An electronic information anti-interference device mounting structure

Abstract

The application provides an electronic information anti-interference device mounting structure and belongs to the technical field of anti-interference filters. The electronic information anti-interference device mounting structure comprises an anti-interference filter and a mounting plate. The mounting plate is provided with a fixing mechanism for mounting the anti-interference filter on the top. The inside of the mounting plate is provided with a moving mechanism for moving the anti-interference filter. The plug-in part can be inserted into the inside of the clamping groove, the clamping part can be limited in the inside of the clamping groove, the anti-interference filter can be mounted on one side of the mounting plate. When the connection between the mounting plate and the anti-interference filter needs to be disconnected, the plug-in part can be separated from the insertion groove by pulling the horizontal plate to move the moving part, the limitation of the clamping part by the plug-in part is released, and after the plug-in part is separated from the insertion groove, the clamping part is moved to the outside of the clamping groove by continuously pulling the horizontal plate to move upward. The insertion groove is no longer located below the plug-in part, so the hand can be released, and the staff can take down the anti-interference filter with both hands.

Description

Technical Field

[0001] This application relates to the field of anti-interference filters, and more specifically, to an electronic information anti-interference device mounting structure. Background Technology

[0002] Anti-interference devices, such as anti-interference filters, are electronic components that can effectively filter electromagnetic interference signals. They are widely used in power systems, communication systems, radar, and radio. Anti-interference technology can effectively reduce the interference received by sensors and improve their stability and reliability by using shielding, grounding, filtering, and isolation.

[0003] However, existing anti-interference filters still have the following shortcomings in use: Most existing anti-interference filters are installed in a certain position by bolts. When you want to disassemble the anti-interference filter, you not only need the assistance of tools, but the disassembly process is also time-consuming and laborious. Utility Model Content

[0004] To overcome the above shortcomings, this application provides an electronic information anti-interference device mounting structure, which aims to improve the problem that most existing anti-interference filters are installed in a certain position by bolts, and that when the anti-interference filter is to be disassembled, not only is the assistance of tools required, but the disassembly process is also time-consuming and laborious.

[0005] This application provides an electronic information anti-interference device mounting structure, including an anti-interference filter and a mounting plate. A fixing mechanism for mounting the anti-interference filter is provided on the top of the mounting plate, and a moving mechanism for moving the anti-interference filter is provided inside the mounting plate.

[0006] The fixing mechanism includes two sets of clips, both sets of clips are connected to one side of the anti-interference filter, and each set of clips has a slot on its top.

[0007] In one specific implementation, a slot is provided on one side of the mounting plate, and two sets of housings are connected to the top of the mounting plate, with a first moving part slidably connected inside the housing.

[0008] In the above implementation process, by setting the card slot, the card can be inserted into the inside of the card slot. By limiting the card inside the card slot, the anti-interference filter can be fixed to one side of the mounting plate.

[0009] In one specific implementation, the bottom of the first movable component is connected to a plug, one end of which penetrates the mounting plate and is movably inserted into the inside of a slot.

[0010] In the above implementation process, by setting the plug-in, the first moving part can be controlled to move, thereby moving the plug-in and inserting it into the card slot. By inserting the plug-in into the slot, the card is limited to the inside of the card slot.

[0011] In one specific implementation, a first inclined surface is provided at one end of the plug-in.

[0012] In the above implementation process, by setting the first inclined surface, when the card is inserted into the card slot, squeezing the first inclined surface can drive the plug to move.

[0013] In one specific implementation, a vertical rod is connected to the top of the first movable member, a spring is sleeved on the outer surface of the vertical rod, and a horizontal plate is connected to the other end of the vertical rod.

[0014] In the above implementation process, by setting up the horizontal plate, the vertical rod can be moved by pulling the horizontal plate, which in turn moves the first moving part and compresses the spring. The spring can prevent the first moving part from moving arbitrarily when it is not under force.

[0015] In one specific implementation, the moving mechanism includes two sets of support plates, both sets of support plates being connected to one side of the mounting plate.

[0016] In the above implementation process, by setting up a support plate, a certain supporting force can be provided after the card is removed from the card slot, so as to prevent the anti-interference filter from falling off.

