JP3158843U - Circuit interface device - Google Patents

Abstract

Provided is a circuit interface device applied to an electronic device having a circuit interface slot, which has a simple operation procedure and can be quickly disassembled and assembled.
A circuit interface device includes an outer shell and a circuit board assembly. An insertion port 122 is provided at one end of the outer shell. The circuit board assembly 200 includes a circuit board 210 and a circuit board cover 220, and the circuit board 210 is installed on the circuit board cover 220. The circuit board assembly 200 is incorporated in the outer shell 100, the circuit board cover 220 makes the electrical connection contact of the circuit board 210 correspond to the insertion port, and the outer shell 100 constitutes a connection portion 116 at one end thereof. The connection unit 116 inserts the circuit interface device into the circuit interface slot.
[Selection] Figure 2

Description

  The present invention relates to a circuit interface device, and more particularly to a circuit interface device applied to an electronic device.

  The USB (Universal Serial Bus) transmission interface has many advantages such as hot plug, plug and play functions, high transmission speed, and convenient portability, so it can be widely applied to various personal computer peripherals and consumer electronics products. For example, devices such as a portable memory and a wireless receiver are all connected to a USB standard electrical slot of a personal computer using a USB interface connector. However, each of the above portable memories or wireless receivers has a drawback that the volume is too large, and in use, a situation in which the device and the personal computer are damaged due to careless collision.

  In order to improve the above defects, the related industry has submitted many new methods. For example, the improved structure of a USB application device disclosed in US Pat. No. 7,165,998 has a design concept of a two-layer circuit board. By using it, it will achieve the effect of reducing the total length of the USB application device, but it also causes problems in other directions, and by installing the electrical connection contact of the USB application device directly on the circuit board, The board is directly connected to the USB slot of the personal computer, but since the circuit board is built in the outer shell layer, the circuit board is not supported underneath and the circuit board is suspended. The USB application device cannot be stably fixed in the slot. Therefore, it is necessary to design the support structure and front end protective layer in US Pat. No. 7,165,998 to support the circuit board and to cover the connector with the outer shell layer.

  As described above, the known USB application apparatus reduces the overall volume through the structure of the two-layer circuit board and shortens the entire length thereof. However, the USB application device uses a plurality of members, supports the circuit board, is quite complicated in structure, has a high degree of manufacturing difficulty, and the support structure and the front end protective layer are bonded by an adhesive. It can be adopted and incorporated into the shell layer to achieve the effect of tight joint, but requires many steps and manpower during assembly, making the assembly process more complicated. In addition, since the USB application device is tightly bonded by the adhesive bonding method, the USB application device cannot be freely disassembled, and if the outer shell layer is disassembled, it will be destroyed, and the USB application device cannot be used. Incurs a heavy burden in repairs.

  Based on the above patent application, Logitech has developed a wireless laser mouse receiver dedicated to NANO series notebook computers, which has a two-layer circuit board and two plastic members. One end of the layer circuit board is sandwiched, and the exposed two-layer circuit board is covered with a metal outer shell to constitute a complete outer shape receiver. However, the receiver developed by Logitec has adopted a plastic member and a metal outer shell to completely cover the circuit board, resulting in an increase in manufacturing cost, and it cannot be combined with different external designs, for example, Different materials and colors cannot be used, and it is impossible to provide an appearance having a suitable design feeling according to market demands.

JP 2006-59868 A

  In view of the above problems, the present invention has a complicated USB application device structure in the prior art and is assembled by an adhesive bonding method, or a metal material is selected as the material of the USB application device component, and more Provided is a circuit interface device that not only requires processes but also has difficulty in assembly, solves problems such as complicated assembly processes and increased manufacturing costs.

  The circuit interface device disclosed in the present invention is applied to an electronic device, and the electronic device has a circuit interface slot. The circuit interface device consists of an outer shell and a circuit board assembly. An insertion opening is provided at one end of the outer shell. The circuit board assembly includes a circuit board and a circuit board cover, the circuit board is installed on the circuit board cover, a plurality of electronic components are laid on both sides of the circuit board, and a plurality of circuit boards are provided on one surface of the circuit board. Provide electrical contacts. The circuit board assembly is incorporated in the outer shell, the circuit board cover has the electrical connection contact of the circuit board corresponding to the insertion port, and the outer shell has one end thereof as a connection portion. Is inserted into the circuit interface slot.

