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CN-224217064-U - Cabinet and measuring equipment

CN224217064UCN 224217064 UCN224217064 UCN 224217064UCN-224217064-U

Abstract

The application discloses a case and measuring equipment, and relates to the technical field of detecting equipment, comprising a case body, a bus backboard and a processor module; the processor module comprises a bridge piece carrier plate and a core plate, wherein the bridge piece carrier plate is integrated on the bus backboard, and the core plate is detachably arranged on the bridge piece carrier plate. The chassis provided by the application can be detachably arranged on the bridge piece carrier plate through the core plate, so that the functional expansion of the chassis is conveniently realized, and the bridge piece carrier plate is integrated on the bus backboard, compared with the traditional 3U PXIe board card inserted into the slot of the bus backboard, the notch of the bus backboard can be saved, meanwhile, the space in the chassis is saved, the volume of the chassis can be reduced, and the expansibility of the chassis performance can be realized while the volume of the chassis is reduced.

Inventors

  • CHEN MING
  • LI KAI

Assignees

  • 安徽松果科技有限公司

Dates

Publication Date
20260508
Application Date
20250528

Claims (10)

  1. 1. A chassis, comprising: a case (100), the case (100) defining an accommodation space; the bus backboard (10) is arranged in the accommodating space of the box body (100); The processor module (20), the processor module (20) includes bridge piece carrier plate (21) and core board (22), bridge piece carrier plate (21) integrated in on bus backplate (10), just core board (22) detachably set up in on bridge piece carrier plate (21).
  2. 2. The chassis according to claim 1, further comprising a liquid crystal display assembly (40) having a touch function, wherein the liquid crystal display assembly (40) is located at one end of the case (100), and the liquid crystal display assembly (40) is respectively connected to a first power supply interface (11) and a signal interface (12) of the bus backplane (10), and the first power supply interface (11), the signal interface (12) and the processor module (20) are located on the same side of the bus backplane (10).
  3. 3. The chassis of claim 2, further comprising a power module (30) of a size of 8HP, the power module (30) being plugged into a side of the bus backplane (10) facing away from the processor module (20).
  4. 4. A cabinet according to claim 3, wherein an electrical interface (31) is provided at an end of the cabinet (100) facing away from the liquid crystal display assembly (40), the electrical interface (31) being connected to the power module (30).
  5. 5. The chassis according to claim 2, wherein the chassis body (100) has a front end cover plate (50), the liquid crystal display assembly (40) is fixed on the front end cover plate (50), and a modulation output port (51) and an interface adapter plate (52) are disposed on the front end cover plate (50), the modulation output port (51) is plugged at a connection port (13) on the bus back plate (10), and the interface adapter plate (52) is connected with the first power supply interface (11).
  6. 6. The chassis of claim 2, further comprising a standard board card (60) of size 4HP, the standard board card (60) being plugged into a side of the bus backplane (10) facing away from the processor module (20).
  7. 7. The chassis according to claim 6, wherein a functional interface (61) is further disposed at an end of the chassis (100) facing away from the lcd module (40), and the functional interface (61) is connected to the standard board (60).
  8. 8. The chassis according to claim 1, wherein a plurality of cooling fans (70) are respectively disposed on two sides of the bus backplane (10), and each cooling fan (70) is connected to a second power supply interface (14) on the bus backplane (10).
  9. 9. The chassis according to any one of claims 1 to 8, wherein the core board (22) is a COME core board, and/or, The two ends of the case body (100) are respectively provided with a holding part (80) which is convenient for moving the case and/or, The bottom of the case (100) is provided with feet (90) for supporting the chassis.
  10. 10. A measuring device comprising a chassis according to any one of claims 1 to 9.

Description

Cabinet and measuring equipment Technical Field The application relates to the technical field of military equipment, in particular to a case and measuring equipment. Background The distributed technology has the characteristics of resource sharing, operation decentralization, management centralization, work coordination and interaction real-time and the like, and becomes a main development direction of a novel equipment support level standard test system. Distributed microwave signal source devices will also be the direction of technological development of microwave signal source devices. The distributed test system microwave signal source case (hereinafter referred to as signal source case) is used as a main component of the distributed microwave signal source equipment, and can provide functions of structural support, power supply conversion, bus interconnection, display control, signal monitoring, parallel test control and health management for the signal source equipment, and the construction of the service functions of the microwave signal source is realized by matching with a service board card. The signal source chassis generally adopts a 3U PXIE chassis, and the traditional 3U PXIE chassis generally adopts an external 3U PXIe board card, namely the 3U PXIe board card is inserted into a slot of a bus backboard, and index configuration is generally fixed, so that performance expansion cannot be realized, and meanwhile, the traditional signal source chassis is large in size and heavy in weight. In addition, the signal source machine case adopts traditional external keyboard and 6.5 cun industry screen generally, through pegging graft the keyboard in the socket position of signal source machine case, realizes the control to signal source machine case, leads to the man-machine to experience relatively poor, needs to be equipped with alone when collocation test simultaneously and inserts switching cable joint for the switching cable joint is easy to lose. Therefore, how to reduce the volume of the chassis and realize the expansibility of the performance of the chassis becomes a technical problem to be solved by those skilled in the art. Disclosure of utility model Accordingly, an object of the present application is to provide a chassis that can reduce the volume of the chassis and achieve the extensibility of the performance of the chassis. Another object of the present application is to provide a measuring device having the above-mentioned housing. In order to achieve the above purpose, the present application provides the following technical solutions: a chassis, comprising: The box body limits an accommodating space; The bus backboard is arranged in the accommodating space of the box body; the processor module comprises a bridge piece carrier plate and a core plate, wherein the bridge piece carrier plate is integrated on the bus backboard, and the core plate is detachably arranged on the bridge piece carrier plate. Optionally, in the above chassis, the touch panel further includes a liquid crystal display assembly having a touch function, where the liquid crystal display assembly is located at one end of the case, and the liquid crystal display assembly is connected to the first power supply interface and the signal interface of the bus backboard, and the first power supply interface, the signal interface and the processor module are located at the same side of the bus backboard. Optionally, in the case, the power module further includes a power module with a specification size of 8HP, and the power module is plugged on a side of the bus backboard, which faces away from the processor module. Optionally, in the above case, an electrical interface is disposed at an end of the case opposite to the liquid crystal display assembly, and the electrical interface is connected to the power module. Optionally, in the above case, the case body has a front end cover plate, the liquid crystal display assembly is fixed on the front end cover plate, and a modulation output port and an interface adapter plate are disposed on the front end cover plate, the modulation output port is inserted in a connection port on the bus backboard, and the interface adapter plate is connected with the first power supply interface. Optionally, in the case, the system further includes a standard board card with a specification size of 4HP, and the standard board card is plugged on a side of the bus backboard, which faces away from the processor module. Optionally, in the above case, a functional interface is further disposed at an end of the case opposite to the liquid crystal display assembly, where the functional interface is connected to the standard board card. Optionally, in the above chassis, a plurality of cooling fans are respectively disposed on two sides of the bus backboard, and each cooling fan is connected with a second power supply interface on the bus backboard. Optionally, in the above chassis, the core board is a COME