CN214895631U - Full-automatic safety testing machine - Google Patents

Abstract

The utility model relates to a full-automatic ann rule test machine, this full-automatic ann rule test machine include frame, loading attachment and detection device. The feeding device and the detection device are adjacently arranged on the rack. The host to be detected enters the feeding platform and is conveyed to the detection platform from the opening of the hood by the first conveying unit. Both ends of the feeding platform and the end part of the detection platform, which is close to the plurality of openings, are provided with baffle plates capable of moving up and down, so that the host machine can orderly enter the feeding platform and the detection platform one by one. After the host computer finishes through the detection of first safety test unit, the host computer after the second conveying unit will detect is carried out from another opening part of aircraft bonnet. In the detection process, the feeding platform can also store another host to be detected, and the two ends of the feeding platform are separated by baffles. After the host computer on the testing platform detects and directly carries away from testing platform after accomplishing, wait to detect on the material loading platform that the host computer directly carries testing platform, improved detection efficiency.

Description

Full-automatic safety testing machine

Technical Field

The utility model relates to an ann rule test equipment field, in particular to full-automatic ann rule test machine.

Background

At present, the safety test (HIPOT high voltage test) of the traditional server host is independent outside the production line, and the traditional server host needs to be manually taken out of the production line and then placed on a safety test system platform to complete the safety test. And after the test is finished, taking out the tested server host and putting the server host back to the production line. However, the above operation mode has risks of missing detection, false detection, and false operation, which results in low detection efficiency of the server host.

Therefore, it is desirable to provide a safety tester to solve the above problems.

SUMMERY OF THE UTILITY MODEL

The utility model relates to a full-automatic ann rule test machine, this full-automatic ann rule test machine include frame, loading attachment and detection device. The feeding device and the detection device are both arranged on the frame and are arranged adjacently. The main machine to be detected enters the feeding platform, and is conveyed to the detection platform from the opening of the hood by the first conveying unit. Both ends of the feeding platform and the end part of the detection platform, which is close to the plurality of openings, are provided with baffle plates capable of moving up and down, so that the host machine can orderly enter the feeding platform and the detection platform one by one. After the host to be detected is detected by the first safety testing unit, the second conveying unit conveys the detected host out of the other opening of the hood. In the detection process, the feeding platform can also store another host to be detected, and the two ends of the feeding platform are separated by baffles. After the host computer on the testing platform detects and directly carries away from testing platform after accomplishing, wait to detect on the material loading platform that the host computer directly carries testing platform, improved detection efficiency, solved among the prior art and transported the problem that the host computer leads to detection efficiency lower by the manual work in the testing process.

In order to solve the above problems, the present invention comprises: a full-automatic safety testing machine, it includes:

a frame;

a feeding device: the device comprises a feeding platform and a first conveying unit, wherein the feeding platform is arranged at one end of a rack, and the first conveying unit is arranged on the feeding platform and used for conveying a host to be detected; and the number of the first and second groups,

the detection device comprises: the device is provided with a detection platform, a second conveying unit, a first safety test unit and a hood; the detection platform is positioned at the other end of the rack and is arranged adjacent to the feeding platform; the second conveying unit is arranged on the detection platform, and the first safety test unit is perpendicular to the detection platform and used for detecting the electric leakage of the host; the hood is covered on the detection platform, openings for host conveying are formed in multiple side faces of the hood, and two ends of the second conveying unit in the conveying direction are located at the two openings respectively;

the two ends of the feeding platform and the end parts of the detection platform, which are close to the plurality of openings, are provided with blocking cylinders, sliding rails and baffles, and the blocking cylinders, the sliding rails and the baffles are used for matching the feeding platform and the detection platform to convey and detect a host; the blocking cylinder and the slide rail are both arranged on the rack; the baffle is connected with the sliding rail in a sliding mode and provided with a notch, a clamping block is arranged at the notch of the baffle, the clamping block is detachably connected to the top wall of the notch, and an inner hole used for limiting an output shaft of the blocking cylinder is formed in the bottom end of the clamping block; and the output shaft of the blocking cylinder penetrates through the inner hole to jack the baffle.

Full-automatic ann rule test machine in, loading attachment still is provided with a plurality of fixed blocks and a plurality of first pulley. A plurality of the fixed block sets up respectively material loading platform keeps away from testing platform's one end, the inside cavity of fixed block, the upper surface height of fixed block is less than the height of frame tip avoids hindering the transport of host computer. First pulley through the pivot with fixed block sliding connection, the upper surface height of first pulley is higher than the height of frame tip, first pulley is convenient for the host computer and is removed on the material loading platform.

