CN219164587U - Signal testing assembly for electronic information engineering - Google Patents

Abstract

The utility model discloses a signal testing assembly for electronic information engineering, which comprises a transmission assembly, an index plate assembly, a carrying assembly, a jacking assembly, a detection signal pipe, a carrying cylinder and a pneumatic clamping jaw, wherein the transmission assembly comprises a cam divider, the index plate assembly comprises a separation plate, the carrying assembly comprises a carrying movable slide rail, the jacking assembly comprises a detection probe, the upper end face of the cam divider is in transmission connection with the separation plate, the end face of the separation plate is in transmission connection with the carrying movable slide rail, and the end face of the carrying movable slide rail is provided with the detection probe. The cable jacking assembly is used for testing the cable signal, the jacking cylinder is stretched out during testing, the probe is fixed to advance, the detection thimble jacks into the cable and contacts with the leaked cable head, so that the conductive detection is carried out, the communication signal detection is carried out, the production efficiency is improved, and the cable jacking assembly is simpler, easier and more understandable, and is high in integration and automatic.

Description

Signal testing assembly for electronic information engineering

Technical Field

The utility model relates to a testing component, in particular to a signal testing component for electronic information engineering.

Background

The network tester is also commonly called a professional network tester or a network detector, is portable and visible intelligent detection equipment capable of detecting the running conditions of a physical layer, a data link layer and a network layer defined by an OSI model, and is mainly suitable for fault detection, maintenance and comprehensive wiring construction of a local area network, and the functions of the network tester cover the physical layer, the data link layer and the network layer. At present, when the line detection is carried out on the network cable and the telephone line, the network tester is needed, and because the network tester used at present has larger size, the carrying is inconvenient, and the slipping phenomenon of a receiving component and a transmitting component of the network tester is easy to cause.

The utility model of application number CN201310466126.3 discloses a mini-type multifunctional network tester. The utility model relates to a mini-type multifunctional network tester, which comprises a received signal testing component and a transmitted signal testing component, wherein a received network cable interface and a received telephone line interface are respectively connected with a signal processing module, a display screen is connected with a built-in rechargeable battery through an operation button, and a solar panel is connected with the built-in rechargeable battery; the transmission network line interface and the transmission telephone line interface are respectively connected with the transmission signal module, the transmission signal module is connected with the signal of the receiving signal module, and the transmission signal testing component is embedded on the T-shaped card strip of the receiving signal testing component through the T-shaped groove. The miniature multifunctional network tester adopting the design can be conveniently carried, is convenient to assemble, can avoid slipping in the carrying process, and has good testing effect. However, the above patent has the following drawbacks in the actual use process:

although the detection condition can be regulated according to the actual condition, the protection performance is improved, the transmission network cable interface and the transmission telephone line interface are respectively connected with the transmission signal module, the transmission signal module is connected with the signal of the receiving signal module, and the transmission signal test assembly is clamped on the T-shaped clamping strip of the receiving signal test assembly through the T-shaped groove, when in actual use, only one wiring can be manually pulled out and plugged in, and the cables cannot be automatically tested, so that the signal test assembly for electronic information engineering is provided for solving the problems.

Disclosure of Invention

The utility model aims to provide a signal testing component for electronic information engineering, which can solve the technical problems that cables can only be automatically detected and defective products cannot be screened, and the signal is electrified by using a tightening component to contact electrodes.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

the utility model provides a signal testing subassembly for electronic information engineering, includes drive assembly, graduated disk subassembly, transport subassembly, tight subassembly in top, detection signal pipe, transport cylinder, pneumatic clamping jaw, drive assembly includes the cam divider, the graduated disk subassembly is including separating the dish, transport subassembly is including carrying the removal slide rail, tight subassembly in top is including detecting the probe, cam divider up end transmission is connected with separates the dish, it is connected with the transport and removes the slide rail to separate the dish terminal surface transmission, the transport is removed the slide rail terminal surface and is placed the detection probe.

