CN116184254B - Power functionality check out test set - Google Patents

Abstract

The invention discloses power functionality detection equipment, which relates to the field of power detection and comprises a base, wherein conveying belts are arranged on two sides of the base, a plurality of groups of power supplies are arranged above each group of conveying belts, an output head, an adjusting knob and an input head are arranged at the end part of each power supply, and a driving mechanism is connected to the top end of the base. According to the invention, in the detection process, the rotating motor drives the rotating block to rotate so as to drive the adjusting knob to rotate, the adjusting knob finely adjusts the output voltage of the power supply, after the adjusting knob rotates to a group of steering limit, relative displacement is generated between the output plate and the driven plate, the driving spring is extruded, the connecting block drives the internal signal wire to contact with the signal wire in the driven plate, the sensing wire is connected, the sensing wire transmits a signal to the central controller, and the central controller controls the rotating motor to enable the rotating motor to reversely rotate, so that the rotating block drives the adjusting knob to reversely rotate to the limit position.

Description

Power functionality check out test set

Technical Field

The invention relates to the field of power supply detection, in particular to power supply functionality detection equipment.

Background

A power supply is a device that provides power to an electronic device, also known as a power supply, that provides the electrical power required by all components in a computer. The power supply has stable power level, stable current and voltage, and can directly influence the working performance and service life of the computer, and the power supply needs to detect the functions of power supply such as running stability and overload protection in the production process, and a detection device is generally adopted to comprehensively detect the power supply in the detection process.

The current power supply is in the use, the power supply can be supplied with power to the multiunit equipment usually, therefore, the power supply can be provided with multiunit output interface and wire connection, in the testing process, input the power supply with external input current and put through, detect the output of power supply afterwards, the testing process needs to be continuously supplied with power to the power supply, it is to keep the power supply to put through with detection mechanism in the testing, current power connection is usually by multiunit, current testing mode is usually to detect every group of connection of power through the universal meter in proper order, detection efficiency is relatively poor, and in the testing process to the power, the output of partial power has great deviation, but in the testing process, usually all fixed voltage is to the power supply, lead to the power output voltage invariable, when detecting the deviation value, the rotation of adj knob is required, current rotation is usually all to adopt the manual work, and when multiunit connects to detect, every group of connection detects the in-process all need to adjust the knob, the detection time is long, the efficiency is lower.

Disclosure of Invention

Based on the above, the invention aims to provide a power supply functionality detection device so as to solve the technical problems of poor single detection efficiency and long waiting time during power supply detection.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a power functionality check out test set, includes the base, the conveyer belt has all been installed to the both sides of base, and multiunit power has been placed to the top of every conveyer belt of group, output head, adjustment knob and input head are installed to the tip of power, the top of base is connected with actuating mechanism, and the transmission mechanism outside transmission is connected with connecting belt, the top of base is located the below of connecting belt and installs and connect the electric plate, connect the electric plate through connecting rod and the internal equipment switch-on of detection mechanism, and connecting belt's inner wall installs multiunit connecting rod, and the side of every group connecting rod is connected with the electric cylinder, and the output of electric cylinder is connected with detection mechanism, detection mechanism's bottom is connected with multiunit detection head and a set of power supply joint, and detection head aligns with the output, and power supply joint aligns with the input head, and the top of every group detection head all is connected with voltage detector in detection mechanism's inside, and voltage detector's top is connected with well accuse ware, and power transmission circuit board is connected with well accuse ware through the wire connection, the top of well accuse ware is installed the detection mechanism, the inside control block is installed with the rotation knob, rotation control block installs in the rotation control block and rotation control block, rotation control block rotation, rotation control has the rotation limiting block rotation joint has, rotation control has.

Through adopting above-mentioned technical scheme, can be convenient detect the power through detection mechanism, and rotate the knob through the turning block when detecting to detect the different extreme voltage of power.

The invention is further arranged that the bottom end of the connecting rod is connected with the electric plug, the connecting rod is spliced with the electric plate through the electric plug, two groups of conducting rods are arranged on the side face of the connecting rod, each group of conducting rods extends to the outer side of the connecting belt and is fixedly connected with the electric cylinder, one group of conducting rods is communicated with the electric cylinder, the bottom end of one group of conducting rods is connected with a plurality of groups of spiral lines, and each group of spiral lines is respectively communicated with equipment in the detection mechanism.

Through adopting above-mentioned technical scheme, can be convenient supply power to the inside equipment of detection mechanism, make detection mechanism can normal operating.

The invention is further characterized in that a plurality of groups of mounting grooves are formed in the detection mechanism, and the detection head and the power supply connector are movably connected with the detection mechanism through the mounting grooves.

Through adopting above-mentioned technical scheme, can conveniently detect head and power supply joint and remove, conveniently detect output head and input head of not co-altitude.