Furthermore, the detection platform and the end part adjacent to the feeding platform are provided with a plurality of supporting seats and a plurality of second pulleys. One side of supporting seat is provided with first aversion groove for with testing platform's tip is kept away the position and is kept the supporting seat level sets up, reduces the moving resistance of host computer. The supporting seat is provided with one end of a first avoidance groove and connected with the end bolt of the detection platform, and installation and maintenance are facilitated. One end of the supporting seat is provided with a first accommodating groove, and the other end of the supporting seat is provided with a second accommodating groove; the first accommodating groove is located between the feeding platform and the detection platform. A plurality of the second pulleys are respectively rotatably arranged in the first accommodating groove and the second accommodating groove, so that the host can be conveniently conveyed to the detection platform by the feeding platform.

Furthermore, the first safety test unit comprises an installation plate, a reinforcing plate, a first test needle bed, a first lifting cylinder and a first test thimble. The mounting panel with testing platform parallel arrangement, the mounting panel includes first mounting panel and second mounting panel, the one end of first mounting panel with frame fixed connection, the second mounting panel with first mounting panel is connected and is located first mounting panel below is used for first test needle bed with the position is kept away in the installation of first lift cylinder, is convenient for install and dismantle. The reinforcing plate is provided with a plurality of reinforcing plates, one end of the reinforcing plate is connected with one side of the first mounting plate, and the other end of the reinforcing plate is connected with the rack and used for reinforcing the bearing capacity of the first mounting plate. The first testing needle bed is arranged on one side, away from the first mounting plate, of the second mounting plate; the first lifting cylinder is arranged on one side, away from the second mounting plate, of the first mounting plate and used for avoiding the first testing needle bed. The output shaft of the first lifting cylinder penetrates through the first mounting plate and the second mounting plate in sequence and is in transmission connection with the first testing needle bed. The first testing thimble is positioned on one side of the first testing needle bed, which is opposite to the detection platform. The upper space of the rack is reasonably utilized, the layout is compact, the operation is convenient, and the occupied space is reduced.

Further, first ann rule test unit still includes a plurality of shock attenuation posts, the one end of shock attenuation post with the second mounting panel is connected, the other end of shock attenuation post passes penetrates first mounting panel, and is a plurality of the shock attenuation post evenly sets up, is used for balancing second mounting panel and shock attenuation. One end of at least one of the shock absorption columns is provided with an expansion end for preventing the first testing needle bed from falling on the detection platform. And the matching of the plurality of upright columns enables each end part of the first testing needle bed to synchronously move downwards so as to protect the first testing thimble. Meanwhile, the first lifting cylinder is prevented from being damaged in the detection process, so that the second testing needle bed loses tension and falls onto the host machine, and the first safety testing unit and the host machine are protected.

Furthermore, one end of the second conveying unit is provided with a second avoiding groove, and the detection device further comprises a second safety testing unit for detecting the other side of the host. The second safety gauge testing unit is located below the second avoidance groove, the structure is compact, the space utilization rate is improved, and the occupied space is reduced. The second safety test unit comprises a second lifting cylinder, a third mounting plate, a second test needle bed and a second test thimble. The second lifting cylinder is arranged on the rack; and one side of the third mounting plate is in transmission connection with an output shaft of the second lifting cylinder. The second testing needle bed is arranged on the other side of the third mounting plate, the second testing needle bed is hollow inside, and a communicating hole communicated with the outside is formed in the bottom of the second testing needle bed and used for improving the heat dissipation effect during testing. The second testing ejector pin is arranged on one side, away from the third mounting plate, of the second testing needle bed, and the second lifting cylinder is used for driving the second testing ejector pin to ascend to a set position to conduct host detection.

Furthermore, a protection block, a plurality of stand columns and a plurality of elastic pieces are further arranged on the second testing thimble. One end of each upright post frame is arranged on the second testing needle bed; the elastic piece is sleeved on the stand column, the protection block is clamped between the elastic piece and the upper end portion of the stand column, and the elastic piece is used for restoring the protection block to the initial position after the test is finished. The protection block is provided with a plurality of through holes for the second testing ejector pins to pass through. When the second lifting cylinder drives the second testing needle bed to move upwards, the protection block firstly contacts the host, the second lifting cylinder continues to ascend, the protection block compresses the elastic piece, the second testing thimble contacts the host, and the output shaft of the second lifting cylinder stops ascending.