As a further scheme of the utility model: the transmission assembly upper end face transmission is connected with the index plate assembly, the transport subassembly has been placed to the index plate assembly terminal surface, the tight subassembly in top has been placed to the terminal surface before the transport subassembly, the tight subassembly terminal surface in top is connected with the detection signal pipe, the transport subassembly terminal surface is connected with the transport cylinder, the terminal surface is connected with pneumatic clamping jaw under the transport cylinder.

As still further aspects of the utility model: the transmission assembly comprises a transmission motor, a motor transmission shaft is connected to the end face transmission of the transmission motor, a coupler is connected to the end face transmission of the motor transmission shaft, a cam divider is connected to the end face of the coupler, and a cam division fixed top plate is connected to the upper end face of the cam divider.

As still further aspects of the utility model: the dividing plate assembly comprises a dividing plate, the end face of the dividing plate is connected with a dividing shaft, the upper end face of the dividing plate is connected with a product seat, the upper end face of the product seat is connected with a detection pressure head, the upper end face of the detection pressure head is connected with a detection top plate, and the end face of the detection top plate is connected with a detection cylinder.

As still further aspects of the utility model: the carrying assembly comprises a carrying fixing plate, the end face of the carrying fixing plate is connected with a carrying moving slide rail, the rear end face of the carrying moving slide rail is in transmission connection with a carrying motor, the end face of the carrying motor is connected with a motor carrying rotating plate, and the end face of the carrying moving slide rail is connected with a carrying moving plate.

As still further aspects of the utility model: the jacking assembly comprises a jacking fixed plate, the upper end face of the jacking fixed plate is connected with a jacking vertical plate, the end face of the jacking vertical plate is connected with a jacking cylinder, the end face of the jacking cylinder is connected with a probe fixing sheet metal, and the end face of the probe fixing sheet metal is connected with a detection probe.

Compared with the prior art, the utility model has the beneficial effects that:

according to the utility model, the signal of the cable is tested through the tightening assembly, the tightening cylinder is extended during testing, and the probe fixing sheet metal is moved forward, so that the detection thimble is pushed into the cable and contacted with the leaked cable head, thereby conducting detection, carrying out communication signal detection, improving the production efficiency, and being simpler, easier and more understandable, high in integration and automatic.

Drawings

Fig. 1 is a schematic structural view of the present utility model.

Fig. 2 is a schematic front view of the present utility model.

Fig. 3 is a schematic structural view of a handling assembly according to the present utility model.

FIG. 4 is a schematic view of a tightening assembly according to the present utility model.

In the figure: 1. a transmission assembly; 11. a drive motor; 12. a motor drive shaft; 13. a coupling; 14. a cam divider; 15. cam dividing and fixing the top plate; 2. an index plate assembly; 21. a separation plate; 22. dividing the shaft; 23. a product seat; 24. detecting a cylinder; 25. detecting a top plate; 26. detecting a pressure head; 3. a handling assembly; 31. carrying a fixing plate; 32. carrying a movable slide rail; 33. a carrying motor; 34. carrying a moving plate; 35. carrying a rotating plate by a motor; 4. a jacking component; 41. a top fastening fixing plate; 42. the vertical plate is tightly propped; 43. a cylinder is tightly propped; 44. fixing a metal plate by a probe; 45. detecting a probe; 5. detecting a signal tube; 6. a carrying cylinder; 7. pneumatic clamping jaw.

Detailed Description

The utility model is described in further detail below with reference to the drawings and the specific examples.

Referring to fig. 1-4, in the embodiment of the utility model, a signal testing assembly for electronic information engineering comprises a transmission assembly 1, an index plate assembly 2, a carrying assembly 3, a tightening assembly 4, a detection signal pipe 5, a carrying cylinder 6, a pneumatic clamping jaw 7, wherein the transmission assembly 1 comprises a cam divider 14, the index plate assembly 2 comprises a separation plate 21, the carrying assembly 3 comprises a carrying moving slide rail 32, the tightening assembly 4 comprises a detection probe 45, the upper end face of the cam divider 14 is in transmission connection with the separation plate 21, the end face of the separation plate 21 is in transmission connection with the carrying moving slide rail 32, and the end face of the carrying moving slide rail 32 is provided with the detection probe 45.

