CN111756591A - Gateway test equipment and gateway test method - Google Patents

Abstract

The invention relates to a gateway test device and a gateway test method, wherein the gateway test device comprises a jig, a network cable plugging device, a first clicking device, a second clicking device, an optical sensor and an information processing system; the jig is used for clamping the gateway; the network cable inserting device is arranged on one side of the jig; the network cable plugging device comprises a network cable and a driving mechanism for driving the network cable to be close to or far away from a gateway on the jig; one end of the network cable is used for plugging a network cable interface on the gateway; the first clicking device corresponds to one end of the jig; the second clicking device corresponds to the other end of the jig; the optical sensor is positioned below the bottom of the jig; the information processing system is electrically connected with the other end of the network cable, the driving mechanism, the first clicking device, the second clicking device and the optical sensor. The gateway testing equipment realizes automatic testing of the keys and the indicator lamps on the gateway, is favorable for saving time and labor and improves the testing efficiency; the error is small, and the quality of the gateway finished product is effectively ensured.

Description

Gateway test equipment and gateway test method

Technical Field

The present invention relates to the field of communications technologies, and in particular, to a gateway test apparatus and a gateway test method.

Background

Currently, home gateways have evolved from a basic type to an enhanced type, such as: a home gateway supporting Voice Over Internet Protocol (VOIP) technology, a home gateway supporting femtocell technology, and other enhanced home gateways. In order to ensure the delivery quality of the home gateway, various performances of the home gateway need to be comprehensively tested in the production process, such as testing keys and indicator lamps on the gateway.

In the traditional process, when keys and indicator lights on the gateway are tested, most of manual tests are mainly performed, the operation is complex, a large amount of time and labor are consumed, and the testing efficiency is low; and manual testing, the error is big, is difficult to guarantee the quality of gateway finished product.

Disclosure of Invention

Based on the gateway testing equipment and the gateway testing method, the invention provides the gateway testing equipment and the gateway testing method.

A gateway test apparatus, comprising:

the jig is used for clamping the gateway;

the network cable inserting device is arranged on one side of the jig; the network cable plugging device comprises a network cable and a driving mechanism for driving the network cable to be close to or far away from a gateway on the jig; one end of the network cable is used for plugging a network cable interface on the gateway;

the first clicking device corresponds to one end of the jig and is used for clicking a key on one end of the gateway;

the second clicking device corresponds to the other end of the jig and is used for clicking a key on the other end of the gateway;

the optical sensor is positioned below the bottom of the jig and used for sensing the light emitting condition of the indicator lamp on the gateway; and

the information processing system is electrically connected with the other end of the network cable, the driving mechanism, the first clicking device, the second clicking device and the optical sensor; when the intelligent gateway works, the network cable plugging device controls the gateway to be electrically connected or disconnected with the information processing system, the first clicking device and the second clicking device click keys on two ends of the gateway, and the light sensor senses the light emitting condition of the indicator lamp on the gateway.

The gateway testing equipment simultaneously clamps the gateway through a jig, controls the gateway to be electrically connected or disconnected with an information processing system through the network cable plugging device, clicks the keys on two ends of the gateway through the first clicking device and the second clicking device, senses the light emitting condition of the indicator lamp on the gateway through the optical sensor, realizes automatic testing of the keys and the indicator lamp on the gateway, has high automation degree, is beneficial to saving time and labor and improves the testing efficiency; the error is small, and the quality of the gateway finished product is effectively ensured.

In one embodiment, the jig comprises a substrate, wherein a containing groove is formed in the substrate and used for placing a gateway; the two ends of the substrate are provided with abdicating grooves communicated with the containing grooves, and the abdicating grooves on the two ends of the substrate respectively correspond to the first clicking device and the second clicking device; the bottom of the substrate is provided with a through hole communicated with the containing groove, and the through hole corresponds to the optical sensor.

In one embodiment, the jig further comprises a limiting block, wherein the limiting block is detachably arranged on the side of the substrate, and part of the limiting block extends to the accommodating groove.