Full-automatic ann rule test machine in, the material loading platform is provided with first feed inlet and first discharge gate, testing platform is provided with second feed inlet and second discharge gate. The first feed inlet and the first discharge outlet are respectively arranged at two ends of the first conveying unit. The first conveying unit and the second conveying unit are arranged differently, a plurality of openings correspond to the second feeding hole and the second discharging hole respectively, the opening on one side, located between the feeding platform and the detection platform, of the hood is the second feeding hole, the second discharging holes are formed in the two ends of the second conveying unit along the conveying direction, and discharging can be carried out from which second discharging hole can be selected on site according to the layout of the site. The first conveying unit and the second conveying unit are arranged differently, so that the conveying distance of the host to be detected is shortened, the occupied length of a production line is shortened, and the cost is saved.

Further, the material loading platform is provided with the slope, the height of first feed inlet is greater than the height of first discharge gate, the removal of the host computer of being convenient for improves work efficiency.

Full-automatic ann rule test machine in, detection device still includes control system, display screen and detection door. The control system, the display screen and the detection door are all arranged on the side face, opposite to the feeding platform, of the hood, and the control system and the display screen are in data transmission with the first safety test unit through data lines; and a glass observation window is arranged on the detection door. The structure is compact, and the cost is saved; the detection door is convenient for observe the running condition of the equipment when the host detects, and is also convenient for the detection and maintenance of the equipment in the hood.

The utility model discloses owing to adopted foretell full-automatic ann rule test machine, compare in prior art, its beneficial effect is: the utility model relates to a full-automatic ann rule test machine, this full-automatic ann rule test machine include frame, loading attachment and detection device. The feeding device and the detection device are both arranged on the frame and are arranged adjacently. The main machine to be detected enters the feeding platform, and is conveyed to the detection platform from the opening of the hood by the first conveying unit. Both ends of the feeding platform and the end part of the detection platform, which is close to the plurality of openings, are provided with baffle plates capable of moving up and down, so that the host machine can orderly enter the feeding platform and the detection platform one by one. After the host to be detected is detected by the first safety testing unit, the second conveying unit conveys the detected host out of the other opening of the hood. In the detection process, the feeding platform can also store another host to be detected, and the two ends of the feeding platform are separated by baffles. After the host computer on the testing platform detects and directly carries away from testing platform after accomplishing, wait to detect on the material loading platform that the host computer directly carries testing platform, improved detection efficiency, solved among the prior art and transported the problem that the host computer leads to detection efficiency lower by the manual work in the testing process.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the embodiments are briefly introduced below, and the drawings in the following description are only corresponding drawings of some embodiments of the present invention.

Fig. 1 is a schematic structural diagram of an embodiment of the full-automatic safety testing machine of the present invention.

Fig. 2 is the structure diagram of an embodiment of the full-automatic safety test machine of getting rid of aircraft bonnet of the utility model.

FIG. 3 is an enlarged schematic view of an embodiment of the A structure of FIG. 2.

FIG. 4 is an enlarged schematic view of an embodiment of the B structure of FIG. 2.

Fig. 5 is a side view of an embodiment of the fully automatic safety testing machine of the present invention.

Fig. 6 is a schematic structural diagram of an embodiment of the first safety test unit of the full-automatic safety test machine of the present invention.

Fig. 7 is a schematic structural diagram of an embodiment of a second safety test unit of the full-automatic safety test machine of the present invention.

In the figure: 10. the full-automatic safety testing machine comprises a full-automatic safety testing machine 11, a machine frame 12, a loading device 121, a loading platform 1211, a first feeding hole 1212, a first discharging hole 122, a first conveying unit 123, a blocking cylinder 1231, a clamping block 124, a sliding rail 125, a baffle plate 126, a fixed block 127, a first pulley 13, a detection device 131, a detection platform 1311, a second feeding hole 1312, a second discharging hole 132, a second conveying unit 1321, a pressing plate 1322, a protruding block 1323, a guide inclined plane 1323, a first safety testing unit 133, a supporting plate 1331, a mounting plate 1332, a mounting plate 13321, a first mounting plate 13322, a second mounting plate 1333, a reinforcing plate 1334, a first lifting cylinder, a needle bed 5, a first test thimble 1336, a first test thimble, a damping column 1337, a hood 134, a hood 1341, a control system 1342, a display screen 1343, a detection door 1333, a first lifting cylinder 1334, a needle bed 1351, a first supporting seat 1351, 1352. the second receiving groove 136, the second pulley, 137, the second safety test unit, 1371, the second lifting cylinder, 1372, the third mounting plate, 1373, the second test needle bed, 1374, the guard block, 1375, the upright post, 1376, the second test thimble.

