CN210199233U - Parallel signal detection device - Google Patents
Parallel signal detection device Download PDFInfo
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- CN210199233U CN210199233U CN201921069966.5U CN201921069966U CN210199233U CN 210199233 U CN210199233 U CN 210199233U CN 201921069966 U CN201921069966 U CN 201921069966U CN 210199233 U CN210199233 U CN 210199233U
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- parallel signal
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Abstract
The utility model discloses a parallel signal detection device, which comprises more than two groups of shell body units arranged in parallel, wherein each shell body unit is provided with a signal connecting piece assembly used for connecting external detection equipment, and each group of shell body units is provided with a detection concave contact group and a control switch; the side of the outer shell unit is provided with a connecting mechanism which is used for being detachably connected with the adjacent outer shell unit. Adopt the design of different detecting element equipment, every different shell body unit all corresponds a set of wiring unit's detection task, assemble each other through coupling mechanism between the adjacent shell body unit, so that make the device adapt to the quantity of the wiring unit on the different concrete detection distribution frame, further set up signal splicing subassembly and detection concave contact group on the shell body unit, and control switch, every group wiring detects and separates from structural each other, and set up independent detection mechanism to every group wiring unit, avoid the mode of routing separately among the traditional detection mode.
Description
Technical Field
The utility model relates to a become distribution network technical field, more specifically say, relate to a block form signal detection device.
Background
A patch panel is a device used for and capable of making provisioning connections to end-user lines or trunks. The distribution frame is the most important component in the management subsystem, and is a hub for realizing cross connection of two subsystems, namely a vertical trunk and horizontal wiring. Usually, the distribution frame is installed on a cabinet or a wall, and the distribution frame can meet the requirements of UTP (unshielded twisted pair), STP (shielded twisted pair), coaxial cable, optical fiber, audio and video in a whole line by installing accessories.
In the transmission of telephone signals, a VDF (audio) distribution frame carries the function of a telephone signal transfer station. In the daily telephone fault processing process, acquiring a telephone directional telephone signal at a VDF (audio frequency) is an important method for judging a fault point. The method for obtaining signals at present mainly needs to depend on manual routing, also called pressure welding, binding, bonding and wire welding, and means that metal wires (gold wires, aluminum wires and the like) are used, and hot-pressing or ultrasonic energy is utilized to complete connection of interconnection wires inside a solid circuit in a microelectronic device, namely connection between a chip and the circuit or a lead frame, the design does not have an isolation function, if isolation is needed, an insertion isolator is needed to be added, so that a plurality of complicated procedures are added for eliminating telephone faults, the requirement of performing a rapid obstacle elimination function cannot be met, and the most common method for measuring telephone signals on a VDF terminal port is direct routing, so that the problems of high cost and long time consumption exist; furthermore, when observing whether a current signal exists in a circuit after routing, a signal lamp needs to be additionally routed, so that the installation is complicated, the routing cost is low, and the time consumption is further increased.
In summary, how to effectively solve the technical problems that the current commonly used distribution frame fault maintenance mode has complex procedures, high cost, is difficult to rapidly discharge faults and the like is a problem which needs to be solved by technical personnel in the field at present.
SUMMERY OF THE UTILITY MODEL
In view of this, the present invention provides a parallel signal detection device, which can effectively solve the technical problems of complicated procedures, high cost, and difficulty in quickly discharging faults, etc. of the commonly used distribution frame fault detection method.
In order to achieve the above object, the utility model provides a following technical scheme:
a parallel signal detection device comprises more than two groups of shell units arranged in parallel, wherein each shell unit is provided with a signal connecting piece assembly used for connecting external detection equipment, and each group of shell units is provided with a detection concave contact group and a control switch; the side of the outer shell unit is provided with a connecting mechanism which is used for being detachably connected with the adjacent outer shell unit.
Preferably, in the parallel signal detection device, the outer housing unit is further provided with a front baffle, the signal connection plate group includes a first connection plate and a second connection plate which are oppositely arranged on the front baffle, and the front baffle is further provided with a signal isolation plate.