In one embodiment, the driving mechanism further comprises a supporting frame, a movable plate connected with the driving mechanism, and a fixed block connected with the movable plate, the driving mechanism is mounted on the supporting frame, and the network cable is mounted on the fixed block; the driving mechanism further comprises two opposite guide posts which are arranged at intervals, and the two guide posts are movably penetrated through the movable plate respectively.

In one embodiment, the first striking device comprises a first striking head and a first pushing mechanism for driving the first striking head to approach or depart from a gateway on the jig.

In one embodiment, the first clicking device further comprises a longitudinal pushing mechanism connected with the first transverse pushing mechanism, and the longitudinal pushing mechanism is used for driving the first transverse pushing mechanism to drive the first clicking head to move longitudinally along the gateway, so that the first clicking head corresponds to different keys on one end of the gateway.

In one embodiment, the first tapping head comprises a connecting sleeve connected with the first transverse pushing mechanism, a guide sleeve with one end sleeved on the connecting sleeve, a moving block movably arranged in the guide sleeve, and an elastic part arranged between the moving block and the connecting sleeve; a clicking shaft is arranged at one end, far away from the connecting sleeve, of the moving block, and the clicking shaft movably extends out of the guide sleeve; the two ends of the elastic piece are respectively elastically abutted to the connecting sleeve and the moving block.

In one embodiment, the first clicking device further comprises a first rotating rod, two ends of the first rotating rod are respectively connected with the first clicking head and the first transverse pushing mechanism, and the middle part of the first rotating rod is arranged on the peripheral wall of the first transverse pushing mechanism in a sliding mode.

In one embodiment, the second pointing device includes a second pointing head and a second lateral pushing mechanism for driving the second pointing head to approach or depart from the gateway on the jig.

A gateway test method adopts gateway test equipment for testing, wherein the gateway test equipment comprises a jig, a network cable plugging device, a first clicking device, a second mounting device and an optical sensor; the gateway testing method comprises the following steps:

s1: clamping the gateway on the jig, wherein one side of the gateway, which is provided with the indicator lamp, faces downwards, one side of the gateway, which is provided with the network cable interface, faces upwards, and two ends of the gateway, which are provided with the keys, correspond to the first clicking device and the second clicking device respectively;

s2: one end of the network cable is driven by the driving mechanism to be inserted into a network cable interface on the plug-in gateway, so that the gateway is electrically connected with the information processing system through the network cable;

s3: the first clicking device clicks a key on one end of the gateway, and the second clicking device clicks a key on the other end of the gateway;

s4: the state information of the keys on the gateway is transmitted to an information processing system through a network cable, and the information processing system processes the state information of the keys and judges whether the functions of the keys are good or not;

s5: if the function of any key on the gateway is unqualified, the driving mechanism drives the network cable to pull out the network cable interface on the gateway, and the test is finished; if the functions of the keys on the gateway are good, entering an indicator light test environment;

s6: the optical sensor senses the optical signal of the indicator light on the gateway and generates an optical detection signal according to the optical signal, and then the optical detection signal is transmitted to the information processing system;

s7: the information processing system processes the light detection signal transmitted by the light sensor and judges the light emitting state and the light emitting color of the indicator light;

s8: after the test of the indicator lamp on the gateway is finished, the driving mechanism drives the network cable to pull out the network cable interface on the gateway, the gateway is taken away from the jig, and the test is finished.

Drawings

Fig. 1 is a schematic perspective view of a gateway;

FIG. 2 is a bottom view of the gateway of FIG. 1;

FIG. 3 is a schematic perspective view of a gateway testing apparatus according to a preferred embodiment of the present invention;

FIG. 4 is a right side view of the gateway test apparatus of FIG. 3, with the chassis omitted;

FIG. 5 is a schematic structural diagram of a first pressing device of the gateway testing apparatus of FIG. 4;

FIG. 6 is an A-A axial cross-sectional view of a first press device of the gateway testing apparatus of FIG. 5;

FIG. 7 is an enlarged schematic view of the gateway test apparatus of FIG. 5 at B;

fig. 8 is a schematic structural diagram of a second pressing device of the gateway testing apparatus of fig. 4.