Detailed Description

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 the skilled in the art without creative work belong to the protection scope of the present invention.

In the present invention, the directional terms, such as "up", "down", "front", "back", "left", "right", "inner", "outer", "side", "top" and "bottom", refer to the orientation of the drawings, and the directional terms are used for illustration and understanding, but not for limiting the present invention.

In the drawings, elements having similar structures are denoted by the same reference numerals.

Referring to fig. 1, in the present embodiment, the fully automatic safety testing machine 10 includes a rack 11, a feeding device 12, and a detecting device 13. The feeding device 12 and the detecting device 13 are both arranged on the frame 11, and the feeding device 12 and the detecting device 13 are arranged adjacently.

In this embodiment, referring to fig. 2, 3 and 4, the feeding device 12 includes a feeding platform 121, a first conveying unit 122, a blocking cylinder 123, a slide rail 124, a baffle 125, a fixing block 126 and a first pulley 127. The feeding platform 121 is arranged at one end of the frame 11, the feeding platform 121 is provided with a slope, and the height of the first feeding hole 1211 is larger than that of the first discharging hole 1212, so that the host can move conveniently, and the working efficiency is improved. The first conveying unit 122 is disposed on the loading platform 121. The feeding platform 121 includes a first inlet 1211 and a first outlet 1212, and the first inlet 1211 and the first outlet 1212 are respectively disposed at two ends of the feeding platform 121. Referring to fig. 3, two ends of the feeding platform 121 and the second discharge hole 1312 of the detecting device 13 are respectively provided with a blocking cylinder 123, a slide rail 124 and a baffle 125. The blocking cylinder 123 and the slide rail 124 are both disposed on the frame 11. Baffle 125 and slide rail 124 sliding connection, baffle 125 are provided with the breach, and baffle 125 is provided with clamp block 1231 in breach department, and the connection can be dismantled on the roof of breach to clamp block 1231, and the bottom of clamp block 1231 is provided with the hole that is used for injecing the output shaft that blocks cylinder 123, and the output shaft that blocks cylinder 123 passes through hole jacking baffle 125.

When the host to be detected is conveyed to the first feeding hole 1211, the output shaft of the blocking cylinder 123 at the first feeding hole 1211 contracts, and the baffle 125 is located below the feeding platform 121. When the host to be detected is located on the feeding platform 121, the blocking cylinder 123 at the first feeding port 1211 drives the baffle 125 to ascend, and the upper end of the baffle 125 is located above the feeding platform 121. The working principle of the blocking cylinder 123, the sliding rail 124 and the baffle 125 at the first discharge port 1212 and the second discharge port 1312 is the same as that at the first feed port 1211. The baffle 125 at the first discharging hole 1212 not only prevents the host to be detected of the feeding platform 121 from entering the detecting platform 131, but also blocks the host of the detecting platform 131 from moving into the feeding platform 121 during the detecting process.

In this embodiment, referring to fig. 1, fig. 2 and fig. 5, the detecting device 13 includes a detecting platform 131, a second conveying unit 132, a first safety testing unit 133, a second safety testing unit 137, a hood 134, a control system 1341, a display screen 1342 and a detecting door 1343. The detecting platform 131 is located at one end of the frame 11 and is disposed adjacent to the feeding platform 121. The second conveying unit 132 is disposed on the detection platform 131, and a conveying direction of the second conveying unit 132 is disposed perpendicular to a conveying direction of the first conveying unit 122. The first conveying unit 122 and the second conveying unit 132 are both roller conveyer belts, the rollers can reduce the gap between the host and the feeding platform 121 or the detecting platform 131, and the rollers can rotate freely, so that the host to be detected can be conveyed to the detecting platform 131 conveniently. The end of the second conveying unit 132 away from the loading platform 121 is provided with a pressing plate 1321 and a protruding block 1322. The two pressing plates 1321 fix the second conveying unit 132 on the feeding platform 121, and the two end sides of the pressing plates 1321 are provided with guide inclined planes 1323, so that the detected host computer can be conveniently conveyed out. A protruding block 1322 is disposed on the pressing plate 1321 at an end of the second transporting unit 132 away from the loading platform 121, and the protruding block 1322 is used for preventing the host computer from moving out of the detecting platform 131 during the detecting process.

