if the through-hole 122 is not provided, along the radial direction of the circumferential distribution of the through-holes 121 and pointing towards the center, the partition wall between two adjacent through-holes 121 becomes narrower. That is, the partition wall between two adjacent through-holes 121 near the center is very thin, which is prone to deformation and breakage. The through-hole 122 can eliminate the weak partition wall part, increasing the stability and durability of the bit storage container structure.
[0086] like Figure 9 and Figure 10 As shown, in order to make reasonable use of space and facilitate the use of screwdriver 700, a screwdriver 700 insertion position is set in the central area surrounding the opening 121. That is, the support 110 is provided with insertion hole 113, which is located in the through opening 122 and is configured to insert screwdriver 700.
[0087] Continue reading Figure 9 and Figure 10 In this embodiment, the top cover 300 is provided with a through hole 310, and the top cover 300 is sleeved on the protruding ring 114 through the through hole 310. The through hole 310 of the top cover 300 allows the screwdriver 700 to be inserted into the bit storage container after the top cover 300 is closed, which facilitates the storage of the screwdriver 700.
[0088] For example, the top cover 300 and the container body 100 are respectively provided with magnetic suction components. The top cover 300 and the container body 100 are fastened together by the magnetic suction components. After the top cover 300 is placed on the container body 100, the protruding ring 114 can restrict the position of the top cover 300 in the lateral direction.
[0089] like Figure 9As shown, in some embodiments, the container body 100 further includes a base 130, which has a storage cavity 131 configured to store tools. A support 110 is fastened to the base 130 and configured to cover or open the storage cavity 131. In other words, the bit storage container has two layers: the upper layer stores bit 600, and the lower layer stores other tools. Based on the bit 600 being placed horizontally in the bit storage position 230, the bit storage container portion formed by the support 110, cover plate 120, and bit storage module 200 is relatively thin. The lower layer, with the base 130 containing the storage cavity 131, allows the bit storage container to store more tools within a reasonable thickness. Furthermore, the screwdriver 700 inserted into the insertion hole 113 can be stored in the receiving cavity when the bit storage container is in its stored state, facilitating the storage of the screwdriver 700. Example 4
[0090] The bit storage container provided in this embodiment is basically the same as the bit storage container provided in Embodiment 1, except that in this embodiment, the bit storage module 200 is rotatably clamped between the support 110 and the cover plate 120.
[0091] For example, such as Figure 1 , Figure 3 , Figure 4 and Figure 7As shown, the extension portion 210 is an extension shaft, which is rotatably clamped between the support 110 and the cover plate 120. That is, the bit storage module 200 is installed between the support 110 and the cover plate 120 via the extension shaft, and the bit storage module 200 can rotate about the axial direction of the extension shaft. The container body 100 also includes a base 130, which has a top protrusion structure 132. The support 110 is movably or rotatably mounted on the base 130. The support 110 has clearance holes 116 corresponding to each bit storage module 200, allowing some bit storage modules 200 to pass through the support 110 and extend to the side of the support 110 facing the base 130. When the bit storage module 200 moves to the upper part of the top protrusion structure 132, the top protrusion structure 132 lifts the bit storage module 200, causing the end of the bit storage module 200 corresponding to the head of the bit 600 to tilt upwards. This configuration changes the bit 600 stored in the bit storage module 200 from a flat position to a tilted, raised position relative to the cover plate 120, making it easier for users to identify the bit model. The raised head of the bit 600 also facilitates easy retrieval. Furthermore, since the bit storage modules 200 within the bit storage container are assembled by the user according to the frequency of use of the bits 600 (e.g., frequently used bits 600 are stored in a specific color module 200), when searching for a bit 600, the user can rotate or move the support 110 to quickly locate the corresponding color area and then find the bit 600. The bit storage module 200 is raised during the movement or rotation of the support 110, exposing more of the bit storage module 200 and making it easier for users to distinguish the colors of the bits, thus speeding up the user's location of the target color area and increasing the efficiency of finding the target bit 600.
[0092] In some embodiments, the bit storage module 200 is provided with a protrusion 220 located on the side of the support 110 facing the base 130. When the bit storage module 200 moves to the upper part of the top protrusion structure 132, the top protrusion structure 132 lifts the protrusion 220. This arrangement facilitates the top protrusion structure 132 lifting the bit storage module 200. For example, when the bit storage module 200 is lifted, the tilt angle of the bit storage module 200 relative to the cover plate 120 is 10°-60°, which facilitates the observation of the bit 600.
