CN-224218731-U - Light intermediate frequency data acquisition equipment

Abstract

The utility model discloses light medium-frequency data acquisition equipment which comprises a mounting base and a shell, wherein the shell is welded on the mounting base, one side of the shell is provided with an interface end in a concentrated mode, and an anti-falling structure is arranged on the outer surface of the mounting base and in front of the interface end through rivets. According to the utility model, the anti-falling structure is arranged at the interface end, one interface end corresponds to a group of clamping plates arranged up and down, the wires at the interface end can be fixed in an anti-falling way under the elastic action of the telescopic spring rod, the wires at the interface end can be accurately clamped, the required wires are conveniently controlled to be anti-falling operation independently, when the frame-shaped plate extrudes the telescopic spring rod so that the positioning groove II is aligned with the inserting groove, a user can insert the positioning plate between the positioning groove II and the inserting groove, the clamping plates can be fixed, the influence on the anti-falling effect of the wires caused by shaking of the telescopic spring rod is avoided, and the shell is made of a carbon fiber composite material and is light and strong.

Inventors

• YE XING
• XU LIJIAO

Assignees

• 南京星涧信息技术有限公司

Dates

Publication Date

20260508

Application Date

20250526

Claims (7)

1. 1. The light intermediate frequency data acquisition equipment comprises a mounting base (1) and a shell (2) and is characterized in that the shell (2) is welded on the mounting base (1), an interface end (6) is intensively arranged on one side of the shell (2), and an anti-falling structure (5) is arranged on the outer surface of the mounting base (1) and positioned in front of the interface end (6) through rivets; The utility model provides a quick-release structure (5) is including fretwork mounting bracket (51), jack-in groove (511) have all been seted up to the equal range of downside on fretwork mounting bracket (51), and correspond and set up in interface end (6) the place ahead, all embedded in the through-hole in opposite directions of downside on fretwork mounting bracket (51) have flexible spring rod (58), flexible spring rod (58) outside all fixedly connected with splint (56), splint (56) outside all is equipped with cushion (57), the equal fixedly connected with frame template (52) of splint (56) both sides edge, top the top and the below of frame template (52) the constant head tank one (53) have all been seted up to the below of frame template (52) front side and below the top of frame template (52) front side has all been seted up constant head tank two (54), flexible spring rod (58) are natural state and make constant head tank one (53) align with jack-in groove (511), constant head tank one (53) align with jack-in groove (511) with two between the constant head tank (53) and the constant head tank (55).
2. 2. The light medium-frequency data acquisition equipment of claim 1, wherein a shell cover (3) is arranged around the top end of the shell (2) through rivets.
3. 3. The light medium-frequency data acquisition equipment of claim 1, wherein an electromagnetic shielding film (25) is arranged on the side wall of the shell (2), and a heat-conducting silica gel layer (26) is arranged on the inner side of the electromagnetic shielding film (25).
4. 4. The light medium-frequency data acquisition equipment according to claim 1, wherein a flexible circuit board (21) is arranged on the bottom side inside the shell (2), one side of the flexible circuit board (21) is welded with a medium-frequency signal processing module (22), one side of the flexible circuit board (21) is welded with a power module (23), the other side of the flexible circuit board (21) is welded with a signal module (24), and the medium-frequency signal processing module (22), the power module (23) and the signal module (24) are connected through the flexible circuit board (21).
5. 5. The light medium-frequency data acquisition equipment of claim 1, wherein heat dissipation grooves (27) are formed in the outer walls of the two sides of the shell (2) in an arrangement mode, embedding grooves (28) are formed in the outer sides of the two sides of the shell (2) and located on the outer sides of the heat dissipation grooves (27), and mounting grooves (29) are formed in the peripheries of the embedding grooves (28).
6. 6. The light medium-frequency data acquisition device according to claim 5, wherein the embedded plates (4) are embedded in the embedded grooves (28), mounting plates (42) are fixedly connected to the periphery of the embedded plates (4), the mounting plates (42) are arranged in the mounting grooves (29), and the mounting plates (42) are connected with the mounting grooves (29) through rivets.
7. 7. The light medium-frequency data acquisition equipment of claim 1, wherein the shell (2) is made of carbon fiber composite materials.