The hood 134 covers the detection platform 131, and three sides of the hood 134 are provided with openings respectively corresponding to a second feeding hole 1311 and two second discharging holes 1312. The second feed opening 1311 is disposed adjacent to the first discharge opening 1212, and two second discharge openings 1312 are disposed at both sides of the housing 134, respectively. The two second discharge ports 1312 are located on opposite sides of the hood 134, so that the fully-automatic safety testing machine 10 can be placed conveniently, and the discharge from one of the second discharge ports 1312 can be selected according to actual arrangement on site. Referring to fig. 5, the control system 1341, the display screen 1342 and the detection door 1343 are disposed on a fourth side of the hood 134 opposite to the second inlet 1311. The detection door 1343 is provided with a glass observation window, and the detection door 1343 is convenient for observing the operation condition of the equipment when the host detects and is also convenient for detecting and maintaining the equipment inside the hood 134. The control system 1341 and the display screen 1342 perform data transmission with the first safety test unit 133 through data lines. The hood 134 plays a protection role, and the control system 1341, the display screen 1342 and the detection door 1343 are arranged on the hood 134, so that the structure is compact, and the cost is saved.

Referring to fig. 6, the first safety test unit 133 is disposed on the rack 11 and faces the detection door 1343, so that the test condition and the maintenance of the device can be observed conveniently, the upper space of the rack 11 is utilized reasonably, the layout is compact, the operation is convenient, and the occupied space is reduced. The first safety testing unit 133 includes a supporting plate 1331, a mounting plate 1332, a reinforcing plate 1333, a first elevating cylinder 1334, a first testing needle bed 1335, a first testing thimble 1336, and a shock absorbing column 1337. One end of the supporting plate 1331 is fixedly connected to the frame 11, and the mounting plate 1332 includes a first mounting plate 13321 and a second mounting plate 13322. One end of the first mounting plate 13321 is fixed to a side surface of the support plate 1331, and the side surface of the first mounting plate 13321 is connected to the side surface of the support plate 1331 by a reinforcing plate 1333, so that the first mounting plate 13321 is more firmly connected. The first lifting cylinder 1334 is arranged on the first mounting plate 13321, an output shaft of the first lifting cylinder 1334 is arranged perpendicular to the detection platform 131, and an output shaft of the first lifting cylinder 1334 is in transmission connection with the first test thimble 1336 through the first test needle bed 1335. A first testing thimble 1336 is disposed at a bottom end of the first testing needle bed 1335, and a needle of the first testing thimble 1336 faces the testing platform 131. The second mounting plate 13322 is connected with the first mounting plate 13321 through a shock absorption column 1337 and is located below the first mounting plate 13321, and is used for installing and avoiding the first test needle bed 1335 and the first lifting cylinder 1334, and is convenient to install and disassemble. A plurality of shock-absorbing columns 1337 are uniformly provided for balancing the second mounting plate 13322 and absorbing shock. One end of at least one of the shock absorbing columns 1337 is provided with an enlarged end for preventing the first testing needle bed 1335 from falling onto the testing platform 131. Plurality of columns 1375 cooperate to cause the synchronized downward movement of the respective ends of first test needle bed 1335, protecting first test thimble 1336. Meanwhile, the first lifting cylinder 1335 is also prevented from being damaged in the detection process, so that the second testing needle bed 1373 loses tension and falls onto the host machine, and the first safety testing unit 133 and the host machine are protected.