Preferably, in the parallel signal detection device, the connection mechanism includes a side slide rail disposed on one side of the outer housing unit, and a side slide block disposed on the other side of the outer housing unit, and the side slide rail and the side slide block are in sliding fit and are used for detachably connecting adjacent outer housing units.
Preferably, in the parallel signal detecting device, a stopper for limiting a sliding distance is provided at one side of the side rail, and the control switch is provided at the stopper.
Preferably, in the parallel signal detecting device, the detecting concave contact group is also disposed on the stopper, the detecting concave contact group includes a first detecting concave contact and a second detecting concave contact, and the stopper is further provided with a grounding structure.
Preferably, in the parallel signal detection device, the side slide block is provided with a first connecting concave shaft and a second connecting concave shaft, the side slide rail is provided with a first connecting convex shaft and a second connecting convex shaft, and the first connecting concave shaft and the first connecting convex shaft are respectively electrically connected with the second connecting concave shaft through sliding contact between the side slide rail and the side slide block of the adjacent outer shell unit.
Preferably, in the parallel signal detecting device, the control switch circuit is connected between the first connecting concave shaft and the first connecting convex shaft, and between the second connecting concave shaft and the second connecting convex shaft; and the first connecting concave shaft and the second connecting concave shaft are both provided with connecting concave points used for being electrically connected with the adjacent connecting convex shafts.
Preferably, in the parallel signal detection device, the parallel signal detection device further includes an intermediate connection sheet, and the intermediate connection sheet is provided with intermediate detection connection points, the number of which is the same as that of the outer shell units.
Preferably, in the parallel signal detection device, the intermediate connecting piece is provided with a plurality of hinge shafts for hinge-connecting adjacent regions of the intermediate connecting piece, and each part of the intermediate connecting piece is fixedly connected with one group of outer shell units.
The utility model provides a parallel signal detection device, including more than two sets of shell body units arranged side by side, each shell body unit is provided with a signal connecting piece assembly used for connecting external detection equipment, and each group of shell body units is provided with a detection concave contact group and a control switch; the side of the outer shell unit is provided with a connecting mechanism which is used for being detachably connected with the adjacent outer shell unit. The utility model provides a this block form signal detection device adopts the design of different detecting element equipment, every different shell body unit all corresponds a set of wiring unit's detection task, assemble each other through coupling mechanism between the adjacent shell body unit, so that make the device adapt to the quantity of the wiring unit on the different concrete detection distribution frame, further set up signal splicing subassembly and detect concave contact group on the shell body unit, and control switch, every group wiring detects and separates from structural each other, and set up independent detection mechanism to every group wiring unit, avoid the mode of routing separately among the traditional detection mode, and adaptable shell body unit structure side by side, the parallel detection of multiunit signal is realized to the optimization through internal wiring. To sum up, the utility model provides a technical scheme has solved present commonly used distribution frame troubleshooting mode procedure loaded down with trivial details, with high costs effectively, and is difficult to the technical problem of quick discharge failure.
Drawings
In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.
Fig. 1 is a schematic structural diagram of a parallel signal detection device according to an embodiment of the present invention;
fig. 2 is a schematic structural diagram of the other side of the parallel signal detection device according to the embodiment of the present invention;
fig. 3 is a schematic diagram of internal wiring of the parallel signal detection device according to the embodiment of the present invention;
fig. 4 is a schematic wiring diagram of an intermediate connection sheet of the parallel signal detection device according to an embodiment of the present invention.
The drawings are numbered as follows:
the device comprises an outer shell unit 1, a front baffle 2, a signal isolation sheet 3, a first connecting sheet 4, a second connecting sheet 5, a side sliding block 6, a side sliding rail 7, a stop block 8, a control switch 9, a first detection concave point 10, a second detection concave point 11, a connection concave point 12, a first connection concave shaft 13, a second connection concave shaft 14, an intermediate connecting sheet 15, a hinge shaft 16 and an intermediate detection connecting point 17.
Detailed Description
The embodiment of the utility model discloses block form signal detection device to solve present commonly used distribution frame troubleshooting mode procedure loaded down with trivial details, with high costs, and be difficult to the technical problem of quick discharge failure.
The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.