The meaning of the reference symbols in the drawings is:

the device comprises a case 10, a start key 11, an emergency stop key 12, a reset key 13, a fixture 20, a base plate 21, an accommodating groove 22, a relief groove 23, a through hole 24, a limiting block 25, a network cable plugging device 30, a network cable 31, a driving mechanism 32, a supporting frame 33, a movable plate 34, a fixed block 35, a guide post 36, a first pressing device 40, a first clicking head 41, a first transverse pushing mechanism 42, a telescopic shaft 420, a sliding groove 421, a sliding rail 422, a connecting sleeve 43, a guide sleeve 44, a moving block 45, a clicking shaft 451, a guide shaft 452, an elastic member 46, a shaft sleeve 47, a first connecting rod 48, a first connecting section 480, a second connecting section 481, a middle section 482, a sliding block 483, a longitudinal pushing mechanism 49, a second pressing device 50, a second clicking head 51, a second transverse pushing mechanism 52, a second connecting rod 53, a light guide post 60, an optical sensor 70, a bottom plate 71, a cover plate 72, a PCB 73, an installation block 74, a network cable interface 902 and an indicator light 903.

Detailed Description

In order that the invention may be more fully understood, reference will now be made to the following description. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. In contrast, when an element is referred to as being "directly on" another element, there are no intervening elements present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only.

Referring to fig. 3 to 8, a gateway testing apparatus according to a preferred embodiment of the present invention is used for testing keys 901 and indicator lights 903 on a gateway 900, as shown in fig. 1 and 2, two ends of the gateway 900 are provided with the keys 901, one side surface of the gateway 900 is provided with a network cable interface 902, the other side surface of the gateway 900 is provided with the indicator lights 903, the number of the indicator lights 903 on the gateway 100 is plural, and specifically, the number of the indicator lights 903 on the gateway 100 is eleven. The gateway testing equipment comprises a case 10, a jig 20 installed on the case 10, a network cable plugging device 30 installed on the case 10, a first clicking device 40 installed on the case 10, a second installing device 50 installed on the case 10, an optical sensor 70 installed in the case 10, and an information processing system electrically connected with the network cable plugging device 30, the first clicking device 40, the second clicking device 50 and the optical sensor 70.

The jig 20 is used for clamping the gateway 900. The network cable plugging device 30 is arranged at one side of the jig 20; the network cable plugging device 30 comprises a network cable 31 and a driving mechanism for driving the network cable 31 to approach or depart from the gateway 900 on the jig 20; one end of the network cable 31 is used for plugging a network cable interface on the gateway 900, the other end of the network cable 31 is electrically connected with the information processing system, so that the gateway 900 is electrically connected with the information processing system through the network cable 31, and the driving mechanism 32 is electrically connected with the information processing system. One end of the first clicking device 40, corresponding to the jig 20, is used for clicking a key on one end of the gateway 900; the second clicking device 50 corresponds to the other end of the jig 20 and is used for clicking a key on the other end of the gateway 900; the optical sensor 70 is positioned below the bottom of the jig 20 and used for sensing the light emitting condition of the indicator light 903 on the gateway 900;

referring to fig. 3, the case 10 is provided with a start switch 11, a reset switch 12 and an emergency stop switch 13; the starting switch 11 is used for controlling the driving mechanism 32 to drive the network cable 31 to be inserted into the network cable interface 902 on the gateway 900; the reset switch 12 is used for controlling the driving mechanism 32 to drive the network cable 31 to be pulled out of the network cable interface 902 on the gateway 900; when an emergency occurs, the emergency stop switch 13 is used for stopping the whole gateway testing device.

Referring to fig. 3 and 4, the fixture 20 includes a substrate 21, wherein a receiving groove 22 is disposed on the substrate 21, and the receiving groove 22 is used for placing the gateway 900. The two ends of the substrate 21 are provided with the yielding slots 23 communicated with the containing slot 22, the yielding slots 23 on the two ends of the substrate 21 correspond to the first clicking device 40 and the second clicking device 50 respectively, and when the gateway 900 is located in the containing slot 22, the keys 901 on the two ends of the gateway 900 correspond to the yielding slots 23, so that the first clicking device 40 and the second clicking device 50 can respectively pass through the yielding slots 23 to click the keys 901 on the two ends of the gateway 900. The bottom of the substrate 21 is provided with a through hole 24 communicated with the accommodating groove 22, and the through hole 24 corresponds to the optical sensor 70; when the gateway 900 is located in the accommodating groove 22, the indicator 903 on one side of the gateway 900 corresponds to the through hole 24. The number of the through holes 24 is the same as that of the indicator lights 903, so that each indicator light 903 corresponds to one through hole 24, light rays between the indicator lights 903 are prevented from influencing each other, and the improvement of the detection accuracy of the indicator lights 903 is facilitated.