[0017] In one specific implementation, the mounting plate has a cavity inside, and a second movable component is slidably connected inside the cavity. A round rod is connected to the top of the second movable component, and the other end of the round rod passes through the mounting plate and is connected to a connecting plate. The connecting plate is connected to one side of the horizontal plate.

[0018] In the above implementation process, by setting up the connecting plate, when the horizontal plate is pulled upward, it drives the round rod to move, which in turn drives the second moving part to move upward.

[0019] In one specific implementation, a through hole is provided on one side of the mounting plate, and two sets of sliders are connected inside the through hole, and a pusher is movably connected inside the through hole.

[0020] In the above implementation process, the through hole allows the pusher to slide inside the through hole, and the pusher can push the anti-interference filter to move above the support plate.

[0021] In one specific implementation, the top of the pusher is provided with two sets of sliding grooves, and the slider is slidably connected inside the sliding grooves.

[0022] In the above implementation process, by setting the sliding groove, when the pusher slides, the slider can be driven to slide inside the sliding groove, and the slider will not disengage from the sliding groove.

[0023] In one specific implementation, one end of the pusher has a second inclined surface and a groove.

[0024] In the above implementation process, by setting the second inclined surface, when the second moving part moves upward, the second inclined surface is squeezed, which drives the pushing part to move outward, and drives the anti-interference filter to move a certain distance. After the person pulls the horizontal plate upward and moves the plug out of the slot, they can continue to pull the horizontal plate upward and move the card to the outside of the card slot. The slot is no longer located below the plug, so the person can release the plug to release the limit of the card and disconnect the connection between the mounting plate and the anti-interference filter. The groove is used to insert into the outer surface of the round rod.

[0025] Compared with the prior art, the beneficial effects of this application are as follows: By setting up a fixing mechanism and a moving mechanism, the plug can be inserted into the inside of the card slot, and the card can be limited inside the card slot. The anti-interference filter can be installed on one side of the mounting plate. When it is necessary to disconnect the connection between the mounting plate and the anti-interference filter, it is only necessary to pull the horizontal plate to move the moving part, so that the plug can be disengaged from the slot, the limiting effect of the plug on the card can be released, and after the plug is disengaged from the slot, the horizontal plate can be pulled upward to move the card to the outside of the card slot. The slot is no longer located below the plug, so it can be released. The operator can then remove the anti-interference filter with both hands. This solves the problem that most existing anti-interference filters are installed in a certain position by bolts. When it is necessary to disassemble the anti-interference filter, not only is the assistance of tools required, but the disassembly process is also time-consuming and laborious. Attached Figure Description

[0026] To more clearly illustrate the technical solutions of the embodiments of this application, the drawings used in the embodiments will be briefly introduced below. It should be understood that the following drawings only show some embodiments of this application and should not be regarded as a limitation of the scope. For those skilled in the art, other related drawings can be obtained from these drawings without creative effort.

[0027] Figure 1 This is a schematic diagram of an electronic information anti-interference device installation structure provided in an embodiment of this application;

[0028] Figure 2 A schematic diagram of the anti-interference filter structure provided for an embodiment of this application;

[0029] Figure 3 A schematic diagram of the card structure provided for an embodiment of this application;

[0030] Figure 4 A schematic diagram of the support plate structure provided for an embodiment of this application;

[0031] Figure 5 A schematic diagram of the plug-in structure provided for an embodiment of this application;

[0032] Figure 6 A schematic diagram of the cavity structure provided for an embodiment of this application;

[0033] Figure 7 A schematic diagram of the through-hole structure provided for an embodiment of this application;

[0034] Figure 8 A schematic diagram of the sliding groove structure provided for an embodiment of this application.

[0035] In the diagram: 1. Anti-interference filter; 2. Fixing mechanism; 201. Mounting plate; 202. Clip; 203. Slot; 204. Housing; 205. Slot; 206. Horizontal plate; 207. Vertical rod; 208. Spring; 209. First moving part; 2010. Insert; 2011. First inclined plane; 3. Moving mechanism; 301. Support plate; 302. Pushing part; 303. Round rod; 304. Connecting plate; 305. Cavity; 306. Second moving part; 307. Second inclined plane; 308. Through hole; 309. Slider; 3010. Sliding groove; 3011. Groove. Detailed Implementation

[0036] The technical solutions in the embodiments of this application will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of this application, and not all embodiments.