Referring to fig. 1-4, fig. 1 is a schematic structural diagram of a parallel signal detection device according to an embodiment of the present invention; fig. 2 is a schematic structural diagram of the other side of the parallel signal detection device according to the embodiment of the present invention; fig. 3 is a schematic diagram of internal wiring of the parallel signal detection device according to the embodiment of the present invention; fig. 4 is a schematic wiring diagram of an intermediate connection sheet of the parallel signal detection device according to an embodiment of the present invention.
The utility model provides a parallel signal detection device, including more than two sets of shell body units 1 that set up side by side, every shell body unit 1 is provided with the signal connection piece subassembly that is used for connecting the external detection equipment, every group shell body unit 1 is provided with detection concave contact group and control switch 9; the side face of the outer case unit 1 is provided with a connecting mechanism for detachable connection with the adjacent outer case unit 1.
The utility model provides a this block-by-block signal detection device adopts the design of different detecting element equipment, every different shell body unit all corresponds the detection task of a set of wiring unit, assemble each other through coupling mechanism between the adjacent shell body unit, so that make the device adapt to the quantity of the wiring unit on the different concrete detection distribution frame, further set up signal splicing subassembly and detect the concave contact group on the shell body unit, and control switch, every group wiring detects and separates from structural each other, and set up independent detection mechanism to every group wiring unit, avoid the mode of throwing separately among the traditional detection mode, and adaptable shell body unit structure side by side, realize the parallel detection of multiunit signal through the optimization of internal wiring; in addition, auxiliary contact detection can be provided and parallel connection detection of connection signals between parallel connection of switch control can be realized. To sum up, the utility model provides a technical scheme has solved present commonly used distribution frame troubleshooting mode procedure loaded down with trivial details, with high costs effectively, and is difficult to the technical problem of quick discharge failure.
In order to further optimize the signal connection external structure design in the above embodiment, the following technical scheme is provided: the outer shell unit 1 is further provided with a front baffle 2, the signal connecting piece group comprises a first connecting piece 4 and a second connecting piece 5 which are oppositely arranged on the front baffle, and the front baffle 2 is further provided with a signal isolating piece 3. Each group of wiring units is correspondingly provided with two groups of separated connecting sheets, and in order to ensure the isolation capability of adjacent wiring signals, a signal isolating sheet 3 is also arranged between the first connecting sheet 4 and the second connecting sheet 5.
The connecting mechanism comprises a side slide rail 7 arranged on one side of the outer shell unit 1 and a side slide block 6 arranged on the other side of the outer shell unit 1, and the side slide rail 7 and the side slide block are in sliding fit and are used for detachably connecting adjacent outer shell units 1. A stop block 8 for limiting the sliding distance is arranged on one side of the side slide rail 7, and a control switch 9 is arranged on the stop block 8.
The technical scheme provided by the embodiment specifically optimizes the design of the connecting mechanism between the adjacent shell units 1, and adopts a mode that the side sliding rails 7 and the side sliding blocks 6 are mutually in sliding, inserting and matching in the aspect of connecting an outer structure, so that the rapid and simple assembly and separation are realized; and set up the structure of dog 8 on the basis of this structure, dog 8 is located the one end of side slide rail 7 for relative position between side slide rail 7 and the side slider 6 is spacing, prevents to deviate from one end after the slip cartridge, is difficult to the firm location.
The detection concave contact group is also arranged on the stop block 8 and comprises a first detection concave contact 10 and a second detection concave contact 11, and the stop block 8 is also provided with a grounding structure. The side sliding blocks 6 are internally provided with a first connecting concave shaft 13 and a second connecting concave shaft 14, the side sliding rails 7 are internally provided with a first connecting convex shaft and a second connecting convex shaft, and the first connecting concave shaft and the first connecting convex shaft 13 and the second connecting concave shaft 14 are respectively and electrically connected with the second connecting convex shaft through the sliding contact of the side sliding rails 7 and the side sliding blocks 6 of the adjacent shell units 1.
The control switch circuit is connected between the first connecting concave shaft 13 and the first connecting convex shaft, and between the second connecting concave shaft 14 and the second connecting convex shaft; the first connecting concave shaft and the second connecting concave shaft are both provided with connecting concave points 12 which are used for being electrically connected with the adjacent connecting convex shafts.