Referring to fig. 2 and 7, a second avoiding groove is formed at one end of the second conveying unit 132, and the second safety testing unit 137 is located below the second avoiding groove, so that the structure is compact, the space utilization rate is improved, and the occupied space is reduced. The second safety testing unit 137 includes a second lift cylinder 1371, a third mounting plate 1372, a second testing needle bed 1373, a guard 1374, a plurality of columns 1375, and a second testing thimble 1376. The second lifting cylinder 1371 is arranged on the frame 11; one side of the third mounting plate 1372 is drivingly connected to the output shaft of the second lift cylinder 1371. The second testing needle bed 1373 is arranged on the other side of the third mounting plate 1372, the second testing needle bed 1373 is hollow inside, and a communicating hole communicated with the outside is formed in the bottom of the second testing needle bed 1373, so that the heat dissipation effect is improved. Second test thimble 1376 sets up in the side of second test needle bed 1373 keeping away from third mounting plate 1372, and second lift cylinder 1371 is used for driving second test thimble 1376 and rises to the settlement position and carry out the host computer and detect. One end of the plurality of columns 1375 racks is disposed on the second test needle bed 1373; the elastic member is sleeved on the vertical column 1375, the protection block 1374 is clamped between the elastic member and the upper end portion of the vertical column 1375, and the elastic member is used for restoring the protection block 1374 to the initial position after the test. Guard block 1374 is provided with a plurality of through holes for second test thimble 1376 to pass through. When the second lifting cylinder 1371 drives the second testing needle bed 1373 to move upwards, the protection block 1374 contacts the main machine first, the second lifting cylinder 1371 continues to ascend, the protection block 1374 compresses the elastic piece, the top surface of the second testing ejector pin 1376 contacts the main machine, and the output shaft of the second lifting cylinder 1371 stops ascending. After the test is completed, the second lifting cylinder 1371 drives the second testing thimble 1376 to move downwards, the protection block 1374 is separated from the host, and returns to the initial position under the elastic restoring force of the elastic element.

In order to make the host to be tested enter the feeding platform 121 or the detecting platform 131 more easily, please refer to fig. 4, a plurality of fixed blocks 126 and a plurality of first pulleys 127 are arranged on the rack 11 at the first feeding port 1211, the fixed blocks 126 are fixedly arranged on the rack 11, the first pulleys 127 are slidably connected with the fixed blocks 126 through a rotating shaft, and the height of the upper surfaces of the first pulleys 127 is higher than the height of the end of the rack 11. The first pulley 127 reduces friction between the host to be detected and the feeding platform 121, and facilitates the host to be detected to move onto the feeding platform 121.

Referring to fig. 3, a plurality of supporting seats 138 and a plurality of second pulleys 139 are disposed at an end of the detecting platform 131 located at the second feeding hole 1311, so that the host to be detected can be conveniently conveyed from the feeding platform 121 to the detecting platform 131. One side of the supporting seat 138 is provided with a first avoiding groove for avoiding the position with the end of the detection platform and keeping the supporting seat horizontally arranged, so as to reduce the moving resistance of the host. One end of the supporting seat 138 provided with the first avoiding groove is connected with the end bolt of the detection platform 131, so that the installation and maintenance are convenient. One end of the supporting base 138 is provided with a first receiving groove 1351, and the other end of the supporting base 138 is provided with a second receiving groove 1352. The first receiving groove 1351 is located between the feeding platform 121 and the detecting platform 131. The second pulleys 136 are rotatably disposed in the first receiving groove 1351 and the second receiving groove 1352, respectively, so that the host computer can be transported from the loading platform 121 to the detecting platform 131.

The working principle of the utility model is as follows:

firstly, a host to be detected is conveyed to the position of the first feeding hole 1211, the output shaft of the blocking cylinder 123 drives the baffle 125 to move downwards, and the baffle 125 is positioned below the feeding platform 121. The first conveying unit 122 is started, the bottom end of the host to be detected is placed on the first pulley 127, and the first conveying unit 122 conveys the host to be detected to the feeding platform 121 through the friction force between the first conveying unit 122 and one end of the host to be detected. The blocking cylinder 123 at the first feeding port 1211 drives the baffle 125 to ascend, and the upper end of the baffle 125 is located above the feeding platform 121. At this time, the blocking cylinder 123 at the first discharging port 1212 drives the baffle 125 to move down, so that the baffle 125 is located below the feeding platform 121. The first conveying unit 122 drives the host to be tested to move out of the first discharging port 1212 and enter the testing platform 131 through the second feeding port 1311. In order to facilitate the transportation of the host to be detected, a plurality of groups of second pulleys 139 are disposed at the second feeding hole 1311, and the second pulleys 139 reduce the friction force between the host to be detected and the second transportation unit 132, so that the host to be detected is more conveniently transported to the detection platform 131. After the host to be detected is conveyed onto the detecting platform 131, the blocking cylinders 123 at the first discharging port 1212 and the second discharging port 1312 drive the blocking plate 125 to ascend, so that the end of the blocking plate 125 is located above the loading platform 121 or the detecting platform 131.