In one embodiment, the jig 20 further includes a limiting block 25, the limiting block 25 is detachably disposed at an edge side of the substrate 21, a portion of the limiting block 25 extends to the accommodating groove 22, and the limiting block 25 is used for limiting the gateway 900 located in the accommodating groove 22 to prevent the gateway 900 from moving up and down. In the present embodiment, the stopper 25 is screwed to the base plate 21. When the gateway 900 is clamped, the gateway 900 is placed in the accommodating groove 21, the limiting block 21 is locked on the side of the substrate 21 through a screw, and part of the limiting block 21 abuts against the upper surface of the gateway 900; similarly, when the gateway 900 is detached, the screws connecting the limiting block 21 and the substrate 21 are unscrewed or taken down, the limiting block 21 is taken down, and then the gateway 900 is taken out.

The driving mechanism 32 further includes a supporting frame 33 installed on the chassis 10, a movable plate 34 connected to the driving mechanism 32, and a fixed block 35 connected to the movable plate 34, the driving mechanism 32 is installed on the supporting frame 33, and the network cable 31 is installed on the fixed block 35, so that the driving mechanism 32 drives the network cable 31 to approach or depart from the gateway 900 on the fixture 20 through the movable plate 34 and the fixed block 35. In the embodiment, since the side of the gateway 900 where the cable interface 902 is disposed faces upward, the driving mechanism 32, the movable plate 34, the fixed block 35 and the cable 31 are located above the jig 20, that is, the driving mechanism 32 is used for driving the cable 31 to move up and down through the movable plate 34 and the fixed block 35. In the present embodiment, the driving mechanism 32 is a cylinder.

In one embodiment, the driving mechanism 32 further includes two guide posts 36 disposed at an interval, one end of each guide post 36 is connected to the supporting frame 33, and the other end of the guide frame 35 is connected to the casing 10; the two guide posts 36 are movably inserted through the movable plate 34, so that the movable plate 34 moves up and down along the two guide posts 36, thereby ensuring the stability of the movable plate 34 during movement and further ensuring the accurate alignment between the network cable 31 and the network cable interface on the gateway 900.

Referring to fig. 5, the first pointing device 40 includes a first pointing head 41 and a first lateral pushing mechanism 42 for driving the first pointing head 41 to approach or depart from the gateway 900 on the fixture 20, the first pointing head 41 corresponds to the receding groove 23 on one end of the substrate 21, and the first lateral pushing mechanism 42 is electrically connected to the information processing system; in the present embodiment, the first lateral pushing mechanism 42 is an air cylinder. When the first clicking device 40 works, the first lateral pushing mechanism 42 drives the first clicking head 41 to approach the gateway 900 on the jig 20, so that the first clicking head 41 clicks the key 901 on one end of the gateway 900, and then the first lateral pushing mechanism 42 drives the first clicking head 41 to move away from the gateway 900 on the jig 20.