  The circuit interface device of the present invention incorporates a circuit board assembly into a shell body by a combination of structures, simplifies the operation procedure, achieves quick disassembly and assembly, has favorable convenience, and has a circuit interface. The number of parts used by the apparatus is small, the assembly steps are simple, and the manufacturing and assembly process costs can be reduced. In addition, since the circuit board cover of the present invention can support the circuit board efficiently, the circuit interface device is stably accommodated in the circuit interface slot of the electronic device, and the stability of the circuit interface device is enhanced. .

  In addition, since one side of the circuit board cover is exposed to the outside, it can be adapted to various external appearance requirements of the user and can be used for conversion of different materials and colors. It can be made more flexible. Further, the circuit board of the present invention adopts a double-layer circuit board form, thereby shortening the length of the circuit board and reducing the volume of the entire circuit interface device.

It is explanatory drawing of the circuit interface apparatus and electronic device of the Example of this invention. 1 is an exploded explanatory diagram of a circuit interface device according to an embodiment of the present invention. It is combination explanatory drawing of the circuit interface apparatus of the Example of this invention. 1 is an exploded view of a circuit board assembly according to an embodiment of the present invention. FIG. 4 is a cross-sectional explanatory diagram of FIG. 3. It is another cross-sectional explanatory drawing of FIG. It is another three-dimensional cross-sectional explanatory drawing of FIG. It is an exploded explanatory view of a circuit interface device of another embodiment of the present invention. FIG. 6 is an exploded view of a circuit board assembly according to another embodiment of the present invention. It is sectional explanatory drawing of the circuit board assembly of the other Example of this invention.

  FIG. 1 is an explanatory diagram of a circuit interface device and an electronic device according to an embodiment of the present invention. 2 to 4 are explanatory diagrams of a circuit interface according to an embodiment of the present invention. As shown in FIG. 1, the circuit interface 10 of this embodiment is applied to an electronic device 20, and the electronic device 20 has a circuit interface slot 22, and the circuit interface device 10 is electrically inserted and installed therein. Used for. In the present embodiment, the electronic device 20 is a notebook personal computer, a desktop personal computer, an ultra mobile personal computer (UMPC), or the like, but is not limited thereto.

  The circuit interface provided by the present invention refers to a USB (Universal Serial Bus) standard connection interface. The circuit interface device 10 is a portable memory or a wireless receiver (such as an infrared receiver, an RF receiver, an infrared receiver). DONGLE) or other USB standard interface device 10, and can be applied to IEEE 1394, HDMI interface standard, and the like. In the following detailed description of the present invention, the USB interface is a preferred embodiment of the present invention, but the drawings are provided for reference and explanation only and are not used to limit the protection scope of the present invention. Absent.

  2, 3, and 4, the circuit interface device 10 of this embodiment includes an outer shell 100 and a circuit board assembly 200. The outer shell 100 includes a shell body 110 and a shell lid 130, and the circuit board assembly 200 includes a circuit board 210 and a circuit board cover 220. Among them, the circuit board assembly 200 is accommodated in the shell 110, and one end of the shell lid 130 is assembled in the shell 110.

  Here, there is a space for accommodating the circuit board assembly 200 inside the shell 110, and the space inside the shell 110 is slightly larger than the outer dimensions of the circuit board assembly 200, and the circuit board assembly 200 is inside the shell 110. Just be able to accommodate. In the present embodiment, the material of the shell 110 may be formed of a non-metallic material such as plastic, reinforced plastic, or polymer, but is not limited thereto.

  Among them, the circuit board 210 is assembled on the circuit board cover 220, and a plurality of electronic components 214 are respectively laid on two opposing surfaces of the circuit board 210 to form a double-sided mounting circuit board, and the circuit board A plurality of electrical connection contacts 212 are laid on one side of 210. A first localization part 216 is provided at one end of the circuit board 210, and an outer mold of the first localization part 216 is, for example, a concave groove.

  The circuit board cover 220 includes a sliding block 222 and a second localization part 224. The sliding block 222 is installed on the side of the circuit board cover 220, and the second localization part 224 protrudes from one surface of the circuit board cover 220. , Relative to the position of the first localization part 216. In the present embodiment, the first localization portion 216 and the second localization portion 224 complement each other in terms of the outer shape, and the outer shape of the second localization portion 216 is, for example, a convex block and a first localization portion 216 that is a concave groove. Combine with. Thus, the circuit board 210 can be fixed on the circuit board cover 220 by combining the shapes of the first localization part 216 and the second localization part 224 with each other. Here, it should be noted that the present invention does not limit the outer shape and the coupling method of the first localization unit 216 and the second localization unit 224. In other embodiments of the present invention, the first localization unit 216 is not limited. And the second localization unit 224 may be combined into one in other forms.