Description

Light intermediate frequency data acquisition equipment Technical Field The utility model relates to the technical field of electronic equipment, in particular to light-weight medium-frequency data acquisition equipment. Background The light-weight medium-frequency data acquisition equipment is an electronic equipment specially designed for collecting, storing and transmitting data from various data sources, and the traditional medium-frequency data acquisition equipment is heavy due to the adoption of a metal shell or a redundant circuit design. The technical scheme disclosed in the patent document is that the data acquisition equipment comprises an acquisition equipment body, a plurality of connecting ports and an anti-drop limiting mechanism. The anti-drop stop mechanism is arranged on the outer side of the connecting port and comprises a fixed stop frame, and a plurality of L-shaped clamping pieces which are uniformly distributed are integrally formed on one side of the fixed stop frame. Above-mentioned technical scheme is through removing anti-disengaging limiting plate from top to bottom for wire joint carries out anticreep chucking in the inslot that corresponds, but the wire is flexible material, reciprocates anti-disengaging limiting plate and can not just be with the wire card in the inslot that corresponds, and follow-up probably still needs the user to adjust one by one, and when the interface end grafting wire in addition, probably influences the user and installs the wire because the slip of top anticreep limiting plate. Disclosure of utility model The utility model aims to provide a lightweight medium-frequency data acquisition device, which aims to solve the problems in the background technology. In order to achieve the purpose, the light-weight medium-frequency data acquisition equipment comprises an installation base and a shell, wherein the shell is welded on the installation base, one side of the shell is provided with an interface end in a concentrated mode, and an anti-falling structure is arranged on the outer surface of the installation base and in front of the interface end through rivets. The anti-drop structure includes the fretwork mounting bracket, the jack-in groove has all been seted up to the equal range of downside about the fretwork mounting bracket, and correspond and set up in interface end the place ahead, all imbed flexible spring rod in the through-hole that the downside was in opposite directions about the fretwork mounting bracket, flexible spring rod outside all fixedly connected with splint, the splint outside all is equipped with the cushion, the equal fixedly connected with frame template of splint both sides edge, top frame template front side's top and below the constant head tank first has all been seted up to frame template front side's below about frame template front side's below and below frame template front side's top has all been seted up the constant head tank second, flexible spring rod is natural state and makes constant head tank first and jack-in groove align, all peg graft between constant head tank first and the jack-in groove, flexible spring rod is compression state and makes constant head tank second and jack-in groove alignment, peg graft the constant head tank between constant head tank second and the jack-in groove. In the above-mentioned technical scheme, carry out the anticreep with the wire under flexible spring rod elastic action and fix, can carry out the chucking with interface end wire accurately, and the convenient wire that needs of independent control carries out the anticreep operation, when frame template extrusion flexible spring rod makes constant head tank two align with the jack groove, and the user can peg graft the locating plate between constant head tank two and jack groove, and then can fix splint, avoids rocking of flexible spring rod and influences the anticreep effect of wire. As a further preferable mode of the technical scheme, a shell cover is arranged on the periphery of the top end of the shell through rivets. In the technical scheme, the internal element is convenient to detach and maintain. As a further preferable mode of the technical scheme, the side wall of the shell is provided with an electromagnetic shielding film, and the inner side of the electromagnetic shielding film is provided with a heat-conducting silica gel layer. Among the above-mentioned technical scheme, the electromagnetic shielding film that sets up solves the problem that carbon fiber shielding nature is poor, and the heat conduction silica gel layer of setting can be with heat conduction to the shell and evenly distribute. As a further preferable mode of the technical scheme, a flexible circuit board is arranged on the bottom side inside the shell, an intermediate frequency signal processing module is welded on one side of the flexible circuit board, a power module is welded on one side of the flexible circuit board, a signal module is we