Referring to fig. 6, specifically, the first striking head 41 includes a connecting sleeve 43 connected to the first lateral pushing mechanism 42, a guide sleeve 44 having an end sleeved on the connecting sleeve 43, a moving block 45 movably disposed in the guide sleeve 44, and an elastic member 46 disposed between the moving block 45 and the connecting sleeve 43; the diameter of the moving block 45 is larger than the opening of the end of the guide sleeve 44 far away from the connecting sleeve 43, so that the moving block 45 can move in the guide sleeve 44 movably and cannot slide out from the end of the guide sleeve 44 far away from the connecting sleeve 43; the end of the moving block 45 away from the connecting sleeve 43 is provided with a clicking shaft 451, the clicking shaft 451 movably extends out of the guide sleeve 44, and the clicking shaft 451 is used for clicking a button 901 on the gateway 900. One end of the moving block 45 away from the striking shaft 451 is provided with a guide shaft 452, one end of the guide shaft 452 is movably inserted into the connection sleeve 43, and the guide shaft 452 is used for guiding the elastic member 46. Two ends of the elastic member 46 are respectively elastically abutted against the connecting sleeve 43 and the moving block 45, so that when the clicking shaft 451 clicks the button 901, an elastic buffer effect is provided between the clicking shaft 451 and the button 901 to prevent the clicking shaft 451 and the button 901 from generating strong impact, which is beneficial to protecting the first clicking head 41 and the clicked button 901. In one embodiment, the elastic member 46 is sleeved on the guide shaft 452, so that the elastic member 46 extends along the guide shaft 452 to prevent the elastic member 46 from being deflected. In the present embodiment, the elastic member 46 is a coil spring.

In one embodiment, the first clicking device 40 further includes a shaft sleeve 47, the shaft sleeve 47 is sleeved on one end of the clicking shaft 451, which is far away from the moving block 45, when the clicking shaft 451 clicks the button 901 on the gateway 900, the end of the shaft sleeve 47 directly contacts the button 901, and the shaft sleeve 47 contacts the button 901, so that the contact area is large, and the button 901 can be clicked better.

In one embodiment, the first clicking device 40 further includes a first rotating link 48 having two ends respectively connected to the first clicking head 41 and the first lateral pushing mechanism 42, and a middle portion of the first rotating link 48 is slidably disposed on an outer peripheral wall of the first lateral pushing mechanism 42, so that the first lateral pushing mechanism 42 drives the first clicking head 41 to move by driving the first rotating link 48, and when the first lateral pushing mechanism 42 drives the first rotating link 48 to move, the first rotating link 48 makes a linear motion on the outer peripheral wall of the first lateral pushing mechanism 42, so as to ensure stability of the movement of the first rotating link 48, and ensure that the first clicking head 41 can accurately click the button 901 on the gateway 900. The first transfer plate 48 is disposed in a substantially Z-shape. Referring to fig. 7, in detail, the first transfer plate 48 includes a first connecting section 480, a second connecting section 481, and an intermediate section 482 connecting the first connecting section 480 and the second connecting section 471, the first connecting section 480 is connected to the telescopic shaft 420 of the first lateral pushing mechanism 42, the second connecting section 481 is connected to the connecting sleeve 43 of the first tapping head 41, and the intermediate section 482 is slidably disposed on the peripheral wall of the first lateral pushing mechanism 42. Further, be equipped with spout 421 on the outer wall of first horizontal pushing mechanism 42 periphery, be provided with slide rail 422 in the spout 421, be provided with slider 483 on the interlude 482, in the partial accommodation groove spout 421 of slider 483, and slider 483 and slide rail 422 sliding connection to when first adapter plate 48 moved, interlude 482 was through slider 483 and is linear motion along slide rail 422 in spout 421.

In one embodiment, the first clicking device 40 further comprises a longitudinal pushing mechanism 49 connected to the first lateral pushing mechanism 42, the longitudinal pushing mechanism 49 being electrically connected to the information processing system; the longitudinal pushing mechanism 49 is used for driving the first transverse pushing mechanism 42 to drive the first tapping head 41 to move longitudinally along the gateway 900, so that the first tapping head 41 corresponds to different keys 901 on one end of the gateway 900, the first tapping head 41 can tap a plurality of keys 901 on one end of the gateway 900, each key on one end of the gateway 900 does not need to correspond to one first tapping head 41 independently, and cost saving is facilitated. It should be noted that the longitudinal pushing mechanism 49 is a cylinder.

Referring to fig. 8, the second pointing device 50 includes a second pointing head 51 and a second lateral pushing mechanism 52 for driving the second pointing head 51 to approach or depart from the gateway 900 on the fixture 20, the second pointing head 51 corresponds to the receding groove 23 on the other end of the substrate 21, and the second lateral pushing mechanism 52 is electrically connected to the information processing system; when the second pointing device 50 works, the second lateral pushing mechanism 52 drives the second pointing head 51 to approach the gateway 900 on the fixture 20, so that the second pointing head 51 clicks the button 901 on the other end of the gateway 900, and then the second lateral pushing mechanism 52 drives the second pointing head 51 to move away from the gateway 900 on the fixture 20. The structure of the second impact head 51 is the same as that of the first impact head 51 and will not be described here.