[0093] Other embodiments of this application will readily occur to those skilled in the art upon consideration of the specification and practice of the invention disclosed herein. This application is intended to cover any variations, uses, or adaptations of this application that follow the general principles of this application and include common knowledge or customary techniques in the art not disclosed herein. The specification and examples are to be considered exemplary only, and the true scope and spirit of this application are indicated by the following claims.
[0094] It should be understood that this application is not limited to the precise structure described above and shown in the accompanying drawings, and various modifications and changes can be made without departing from its scope. The scope of this application is limited only by the appended claims.
Claims
1. A bit storage container, characterized in that, It includes a container body and at least two bit storage module groups; each bit storage module group contains at least one bit storage module, and each bit storage module has at least one bit storage position, the bit storage position is configured to hold the bit flat; the bit storage module is detachably installed in the container body; each bit storage module group is a different color.
2. The bit storage container according to claim 1, characterized in that, The container body includes a support and a cover plate detachably connected to the support, the cover plate having a through opening; The bit storage module is sandwiched between the support and the cover plate, and each bit storage position is exposed through the through-hole.
3. The bit storage container according to claim 2, characterized in that, The number of the through-ports is multiple, and each through-port corresponds to one bit storage module; The bit storage module has an extension portion, which is sandwiched between the support and the cover plate.
4. The bit storage container according to claim 3, characterized in that, At least one of the support and the cover plate is provided with a positioning groove, and the number of positioning grooves is multiple and is provided corresponding to each of the through-holes. The positioning groove is configured to accommodate the extension portion.
5. The bit storage container according to claim 3, characterized in that, The support is provided with a mounting slot corresponding to each of the through-holes, and the mounting slot is configured to hold the bit storage module.
6. The bit storage container according to claim 3, characterized in that, The cover plate is provided with at least one clearance groove, and the clearance groove corresponds at least to a portion of the through-hole; In the corresponding through-hole and the relief groove, a portion of the through-hole is located in the relief groove, and in the bit storage module corresponding to this portion of the through-hole, the head of the bit stored in the bit storage module extends into the relief groove.
7. The bit storage container according to claim 3, characterized in that, The cover plate is provided with a through opening; Each of the through holes is arranged around the through port, and the first end of each of the through holes communicates with the through port. In the bit storage module installed in the corresponding through hole, the head of the bit stored in the bit storage module extends into the through port. The support is provided with an insertion hole, which is located inside the through opening and is configured to insert a screwdriver.
8. The bit storage container according to claim 7, characterized in that, The circumferential edge of the insertion hole protrudes upward to form a raised ring, and the raised ring passes through the through opening; The bit storage container also includes a top cover with a through hole. The top cover covers the container body to cover each bit storage module, and the top cover is sleeved on the protruding ring through the through hole.
9. The bit storage container according to any one of claims 3-8, characterized in that, The extended portion is an extended edge, which is clamped between the support and the cover plate.
10. The bit storage container according to claim 9, characterized in that, The container body also includes a base, the base having a storage cavity configured to store tools; The support is fastened to the base, and the support is configured to either cover or open the storage cavity.
11. The bit storage container according to any one of claims 3-6, characterized in that, The extended portion is an extended shaft, which is rotatably clamped between the support and the cover plate; The container body also includes a base, which has a top protrusion structure; The support is movably or rotatably mounted on the base. The support is provided with clearance holes for each bit storage module. The clearance holes allow some of the bit storage modules to pass through the support and extend to the side of the support facing the base. When the bit storage module moves to the upper part of the top protrusion structure, the top protrusion structure lifts the bit storage module, and the end of the bit storage module corresponding to the head of the bit is raised.
12. The bit storage container according to claim 11, characterized in that, The bit storage module is provided with a protrusion, which is located on the side of the support facing the base. When the bit storage module moves to the upper part of the top protrusion structure, the top protrusion structure lifts up the protrusion.
13. The bit storage container according to any one of claims 1-8, characterized in that, Each of the bit storage module groups has a different hue, and all colors are highly saturated.
14. The bit storage container according to any one of claims 1-8, characterized in that, Each bit storage module has one bit storage slot.
15. A bit set, characterized in that, It includes multiple bits, and a bit storage container as described in any one of claims 1-14.