Secondly, the first lifting cylinder 1334 and the second lifting cylinder 1371 are started by the control system 1341 on the hood 134, and the output shaft of the first lifting cylinder 1334 drives the first testing needle bed 1335 to move downwards, so that the first testing thimble 1336 is correctly aligned with the host to be tested, the first lifting cylinder 1334 is stopped to operate, and the electric leakage test is performed on the upper surface of the host to be tested. The second lift cylinder 1371 drives the second testing needle bed 1373 to move upward, so that the second testing thimble 1376 is aligned with the lower surface of the host to be tested correctly, and the second lift cylinder 1371 stops operating. The inspection can be viewed through the display screen 1342 and the glass window on the inspection door 1343. In the detection process, the feeding platform 121 can also store another host to be detected, and after the host on the detection platform 131 is detected and finished, the host is directly conveyed out from the detection platform 131, and the host to be detected on the feeding platform 121 is directly conveyed to the detection platform 131, so that the detection efficiency is improved.

Thirdly, after the detection is finished, the output shafts of the first lifting cylinder 1334 and the second lifting cylinder 1371 are respectively driven to retract, and the first testing needle bed 1335 and the second testing needle bed 1373 are restored to the initial positions. The second conveying unit 132 rotates to drive the detected host to be conveyed out from one of the second discharge holes 1312.

Fourthly, the host to be detected of the feeding platform 121 is conveyed to the detection platform 131, and the next detection is started.

The full-automatic safety testing machine comprises a rack, a feeding device and a detecting device. The feeding device and the detection device are both arranged on the frame and are arranged adjacently. The main machine to be detected enters the feeding platform, and is conveyed to the detection platform from the opening of the hood by the first conveying unit. Both ends of the feeding platform and the end part of the detection platform, which is close to the plurality of openings, are provided with baffle plates capable of moving up and down, so that the host machine can orderly enter the feeding platform and the detection platform one by one. After the host to be detected is detected by the first safety testing unit, the second conveying unit conveys the detected host out of the other opening of the hood. In the detection process, the feeding platform can also store another host to be detected, and the two ends of the feeding platform are separated by baffles. After the host computer on the testing platform detects and directly carries away from testing platform after accomplishing, wait to detect on the material loading platform that the host computer directly carries testing platform, improved detection efficiency, solved among the prior art and transported the problem that the host computer leads to detection efficiency lower by the manual work in the testing process.

In summary, although the present invention has been described with reference to the preferred embodiments, the above-described preferred embodiments are not intended to limit the present invention, and those skilled in the art can make various changes and modifications without departing from the spirit and scope of the present invention, so that the scope of the present invention shall be determined by the scope of the appended claims.

Claims (10)

1. The utility model provides a full-automatic ann rule test machine which characterized in that includes:

a frame;

a feeding device: the device comprises a feeding platform and a first conveying unit, wherein the feeding platform is arranged at one end of a rack, and the first conveying unit is arranged on the feeding platform and used for conveying a host to be detected; and the number of the first and second groups,

the detection device comprises: the device is provided with a detection platform, a second conveying unit, a first safety test unit and a hood; the detection platform is positioned at the other end of the rack and is arranged adjacent to the feeding platform; the second conveying unit is arranged on the detection platform, and the first safety test unit is perpendicular to the detection platform and used for detecting the electric leakage of the host; the hood is covered on the detection platform, openings for host conveying are formed in multiple side faces of the hood, and two ends of the second conveying unit in the conveying direction are located at the two openings respectively;

the two ends of the feeding platform and the end parts of the detection platform, which are close to the plurality of openings, are provided with blocking cylinders, sliding rails and baffles, and the blocking cylinders, the sliding rails and the baffles are used for matching the feeding platform and the detection platform to convey and detect a host; the blocking cylinder and the slide rail are both arranged on the rack; the baffle is connected with the sliding rail in a sliding mode and provided with a notch, a clamping block is arranged at the notch of the baffle, the clamping block is detachably connected to the top wall of the notch, and an inner hole used for limiting an output shaft of the blocking cylinder is formed in the bottom end of the clamping block; and the output shaft of the blocking cylinder penetrates through the inner hole to jack the baffle.

2. The full-automatic safety testing machine according to claim 1, wherein the feeding device is further provided with a plurality of fixing blocks and a plurality of first pulleys, the fixing blocks are respectively arranged at one end of the feeding platform far away from the detection platform, the fixing blocks are hollow, and the height of the upper surfaces of the fixing blocks is lower than that of the end parts of the rack; the first pulley passes through the pivot with fixed block sliding connection, the upper surface height of first pulley is higher than the height of frame tip.