  A recess 112 and a fitting groove 114 are formed on one outer surface of the shell 110, and a fitting block 226 is provided on one surface corresponding to the fitting groove 114 of the circuit board cover 220, so that the circuit board assembly 200 is a shell. When assembled in 110, the mating block 226 of the circuit board cover 220 and the mating groove 114 of the shell 110 are fitted together to firmly connect the circuit board assembly 200 and the shell 110 to one body and drop off. Do not. As described above, the fitting block 226 and the fitting groove 114 are fitted to fix the circuit board assembly 200 and the shell body 110, whereby the sliding movement between the circuit board assembly 200 and the shell body 110 after assembly is performed. Can be prevented. Further, when the circuit board assembly 200 is incorporated into the shell 110, one surface of the circuit board cover 220 and the outer surface of the shell 110 are flat, so that the surface of the circuit board cover 220 is the outer surface of the shell 110. That is, the circuit board cover 220 can cover the recess 112. As can be seen from the above, the outer surface of the circuit board cover 220 becomes the outer surface of the shell 110 and shields the recess 112, thus eliminating the processing material when manufacturing the shell 110 and reducing manufacturing costs. it can. In the present embodiment, the material of the circuit board cover 220 may be plastic, reinforced plastic, or non-metallic material, but is not limited thereto. Further, the surface of the circuit board cover 220 becomes the outer surface of the shell 110, that is, the outer surface of the circuit board cover 220 can be exposed to the outside. In this manner, the circuit board cover 220 can be changed to different materials and colors according to different appearance requirements, and the appearance molding design of the circuit board interface 10 can be improved and the competitiveness of the market can be enhanced. .

  FIG. 5 is a cross-sectional explanatory view of FIG. 1, 2, and 5, the shell body 110 includes a connection portion 116 and an end portion 118, one side of the connection portion 116 is provided with an insertion port 116 a, and the end portion 118 opens an opening 118 a, The inner surface of the body 110 is further provided with a first sliding groove 120, and the sliding block 222 on the side surface of the circuit board assembly 200 corresponds to the position of the first sliding groove 120 in the shell body 110, and the circuit of the circuit board assembly 200. The plate cover 220 is slidably installed in the first sliding groove 120 by the sliding block 222 and installed in the shell 110. Specifically, when the circuit board assembly 200 is inserted into the opening 118 a of the end portion 118 and assembled to the shell body 110, a location corresponding to the first sliding groove 120 of the sliding block 222 of the circuit board cover 220 is the shell body 110. Slide in. Here, the outer dimension of the sliding block 222 is slightly smaller than the dimension of the first sliding groove 120, and the sliding block 222 can be just slid into the first sliding groove 120, and the circuit board assembly 200 is assembled in the shell 110. .

  When the circuit board assembly 200 is assembled into the shell from the opening 118 a of the end portion 118, the circuit board 210 supports the circuit board cover 220 to connect the electrical connection contact 212 of the circuit board 210 to the insertion port 116 a of the connection portion 116. Correspond to the position. When the user inserts the connection portion 116 of the circuit interface device 10 into the electronic device 20, the connection portion 116 can be stably inserted into the circuit interface slot 22, and the electrical connection contact 212 on the circuit board 210. Can be electrically connected to the circuit interface slot 22 to allow the circuit interface device 10 to transmit data to and from the electronic device.

  In this embodiment, the connection unit 116 and the circuit interface slot 22 conform to the USB (Universal Serial Bus) interface standard. In the USB (Universal Serial Bus) standard, two types of connectors having different sizes and shapes are defined, one being a series A connector and the other being a series B connector. In this embodiment, the connection portion 116 adopts a USB (Universal Serial Bus) series A connector standard, and the standard dimensions are a rectangular flat shape having a length of 15.7 mm, a width of 7.5 mm, and a height of 12 mm. is there. Here, the connection unit 116 is used to connect to the circuit interface slot 22 of the same standard.

  The shell 110 further includes a locking wall 122. The locking wall 122 and the insertion port 116a are located on the same side of the shell 110, and the circuit board assembly 200 is incorporated into the shell 110 from the opening 118a. When one side of the circuit board assembly 200 is engaged, the one side of the circuit board assembly 200 is locked inside the locking wall 122, that is, the circuit board assembly 200 is slid into the first sliding groove 120 by the sliding block 222 and positioned. The movement can be stopped by receiving the locking of the locking wall 122, the circuit board assembly 200 can be smoothly positioned, and the assembly can be completed.