[0037] Please see Figure 1 This application provides an electronic information anti-interference device mounting structure, including an anti-interference filter 1 and a mounting plate 201.

[0038] Please see Figure 1 The mounting plate 201 is provided with a fixing mechanism 2 for mounting the anti-interference filter 1 on its upper part, and a moving mechanism 3 for moving the anti-interference filter 1 is provided inside the mounting plate 201.

[0039] Please see Figure 1 , Figure 2 , Figure 3 , Figure 4 , Figure 5 , Figure 6 , Figure 7 and Figure 8The fixing mechanism 2 includes two sets of clips 202, both sets of clips 202 are connected to one side of the anti-interference filter 1, and the top of each set of clips 202 is provided with a slot 203.

[0040] In a specific configuration, a slot 205 is provided on one side of the mounting plate 201, and two sets of housings 204 are connected to the top of the mounting plate 201. A first moving part 209 is slidably connected inside the housing 204. The slot 205 allows the card 202 to be inserted into the slot 205. By limiting the card 202 inside the slot 205, the anti-interference filter 1 can be fixed to one side of the mounting plate 201.

[0041] In a specific configuration, the bottom of the first movable component 209 is connected to a plug 2010. One end of the plug 2010 passes through the mounting plate 201 and is movably inserted into the slot 203. By controlling the movement of the first movable component 209, the plug 2010 can be moved and inserted into the card slot 205. By inserting the plug 2010 into the slot 203, the card 202 is limited to the inside of the card slot 205.

[0042] In a specific configuration, one end of the plug-in 2010 is provided with a first inclined surface 2011. By setting the first inclined surface 2011, when the card 202 is inserted into the card slot 205, squeezing the first inclined surface 2011 can drive the plug-in 2010 to move.

[0043] In a specific configuration, a vertical rod 207 is connected to the top of the first moving member 209, and a spring 208 is sleeved on the outer surface of the vertical rod 207. A horizontal plate 206 is connected to the other end of the vertical rod 207. By setting the horizontal plate 206, the vertical rod 207 can be moved by pulling the horizontal plate 206, which in turn moves the first moving member 209 and compresses the spring 208. The spring 208 can prevent the first moving member 209 from moving arbitrarily when it is not under force.

[0044] In a specific configuration, the moving mechanism 3 includes two sets of support plates 301, both of which are connected to one side of the mounting plate 201. The support plates 301 provide a certain support force after the card 202 is disengaged from the card slot 205, preventing the anti-interference filter 1 from falling off.

[0045] In a specific configuration, the mounting plate 201 has a cavity 305 inside, and a second moving member 306 is slidably connected inside the cavity 305. A round rod 303 is connected to the top of the second moving member 306, and the other end of the round rod 303 passes through the mounting plate 201 and is connected to a connecting plate 304. The connecting plate 304 is connected to one side of the horizontal plate 206. By setting the connecting plate 304, when the horizontal plate 206 is pulled upward, the round rod 303 is moved, which in turn moves the second moving member 306 upward.

[0046] In a specific configuration, a through hole 308 is provided on one side of the mounting plate 201. Two sets of sliders 309 are connected inside the through hole 308, and a pusher 302 is movably connected inside the through hole 308. The through hole 308 allows the pusher 302 to slide inside the through hole 308, and the pusher 302 can push the anti-interference filter 1 to move above the support plate 301.

[0047] In a specific configuration, the top of the pusher 302 is provided with two sets of sliding grooves 3010, and the slider 309 is slidably connected inside the sliding grooves 3010. The sliding grooves 3010 enable the pusher 302 to slide inside the sliding grooves 3010 when it slides, and the slider 309 will not detach from the sliding grooves 3010.

[0048] In a specific configuration, one end of the pusher 302 has a second inclined surface 307 and a groove 3011. The second inclined surface 307 allows the pusher 302 to move outward when the second moving part 306 moves upward, causing the anti-interference filter 1 to move a certain distance. After the horizontal plate 206 is pulled upward to disengage the plug 2010 from the slot 203, the horizontal plate 206 can be pulled upward to move the card 202 outward from the slot 205. The slot 203 is no longer below the plug 2010, so the user can release the plug 2010 from limiting the card 202 and disconnect the connection between the mounting plate 201 and the anti-interference filter 1. The groove 3011 is used to insert into the outer surface of the round rod 303.