It should be noted that the two connecting pieces are respectively connected with the two connecting concave shafts in the outer shell unit 1 and connected with the two connecting concave points 12 of the adjacent outer shell unit 1 through the control switch 9, so as to realize the linkage detection control of the adjacent outer shell unit 1.
According to the technical scheme, the electric connection control mode between the adjacent outer shell units 1 is further optimized, in the parallel signal detection device, the parallel signal detection device further comprises an intermediate connecting sheet 15, and the intermediate connecting sheet 15 is provided with intermediate detection connecting points 17 which are consistent with the number of the outer shell units 1. The intermediate connecting piece 15 is provided with a plurality of hinge shafts 16 for hinge-connecting adjacent regions of the intermediate connecting piece 15, and each part of the intermediate connecting piece 15 is fixedly connected with a group of the outer shell units 1.
The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other.
The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.
Claims (9)
1. A parallel signal detection device is characterized by comprising more than two groups of shell units which are arranged in parallel, wherein each shell unit is provided with a signal connecting piece assembly used for connecting external detection equipment, and each group of shell units is provided with a detection concave contact group and a control switch; the side of the outer shell unit is provided with a connecting mechanism which is used for being detachably connected with the adjacent outer shell unit.
2. The parallel signal detection device according to claim 1, wherein the outer housing unit is further provided with a front baffle, the signal connecting sheet set comprises a first connecting sheet and a second connecting sheet which are oppositely arranged on the front baffle, and the front baffle is further provided with a signal isolating sheet.
3. The side-by-side signal detecting device according to claim 2, wherein the connecting mechanism includes a side slide rail provided on one side of the outer housing unit and a side slider provided on the other side of the outer housing unit, which are slidably engaged for detachable connection of adjacent outer housing units.
4. The side-by-side signal detecting device according to claim 3, wherein a stopper for defining a sliding distance is provided at one side of the side rail, and the control switch is provided at the stopper.
5. The parallel signal detecting device according to claim 4, wherein said set of detecting female contacts is also disposed on said block, said set of detecting female contacts includes a first detecting female contact and a second detecting female contact, and said block is further disposed with a grounding structure.
6. The parallel signal detecting device according to claim 5, wherein a first connecting concave shaft and a second connecting concave shaft are provided in each of the side sliding rails, and a first connecting convex shaft and a second connecting convex shaft are provided in each of the side sliding rails, and the first connecting concave shaft and the first connecting convex shaft and the second connecting concave shaft are electrically connected by sliding contact of the side sliding rails with the side sliding blocks of the adjacent housing units, respectively.
7. The parallel signal detecting device according to claim 6, wherein the control switch circuit is wired between the first connection female shaft and the first connection male shaft, and between the second connection female shaft and the second connection male shaft; and the first connecting concave shaft and the second connecting concave shaft are both provided with connecting concave points used for being electrically connected with the adjacent connecting convex shafts.
8. The parallel signal detecting device according to claim 7, further comprising an intermediate connecting sheet provided with a number of intermediate detecting connecting points corresponding to the number of the outer housing units.
9. The parallel signal detecting device of claim 8, wherein the intermediate connecting piece is provided with a plurality of hinge shafts for hinge-connecting adjacent regions of the intermediate connecting piece, and each portion of the intermediate connecting piece is fixedly connected to a group of outer housing units.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201921069966.5U CN210199233U (en) | 2019-07-09 | 2019-07-09 | Parallel signal detection device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201921069966.5U CN210199233U (en) | 2019-07-09 | 2019-07-09 | Parallel signal detection device |
Publications (1)
Publication Number | Publication Date |
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CN210199233U true CN210199233U (en) | 2020-03-27 |
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Application Number | Title | Priority Date | Filing Date |
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CN201921069966.5U Expired - Fee Related CN210199233U (en) | 2019-07-09 | 2019-07-09 | Parallel signal detection device |
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CN (1) | CN210199233U (en) |
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2019
- 2019-07-09 CN CN201921069966.5U patent/CN210199233U/en not_active Expired - Fee Related
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Granted publication date: 20200327 |