  FIG. 6 is another cross-sectional explanatory diagram of FIG. FIG. 7 is another explanatory cross-sectional view of FIG. In FIGS. 2, 6, and 7, the shell body 130 has a housing portion 132, the housing portion 132 is installed at the end portion 118 of the shell body 110, and the second sliding groove 132 a is formed in the housing portion 132. The circuit board assembly 200 is slidably installed in the second sliding groove 132 a by the sliding block 222 to accommodate the circuit board assembly 200 in the shell lid 130.

  As described above, the two opposing surfaces of the shell lid 130 are each provided with a protrusion 134, and the two surfaces corresponding to the shell lid 130 inside the shell 110 have a recess 124 corresponding to each of these, The recess 124 is in the vicinity of the opening 118 a, and the shell 130 is fitted to each other by the protrusion 134 and the recess 124 inside the shell 110. When the shell lid 130 is incorporated into the end portion 118 of the shell body 110 from the opening 118a by the accommodating portion 132, the protrusions 134 on the two sides of the shell body 130 are fitted in correspondence with the recesses 124, and the shell lid 130 and the shell body are fitted. The end portions 118 of 110 are stably joined together to prevent sliding movement within the shell 110 of the shell lid 130 and causing dropout.

  In addition, since there are many electronic components 214 laid on the circuit board 210, the circuit board cover 220 further includes an accommodation space 228. When the circuit board 210 and the circuit board cover 220 are joined together, an accommodation space 228 is formed between one surface of the circuit board 210 and the circuit board cover 220, and this accommodation space 228 is an electronic component 214 on the circuit board 210 side. It becomes the space which accommodates. As described above, not only can the electronic component 214 positioned between the one side surface of the circuit board 210 and the circuit board cover 220 be protected, but the electronic component 214 can be mounted on both surfaces of the circuit board 210. The length of the circuit board 210 is shortened, and the entire volume of the circuit interface 10 is reduced.

  In order to allow the circuit board assembly 200 to be smoothly incorporated into the shell 110, a guide step 120a, for example, a guide angle is provided at one end of the first sliding groove 120, and the first sliding groove 120 is formed by the guide step 120a. The width of one end is increased, and thus the sliding block 222 of the circuit board cover 220 can be easily slid into the first sliding groove 120 by the guide step 120a, thereby making the assembly more convenient.

  8 to 10 are explanatory diagrams of a circuit interface device according to another embodiment of the present invention. The component parts of the present embodiment and the first embodiment are substantially the same, and the reference numerals of the same or similar members mean the same or similar members. 8, 9, and 10, the circuit interface device 10 of this embodiment includes an outer shell 100 and a circuit board assembly 200. The outer shell 110 includes a shell body 110 and a shell lid 130, and the circuit board assembly 200 includes a circuit board 210 and a circuit board cover 220. Among them, the circuit board assembly 200 is accommodated in the shell 110, the shell lid 130 has an accommodating portion 132, and the shell lid 130 is incorporated by inserting the accommodating portion 130 into the shell 110.

  The circuit board cover 220 according to the present embodiment further includes two hooks 230, and the two hooks 230 are positioned on opposite sides of the circuit board cover 220 to hook the circuit board 210 onto the circuit board cover 220. Used for. When the circuit board 210 is assembled on the circuit board cover 220, both sides of the circuit board 210 are pressed by the hook 230 from the slope on the upper side of the hook 230, and the hook 230 is elastically deformed and expanded outward. After the circuit board 210 is hooked, the circuit board 210 is firmly fixed on the circuit board cover 220 so that the hook 230 is restored to the original position.

  Here, in the circuit assembly of this embodiment, the first localization part 216 of the circuit board 210 and the second localization part 224 of the circuit board cover 220 are combined with each other, and the circuit board 210 is further connected to the circuit board cover by the hook 230. Hook onto 220 to increase the tightness between circuit board 210 and circuit board cover 220. It should be noted that the present invention is not limited to fixing the circuit board 210 on the circuit board cover 220 in the form of a hook 230, and may be coupled to each other in other forms. .

  In addition, one end of the circuit board cover 220 is a coupling end 232, the coupling end 232 extends the fitting member 234, the fitting member 234 has an opening 234 a, and the opening of the housing portion 132 of the shell lid 130. An inclined block 132b is provided at a position corresponding to 234a, and the inclined block 132b is fitted into the opening 234a to couple the circuit board cover 220 and the shell 130 to each other. More specifically, when the shell lid 130 is incorporated into the shell body 110, the inclined block 132 b of the housing portion 132 is fitted into the opening 234 a of the fitting member 234, thereby causing the circuit board cover 220 and the shell lid 130 to be fitted. The circuit board assembly 200 and the shell lid 130 can be coupled to each other, and the circuit board assembly 200 is fixed in the shell 110 so that the shell lid 130 and the shell 110 are indirect. Are combined into one.