[0049] The working principle of this electronic information anti-interference device installation structure is as follows: When using the electronic information anti-interference device installation structure, the operator can manually pull the horizontal plate 206, causing the vertical rod 207 to move downwards, which in turn causes the first moving part 209 to move upwards. This allows the plug to disengage from the slot 203, releasing the plug from the limiting position of the clip 202. After the plug 2010 disengages from the slot 203, the operator continues to pull the horizontal plate 206 upwards. The second moving part 306 will press against the second inclined surface 307, causing the pushing part 302 to move outwards. This allows the slider 309 to slide inside the sliding groove 3010. The pushing part 302 pushes the anti-interference filter 1 to move, causing the clip 202 to disengage from the inside of the slot 205. The slot 203 is no longer located below the plug 2010, and the operator can release the handle. The operator can then remove the anti-interference filter 1 with both hands. This solves the problem that most existing anti-interference filters 1 are installed in a certain position using bolts, and that disassembling the anti-interference filter 1 requires tools and is time-consuming and laborious.

[0050] The above are merely specific embodiments of this application, but the scope of protection of this application is not limited thereto. Any variations or substitutions that can be easily conceived by those skilled in the art within the scope of the technology disclosed in this application should be included within the scope of protection of this application. Therefore, the scope of protection of this application should be determined by the scope of the claims.

Claims

1. An electronic information anti-interference device mounting structure, characterized in that, include An anti-interference filter (1) and a mounting plate (201) are provided. A fixing mechanism (2) for mounting the anti-interference filter (1) is provided on the top of the mounting plate (201). A moving mechanism (3) for moving the anti-interference filter (1) is provided inside the mounting plate (201). The fixing mechanism (2) includes two sets of clips (202), both sets of clips (202) are connected to one side of the anti-interference filter (1), and the top of both sets of clips (202) is provided with a slot (203).

2. The electronic information anti-interference device mounting structure according to claim 1, characterized in that, A slot (205) is provided on one side of the mounting plate (201), and two sets of housings (204) are connected to the top of the mounting plate (201). A first moving part (209) is slidably connected inside the housing (204).

3. The electronic information anti-interference device mounting structure according to claim 2, characterized in that, The bottom of the first movable part (209) is connected to a plug (2010), one end of which penetrates the mounting plate (201) and is movably inserted into the slot (203).

4. The electronic information anti-interference device mounting structure according to claim 3, characterized in that, One end of the plug-in (2010) has a first inclined surface (2011).

5. The electronic information anti-interference device mounting structure according to claim 4, characterized in that, The top of the first moving part (209) is connected to a vertical rod (207), and a spring (208) is sleeved on the outer surface of the vertical rod (207). The other end of the vertical rod (207) is connected to a horizontal plate (206).

6. The electronic information anti-interference device mounting structure according to claim 1, characterized in that, The moving mechanism (3) includes two sets of support plates (301), both sets of support plates (301) are connected to one side of the mounting plate (201).

7. The electronic information anti-interference device mounting structure according to claim 6, characterized in that, The mounting plate (201) has a cavity (305) inside, and a second moving part (306) is slidably connected inside the cavity (305). A round rod (303) is connected to the top of the second moving part (306), and the other end of the round rod (303) passes through the mounting plate (201) and is connected to a connecting plate (304). The connecting plate (304) is connected to one side of the horizontal plate (206).

8. The electronic information anti-interference device mounting structure according to claim 7, characterized in that, The mounting plate (201) has a through hole (308) on one side, and two sets of sliders (309) are connected inside the through hole (308). A pusher (302) is movably connected inside the through hole (308).

9. The electronic information anti-interference device mounting structure according to claim 8, characterized in that, The top of the pusher (302) is provided with two sets of sliding grooves (3010), and the slider (309) is slidably connected inside the sliding grooves (3010).

10. The electronic information anti-interference device mounting structure according to claim 9, characterized in that, The pusher (302) has a second inclined surface (307) at one end and a groove (3011) at the other end.

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