In one embodiment, the second pointing device 50 further includes a second adapting rod 53, two ends of which are respectively connected to the first pointing head 51 and the second lateral pushing mechanism 52, and a middle portion of the second adapting rod 53 is slidably disposed on an outer peripheral wall of the second lateral pushing mechanism 52, so that the second lateral pushing mechanism 52 drives the first pointing head 51 to move by driving the second adapting rod 53, and when the second lateral pushing mechanism 52 drives the second adapting rod 53 to move, the second adapting rod 53 makes a linear motion on the outer peripheral wall of the second lateral pushing mechanism 52, so as to ensure stability of the movement of the second adapting rod 53, and ensure that the first pointing head 51 can accurately click the button 901 on the gateway 900. The structure of the second adapting rod 53 is the same as that of the first adapting rod 48, and the sliding connection structure between the second adapting rod 53 and the second transverse pushing mechanism 52 and the sliding connection structure between the first adapting rod 48 and the first transverse pushing mechanism 42 are not described herein.

In one embodiment, the gateway testing equipment comprises a light guide column 60 arranged on the bottom of a jig 20, one end of the light guide column 60 penetrates through the jig 20 and is used for corresponding to an indicator light 903 on a gateway 900, the other end of the light guide column 60 corresponds to an optical sensor 70, and the light guide column 60 is used for guiding light of the indicator light 100 on the gateway 900 to the optical sensor 70, so that the optical sensor 70 can sense the light, and the sensing precision of the optical sensor 70 on the light emitting condition of the indicator light 903 on the gateway 900 is improved. Specifically, a positioning block 26 is disposed on a side of the bottom of the substrate 21 opposite to the containing groove 22, the positioning block 26 is screwed to the substrate 21, the positioning block 26 corresponds to the containing groove 22, the light guide pillar 60 is fixedly disposed on the positioning block 26, one end of the light guide pillar 60 is disposed in the through hole 24 of the substrate 21, and when the gateway 900 is located in the containing groove 22, the indicator light 903 on the gateway 900 is in contact with one end of the light guide pillar 60. The number of the light guide columns 60 is multiple, the light guide columns 60 are respectively arranged in one-to-one correspondence with the indicator lamps 903 on the gateway 900, and the detection results are influenced by the mutual interference of light rays among the indicator lamps 903; specifically, the number of light guide columns 60 is also eleven.

In this embodiment, the number of the light sensors 70 is two, two light sensors 70 are oppositely arranged at intervals, and two light sensors 70 respectively sense a part of the indicator light 903 on the gateway 900. Specifically, the light sensor 70 senses a light signal when the indicator light 903 on the gateway 900 emits light, and generates a light detection signal when the indicator light 903 on the gateway 900 does not emit light, so that the light sensor 70 generates a light detection signal to represent the light emitting state and the light emitting color of the indicator light, and transmits the light detection signal to the information processing system. Specifically, the optical sensor 70 includes a bottom plate 71, a cover plate 72 disposed on the bottom plate 71, a PCB 73 interposed between the bottom plate 71 and the cover plate 72, a mounting block 74 disposed on the cover plate 72, and an optical fiber (not shown) connected to the PCB 73, wherein the PCB 73 is electrically connected to the information processing system, and the optical fiber passes through the cover plate 72 and the mounting block 74 and corresponds to the light guide bar 60.