  As described above, the circuit interface device according to the present invention can be easily and securely assembled by the combination of the members, and can maintain a stable and fixed structural strength. Can be efficiently reduced, and the assembly process can be made smoother. Further, the circuit board cover of the present invention is combined with the circuit board to form a circuit board assembly, and the circuit board can support the electrical connection contact on the circuit board to the insertion port by supporting the circuit board cover. The structural strength of the circuit interface device can be improved, and the circuit interface device can be stably inserted and installed in the circuit interface slot. One surface of the circuit board cover can be the outer surface of the shell, and the appearance of the circuit interface device can be changed by employing different materials and colors for the circuit board cover. Furthermore, the present invention is woven and installed in the form of a two-layer circuit board, reducing the length of the circuit board, and therefore the present invention has the advantage of reducing the volume.

  In the present invention, preferred embodiments have been disclosed as described above, but these are not intended to limit the present invention in any way, and any person who is familiar with the technology within the scope of the present invention will not depart from the spirit and scope of the present invention. Of course, various variations and hydration can be added.

10 circuit interface device 20 electronic device 22 circuit interface slot 100 outer shell 110 shell body 112 recess 114 fitting groove 116 connection portion 118 end 118a opening 120 first sliding groove 120a guide step 122 locking wall 124 recess 130 shell cover 132 Part 132a Second sliding groove 132b Inclined block 134 Projection part 200 Circuit board assembly 210 Circuit board 212 Electrical connection contact 214 Electronic component 216 First localization part 220 Circuit board cover 222 Sliding block 224 Second localization part 226 Fitting block 228 Housing space 230 hook 232 coupling end 234 fitting member 234a opening

Claims (11)

A circuit interface device applied to an electronic device having a circuit interface slot, the circuit interface device comprising:
An outer shell having an insertion opening at one end;
A circuit board assembly comprising a circuit board cover on which a plurality of electronic components are mounted on both sides and a circuit board provided with a plurality of electrical contacts on one side of the surface is installed on the upper surface.
The circuit board assembly is assembled in the shell by arranging the electrical contacts of the circuit board of the circuit board cover corresponding to the insertion opening of the shell,
A circuit interface device having an insertion port side of the outer shell as a connection portion to be inserted into the circuit interface slot. The outer shell consists of a shell body and a shell lid,
The shell includes the connection portion and an end portion on the opposite side.
The insertion port is installed on the connection side,
The end opens an opening,
The circuit interface device according to claim 1, wherein the shell lid has a housing portion for housing one end of the circuit board assembly, and the housing portion is inserted into the opening and coupled to the shell body.   The circuit interface device according to claim 1, wherein the connection unit and the circuit interface slot conform to a USB (Universal Serial Bus) interface standard.   The circuit board has a first localization part, and the circuit board cover has a second localization part. The first localization part and the second localization part are combined with each other, and the circuit board is The circuit interface device according to claim 1, wherein the circuit interface device is fixed on a circuit board cover.   The circuit interface device according to claim 1, wherein the circuit board cover has a space between the circuit board and the circuit board cover to receive the electronic component of the circuit board.   The circuit board cover further includes two hooks, and the two hooks are located on both sides of the circuit board cover and are used to hook the circuit board onto the circuit board cover. The circuit interface device as described.   The circuit board cover has a sliding block on a side thereof, and a first sliding groove corresponding to the sliding block is provided on the inner side surface of the shell body, and the sliding board end of the circuit board cover is provided at the end of the first sliding groove. The circuit interface device according to claim 2, wherein the circuit board cover disposed in the shell is positioned by providing a first localization portion that contacts the block. A circuit interface device applied to an electronic device having a circuit interface slot, the circuit interface device having a shell having an opening on one side;
A circuit board having a circuit board cover on one side;
With
A circuit having a concave portion opened on one surface of the shell, and the circuit board being inserted and installed in the shell through the opening of the shell, and the circuit board cover being taken out from the concave portion Interface device.   9. The circuit interface device according to claim 8, wherein a sliding groove is provided in the shell, and the circuit board is inserted and installed in the sliding groove.   9. The circuit interface device according to claim 8, wherein a plurality of electrical connection contacts to be connected to the electronic device are arranged on one side of the circuit board, and at least one electronic component is provided on the circuit board in the circuit board cover.   The circuit interface device according to claim 8, wherein a shell lid is provided at the opening portion.

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