3. The full-automatic safety testing machine according to claim 1, wherein a plurality of supporting seats and a plurality of second pulleys are arranged at the end parts of the detection platform adjacent to the feeding platform;

one side of the supporting seat is provided with a first avoiding groove which is used for avoiding the end part of the detection platform and keeping the supporting seat horizontally arranged, and one end of the supporting seat, which is provided with the first avoiding groove, is connected with the end part of the detection platform through a bolt; one end of the supporting seat is provided with a first accommodating groove, and the other end of the supporting seat is provided with a second accommodating groove; the first accommodating groove is positioned between the feeding platform and the detection platform;

and the second pulleys are respectively rotatably arranged in the first accommodating groove and the second accommodating groove.

4. The fully automatic safety testing machine of claim 1, wherein the first safety testing unit comprises:

mounting a plate: the mounting plate is arranged in parallel with the detection platform and comprises a first mounting plate and a second mounting plate, one end of the first mounting plate is fixedly connected with the rack, and the second mounting plate is connected with the first mounting plate and is positioned below the first mounting plate;

a reinforcing plate: the first mounting plate is provided with a plurality of reinforcing plates, one ends of the reinforcing plates are connected with one side of the first mounting plate, and the other ends of the reinforcing plates are connected with the rack and used for reinforcing the bearing capacity of the first mounting plate;

first test needle bed: the first testing needle bed is arranged on one side, away from the first mounting plate, of the second mounting plate;

first lift cylinder: the output shaft of the first lifting cylinder penetrates through the first mounting plate, the second mounting plate and the first testing needle bed in transmission connection in sequence; and the number of the first and second groups,

a first test thimble: the first testing thimble is positioned on one side of the first testing needle bed, which is opposite to the detection platform.

5. The full-automatic safety testing machine according to claim 4, wherein the first safety testing unit further comprises a plurality of shock-absorbing columns, one ends of the shock-absorbing columns are connected with the second mounting plate, the other ends of the shock-absorbing columns penetrate through the first mounting plate, and the shock-absorbing columns are uniformly arranged and used for balancing the second mounting plate and absorbing shock; one end of at least one of the shock absorption columns is provided with an expansion end for preventing the first testing needle bed from falling on the detection platform.

6. The full-automatic safety gauge testing machine according to claim 1, wherein a second avoiding groove is formed in one end of the second conveying unit, the detection device further comprises a second safety gauge testing unit, the second safety gauge testing unit is located below the second avoiding groove, and the second safety gauge testing unit comprises:

a second lifting cylinder: the frame is arranged on the frame;

a third mounting plate: one side of the third mounting plate is in transmission connection with an output shaft of the second lifting cylinder;

a second testing needle bed: the second testing needle bed is arranged on the other side of the third mounting plate, the interior of the second testing needle bed is hollow, and a communicating hole communicated with the exterior is formed in the bottom of the second testing needle bed; and the number of the first and second groups,

a second testing thimble: the second lifting cylinder is used for driving the second testing ejector pin to ascend to a set position to perform host detection.

7. The full-automatic safety testing machine according to claim 6, wherein the second testing thimble is further provided with a protection block, a plurality of columns and a plurality of elastic members, and one end of each of the plurality of column holders is arranged on the second testing needle bed; the elastic piece is sleeved on the upright post, the protection block is clamped between the elastic piece and the upper end part of the upright post, and the elastic piece is used for returning the protection block to an initial position after the test is finished; the protection block is provided with a plurality of through holes for the second testing ejector pins to pass through.

8. The full-automatic safety testing machine according to claim 1, wherein the feeding platform is provided with a first feeding hole and a first discharging hole, and the detection platform is provided with a second feeding hole and a second discharging hole; the first feeding hole and the first discharging hole are respectively arranged at two ends of the first conveying unit; the first conveying unit and the second conveying unit are arranged differently, the plurality of openings correspond to the second feeding hole and the second discharging hole respectively, the opening on one side, located between the feeding platform and the detection platform, of the hood is the second feeding hole, and the second discharging hole is formed in the two ends, along the conveying direction, of the second conveying unit.

9. The full-automatic safety testing machine of claim 8, wherein the feeding platform is provided with a slope, and the height of the first feeding hole is greater than that of the first discharging hole.

10. The full-automatic safety testing machine of claim 1, wherein the detection device further comprises a control system, a display screen and a detection door; the control system, the display screen and the detection door are all arranged on the side face, opposite to the feeding platform, of the hood, and the control system and the display screen are in data transmission with the first safety test unit through data lines; and a glass observation window is arranged on the detection door.

Images