The transmission assembly 1 up end transmission is connected with the graduated disk subassembly 2, and transport subassembly 3 has been placed to the graduated disk subassembly 2 terminal surface, and the tight subassembly 4 in top has been placed to the terminal surface before the transport subassembly 3, and tight subassembly 4 in top terminal surface is connected with detection signal pipe 5, and transport subassembly 3 terminal surface is connected with transport cylinder 6, and the terminal surface is connected with pneumatic clamping jaw 7 under the transport cylinder 6.

Specifically, after moving down through the end face carrying cylinder 6, the cable is snatched by using the pneumatic clamping jaw 7 after reaching the position, and the snatched head uses flexibility to place the injury cable.

The transmission assembly 1 comprises a transmission motor 11, a motor transmission shaft 12 is connected to the end face transmission of the transmission motor 11, a coupler 13 is connected to the end face transmission of the motor transmission shaft 12, a cam divider 14 is connected to the end face of the coupler 13, and a cam division fixed top plate 15 is connected to the upper end face of the cam divider 14.

Specifically, the cam divider 14 is used for six equally dividing, so that the running average is realized, the cam divider is evenly distributed during use, the positioning is accurate, and the operation is simple.

The dividing plate assembly 2 comprises a dividing plate 21, a dividing shaft 22 is connected to the end face of the dividing plate 21, a product seat 23 is connected to the upper end face of the dividing plate 21, a detection pressure head 26 is connected to the upper end face of the product seat 23, a detection top plate 25 is connected to the upper end face of the detection pressure head 26, and a detection cylinder 24 is connected to the end face of the detection top plate 25.

Specifically, the product is placed on the product seat 23 through the separation disc 21, and the cable in the product seat is subjected to a pre-experiment through the detection top block 25, so that the damage to the detection probe 45 is prevented.

The carrying assembly 3 comprises a carrying fixing plate 31, a carrying moving slide rail 32 is connected to the end face of the carrying fixing plate 31, a carrying motor 33 is connected to the rear end face of the carrying moving slide rail 32 in a transmission mode, a motor carrying rotating plate 35 is connected to the end face of the carrying motor 33, and a carrying moving plate 34 is connected to the end face of the carrying moving slide rail 32.

Specifically, the cable is grabbed by the pneumatic clamping jaw 7 through the transverse movement of the carrying and moving sliding rail 32, so that the manual work is saved, and the efficiency is improved.

The jacking assembly 4 comprises a jacking fixed plate 41, a jacking vertical plate 42 is connected to the upper end face of the jacking fixed plate 41, a jacking air cylinder 43 is connected to the end face of the jacking vertical plate 42, a probe fixing sheet metal 44 is connected to the end face of the jacking air cylinder 43, and a detection probe 45 is connected to the end face of the probe fixing sheet metal 44.

Specifically, the signal of cable is tested through pushing up subassembly 4, stretches out pushing up cylinder 43 during the test, carries out the antedisplacement with the fixed panel beating 44 of detection probe for detection probe 45 pushes up into the cable, contacts with the cable head that spills, thereby makes electrically conductive detection, and the cable head wraps up the soldering tin silk, carries out communication signal detection, improves production efficiency, thereby simpler, and is simple easily understood, and the integration is high, and has the automation concurrently.