The invention also discloses a gateway testing method, which adopts gateway testing equipment to test, wherein the gateway testing equipment comprises a jig 20, a network cable plugging device 30, a first clicking device 40, a second mounting device 50 and an optical sensor 70; the gateway testing method comprises the following steps:

s1: clamping the gateway 900 on the jig 20, wherein one side of the gateway 900, which is provided with the indicator light 903, faces downwards, one side of the gateway 900, which is provided with the network cable interface 902, faces upwards, and two ends of the gateway 900, which are provided with the keys 901, respectively correspond to the first clicking device 40 and the second clicking device 50;

s2: the driving mechanism 32 drives one end of the network cable 31 to be inserted into the network cable interface 902 on the plug-in gateway 900, so that the gateway 900 is electrically connected with the information processing system through the network cable 31;

s3: the first pointing device 40 points at a button 901 on one end of the gateway 900, and the second pointing device 50 points at a button 901 on the other end of the gateway 900;

s4: the state information of the button 901 on the gateway 900 is transmitted to the information processing system through the network cable 31, and the information processing system processes the state information of the button 901 and judges whether the function of the button 901 is good;

s5: if the function of any key 901 on the gateway 900 is not qualified, the driving mechanism 32 drives the network cable 31 to pull out the network cable interface 902 on the gateway 900, and the test is ended; if the functions of the keys 901 on the gateway 900 are good, entering an indicator light 903 test environment;

s6: the optical sensor 70 senses the optical signal of the indicator light 903 on the gateway 900 and generates an optical detection signal according to the optical signal, and then transmits the optical detection signal to the information processing system;

s7: the information processing system processes the light detection signal transmitted from the light sensor 70 and determines the light emitting state and the light emitting color of the indicator light 903.

S8: after the indicator light 903 on the gateway 900 is tested, the driving mechanism 32 drives the network cable 31 to pull out the network cable interface 902 on the gateway 900, and the gateway 900 is taken away from the fixture 20, so that the test is finished.

In one embodiment, in step S3, when the first pointing device 40 and the second pointing device 50 simultaneously click the keys 901 on the gateway 900 and there are a plurality of keys 901 on one end of the gateway 900 corresponding to the first pointing device 40, the second pointing device 50 clicks the keys 901 on one end of the corresponding gateway 900 one by one. In other embodiments, in step S3, after the first pointing device 40 clicks the keys 901 on the end of the corresponding gateway 900 one by one, the second pointing device 50 clicks the keys 901 on the end of the corresponding gateway 900 again; of course, after the second pointing device 50 clicks the button 901 on the end of the corresponding gateway 900, the first pointing device 40 may click the button 901 on the end of the corresponding gateway 900. In step S6, the optical sensor 70 may sense the light signals of the indicator lamps 903 on the gateway 900 one by one, and of course, the optical sensor 70 may also sense the light signals of a plurality of indicator lamps 903 on the gateway 900 at the same time.

The gateway testing equipment of the invention simultaneously clamps the gateway 900 through the jig 20, controls the gateway 900 to be electrically connected or disconnected with an information processing system through the network cable plugging device 30, clicks the keys 901 at two ends of the gateway 900 through the first clicking device 40 and the second clicking device 50, senses the light emitting condition of the indicator light 903 on the gateway 900 through the optical sensor 70, realizes the automatic testing of the keys 901 and the indicator light 903 on the gateway 900, has high automation degree, is beneficial to saving time and manpower, and improves the testing efficiency; the error is small, and the quality of the gateway finished product is effectively ensured.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. A gateway test apparatus, comprising:

the jig is used for clamping the gateway;

the network cable inserting device is arranged on one side of the jig; the network cable plugging device comprises a network cable and a driving mechanism for driving the network cable to be close to or far away from a gateway on the jig; one end of the network cable is used for plugging a network cable interface on the gateway;

the first clicking device corresponds to one end of the jig and is used for clicking a key on one end of the gateway;

the second clicking device corresponds to the other end of the jig and is used for clicking a key on the other end of the gateway;

the optical sensor is positioned below the bottom of the jig and used for sensing the light emitting condition of the indicator lamp on the gateway; and

the information processing system is electrically connected with the other end of the network cable, the driving mechanism, the first clicking device, the second clicking device and the optical sensor; when the intelligent gateway works, the network cable plugging device controls the gateway to be electrically connected or disconnected with the information processing system, the first clicking device and the second clicking device click keys on two ends of the gateway, and the light sensor senses the light emitting condition of the indicator lamp on the gateway.

2. The gateway testing apparatus of claim 1, wherein the fixture comprises a substrate, and a receiving groove is formed on the substrate and used for receiving the gateway; the two ends of the substrate are provided with abdicating grooves communicated with the containing grooves, and the abdicating grooves on the two ends of the substrate respectively correspond to the first clicking device and the second clicking device; the bottom of the substrate is provided with a through hole communicated with the containing groove, and the through hole corresponds to the optical sensor.

3. The gateway testing device of claim 2, wherein the fixture further comprises a limiting block, the limiting block is detachably disposed at the side of the substrate, and a portion of the limiting block extends onto the accommodating groove.

4. The gateway testing device of claim 1, wherein the driving mechanism further comprises a supporting frame, a movable plate connected with the driving mechanism, and a fixed block connected with the movable plate, the driving mechanism is mounted on the supporting frame, and the network cable is mounted on the fixed block; the driving mechanism further comprises two opposite guide posts which are arranged at intervals, and the two guide posts are movably penetrated through the movable plate respectively.

5. The gateway testing apparatus of claim 1, wherein the first tapping device comprises a first tapping head and a first pushing mechanism for driving the first tapping head to approach or move away from the gateway on the fixture.

6. The gateway testing device of claim 5, wherein the first clicking apparatus further comprises a longitudinal pushing mechanism connected to the first lateral pushing mechanism, and the longitudinal pushing mechanism is configured to drive the first lateral pushing mechanism to drive the first clicking head to move longitudinally along the gateway, so that the first clicking head corresponds to different keys on one end of the gateway.

7. The gateway testing device of claim 5, wherein the first tapping head comprises a connecting sleeve connected to the first lateral pushing mechanism, a guide sleeve having an end sleeved on the connecting sleeve, a moving block movably disposed in the guide sleeve, and an elastic member disposed between the moving block and the connecting sleeve; a clicking shaft is arranged at one end, far away from the connecting sleeve, of the moving block, and the clicking shaft movably extends out of the guide sleeve; the two ends of the elastic piece are respectively elastically abutted to the connecting sleeve and the moving block.

8. The gateway testing apparatus of claim 7, wherein the first tapping device further comprises a first connecting rod connected to the first tapping head and the first lateral pushing mechanism at two ends thereof, and an intermediate portion of the first connecting rod is slidably disposed on an outer peripheral wall of the first lateral pushing mechanism.

9. The gateway testing apparatus of claim 1, wherein the second pointing device comprises a second pointing head and a second lateral pushing mechanism for driving the second pointing head closer to or farther from the gateway on the fixture.

10. A gateway test method adopts gateway test equipment for testing, wherein the gateway test equipment comprises a jig, a network cable plugging device, a first clicking device, a second mounting device and an optical sensor; the gateway testing method is characterized by comprising the following steps:

s1: clamping the gateway on the jig, wherein one side of the gateway, which is provided with the indicator lamp, faces downwards, one side of the gateway, which is provided with the network cable interface, faces upwards, and two ends of the gateway, which are provided with the keys, correspond to the first clicking device and the second clicking device respectively;

s2: one end of the network cable is driven by the driving mechanism to be inserted into a network cable interface on the plug-in gateway, so that the gateway is electrically connected with the information processing system through the network cable;

s3: the first clicking device clicks a key on one end of the gateway, and the second clicking device clicks a key on the other end of the gateway;

s4: the state information of the keys on the gateway is transmitted to an information processing system through a network cable, and the information processing system processes the state information of the keys and judges whether the functions of the keys are good or not;

s5: if the function of any key on the gateway is unqualified, the driving mechanism drives the network cable to pull out the network cable interface on the gateway, and the test is finished; if the functions of the keys on the gateway are good, entering an indicator light test environment;

s6: the optical sensor senses the optical signal of the indicator light on the gateway and generates an optical detection signal according to the optical signal, and then the optical detection signal is transmitted to the information processing system;

s7: the information processing system processes the light detection signal transmitted by the light sensor and judges the light emitting state and the light emitting color of the indicator light;

s8: after the test of the indicator lamp on the gateway is finished, the driving mechanism drives the network cable to pull out the network cable interface on the gateway, the gateway is taken away from the jig, and the test is finished.

Images