The working principle of the utility model is as follows: after moving downwards through terminal surface transport cylinder 6, use pneumatic clamping jaw 7 to snatch the cable after reaching the position, snatch the head and use flexibility, place the injury cable, use cam divider 14 to carry out the hexagonally, make running average, evenly distributed during the use, make the location accurate, simple operation, carry out placing the product to product seat 23 through separating the dish 21, carry out the cable and advance the experiment through detecting the kicking block 25, prevent damage detection probe 45, carry out lateral shifting through carrying movable slide rail 32, snatch the cable through pneumatic clamping jaw 7, carry out the transport, make and save the manual work, improve efficiency, carry out the signal test of cable through pushing up tight subassembly 4, stretch out pushing up tight cylinder 43 during the test, carry out the antedisplacement with detection probe fixed panel beating 44, make detection probe 45 push into the cable, with the cable head contact of spilling, thereby make electrically conductive detection, carry out communication signal detection, thereby be simpler, and is easy and understandable, the integration is high, and has the automation concurrently.

The foregoing is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art, who is within the scope of the present utility model, should make equivalent substitutions or modifications according to the technical scheme of the present utility model and the inventive concept thereof, and should be covered by the scope of the present utility model.

Claims (6)

1. The utility model provides an electronic information engineering is with signal testing subassembly, includes drive assembly (1), graduated disk subassembly (2), transport subassembly (3), tight subassembly (4) in top, detects signal pipe (5), transport cylinder (6), pneumatic clamping jaw (7), its characterized in that: the transmission assembly (1) comprises a cam divider (14), the dividing disc assembly (2) comprises a separation disc (21), the carrying assembly (3) comprises a carrying movable sliding rail (32), the jacking assembly (4) comprises a detection probe (45), the upper end face of the cam divider (14) is in transmission connection with the separation disc (21), the end face of the separation disc (21) is in transmission connection with the carrying movable sliding rail (32), and the detection probe (45) is placed on the end face of the carrying movable sliding rail (32).

2. The electronic information engineering signal testing assembly of claim 1, wherein: the automatic transmission device is characterized in that an index plate assembly (2) is connected to the upper end face of the transmission assembly (1) in a transmission mode, a carrying assembly (3) is arranged on the end face of the index plate assembly (2), a jacking assembly (4) is arranged on the front end face of the carrying assembly (3), a detection signal pipe (5) is connected to the end face of the jacking assembly (4), a carrying cylinder (6) is connected to the end face of the carrying assembly (3), and a pneumatic clamping jaw (7) is connected to the lower end face of the carrying cylinder (6).

3. The electronic information engineering signal testing assembly of claim 2, wherein: the transmission assembly (1) comprises a transmission motor (11), a motor transmission shaft (12) is connected to the end face transmission of the transmission motor (11), a coupler (13) is connected to the end face transmission of the motor transmission shaft (12), a cam divider (14) is connected to the end face of the coupler (13), and a cam division fixed top plate (15) is connected to the upper end face of the cam divider (14).

4. The electronic information engineering signal testing assembly of claim 2, wherein: the dividing disc assembly (2) comprises a dividing disc (21), the end face of the dividing disc (21) is connected with a dividing shaft (22), the upper end face of the dividing disc (21) is connected with a product seat (23), the upper end face of the product seat (23) is connected with a detection pressure head (26), the upper end face of the detection pressure head (26) is connected with a detection top plate (25), and the end face of the detection top plate (25) is connected with a detection cylinder (24).

5. The electronic information engineering signal testing assembly of claim 2, wherein: the carrying assembly (3) comprises a carrying fixing plate (31), the end face of the carrying fixing plate (31) is connected with a carrying moving slide rail (32), a carrying motor (33) is connected with the rear end face of the carrying moving slide rail (32) in a transmission mode, a motor carrying rotating plate (35) is connected with the end face of the carrying motor (33), and a carrying moving plate (34) is connected with the end face of the carrying moving slide rail (32).

6. The electronic information engineering signal testing assembly of claim 2, wherein: the jacking assembly (4) comprises a jacking fixed plate (41), the upper end face of the jacking fixed plate (41) is connected with a jacking vertical plate (42), the end face of the jacking vertical plate (42) is connected with a jacking cylinder (43), the end face of the jacking cylinder (43) is connected with a probe fixing sheet metal (44), and the end face of the probe fixing sheet metal (44) is connected with a detection probe (45).

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