The invention is further characterized in that the top end of the rotating block is connected with a rotating rod, the inside of the rotating rod is hollow, the inside of the rotating rod is movably connected with a sliding rod, the rotating block is fixed at the end part of the sliding rod, the sliding rod is a cuboid column, and the outer side of the sliding rod is sleeved with a return spring.

Through adopting above-mentioned technical scheme, can drive square slide bar synchronous rotation through the dwang to conveniently drive the dwang and change, and drive the slide bar through return spring and return.

The invention further provides that the transmission mechanism comprises a propelling air bag, a buffer air bag and a sealing ring, wherein the propelling air bag is positioned at the top end of a sliding rod in the rotating rod, a plurality of groups of air inlets are formed in the outer wall of the rotating rod, the air inlets are communicated with the propelling air bag, the sealing ring is connected with the outer side of the air inlets positioned on the outer wall of the rotating rod, the sealing ring is communicated with each group of buffer air bags, the buffer air bags are positioned in each group of mounting grooves, the mounting grooves are respectively positioned above the detection head and the power supply connector, when the detection head and the power supply connector move upwards, the buffer air bags are extruded, and gas in the buffer air bags is transferred into the sealing ring.

Through adopting above-mentioned technical scheme, can carry out buffer adjustment through buffer gasbag to detecting head and power supply connector, and through buffer gasbag to impel the gasbag and carry out the air feed, promote the movable block and remove the extrusion on adjust knob.

The invention is further arranged that the bottom end of the rotating block is provided with a friction plate, and the bottom end of the friction plate is provided with a clamping groove matched with the adjusting knob.

Through adopting above-mentioned technical scheme, can make things convenient for being connected between turning block and the adjust knob to drive the adjust knob and rotate.

The invention further provides that the limit detection mechanism comprises an induction wire, an output plate, a driven plate, a loop bar and a transmission spring, wherein the end part of the induction wire is connected with two groups of output loops, each group of output loops is positioned at the outer sides of the output plate and the driven plate respectively, the bottom end of the output plate is connected with a connecting block, the loop bar is fixed at two sides of the connecting block, the bottom end of the loop bar is connected with a sliding block, the loop bar penetrates through the sliding block, the transmission spring is sleeved at the outer side of the loop bar, the two ends of the transmission spring are respectively fixed at the outer walls of the connecting block and the sliding block, a group of first signal wires are arranged in the connecting block, one end of each first signal wire extends to the side surface of the connecting block and is communicated with one group of induction wires, the other end of each first signal wire extends to the bottom end of the connecting block and is aligned with the top end of the driven plate, two groups of second signal wires are symmetrically arranged in the driven plate, and one end of each group of second signal wires also extends to the outer side of the driven plate and is communicated with one group of induction wires, and the other end of each second signal wire extends to the top end of the driven plate and is in butt joint with the first signal wires.

Through adopting above-mentioned technical scheme, after the turning block is spacing by the adjust knob, the output plate can extrude drive spring to make the connecting block drive signal wire and the inside signal wire of driven plate be connected, after the wire is connected, switch on the response wire, to the central controller output signal, thereby adjust turning motor rotation, drive the turning block counter-rotating, detect the extreme voltage of power.

In summary, the invention has the following advantages:

1. according to the invention, when the power supply is detected, the plurality of groups of power supplies can be moved through the conveyor belts, and meanwhile, the plurality of groups of detection mechanisms are driven to align with the plurality of groups of power supplies through the connecting belts and synchronously move, when the connecting rods are contacted with the power connection plate, the power supply is supplied to the electric cylinders and the detection mechanisms, the electric cylinders push the detection mechanisms to move and be connected with the power supplies, the power supplies are detected, the detection mechanisms are separated from the power supplies to finish detection, the detection mechanisms are rotated to the other groups of conveyor belts after the detection is finished, the power supplies on the next group of conveyor belts are detected, the transmitted power supplies can be sequentially detected on the power supply production line, the detection effect is improved, and the problem of poor fixed detection efficiency is effectively solved.

2. According to the invention, in the detection process, the detection mechanism is used for synchronously detecting a plurality of groups of joints of a power supply, and the rotating motor is used for driving the rotating block to rotate so as to drive the adjusting knob to rotate during detection, so that the adjusting knob finely adjusts the output voltage of the power supply, after the adjusting knob rotates to a group of turning limit, the relative displacement is generated between the output plate and the driven plate, the driving spring is extruded, the connecting block drives an internal signal wire to contact with the signal wire in the driven plate, the induction wire is connected, the induction wire transmits a signal to the central controller, the central controller is used for controlling the rotating motor, so that the rotating motor reversely rotates, the rotating block drives the adjusting knob to reversely rotate to the limit position, the fine adjustment limit of the power supply is detected, the detection effect is improved, and the plurality of groups of output heads can be synchronously detected, so that the problem of long waiting time during power supply overload detection is effectively solved.

3. The invention can buffer the contact of the detection head, the power supply connector, the output head and the input head through the buffer air bag when the detection mechanism is in contact with the power supply, the positions of the detection head and the power supply connector can be adaptively adjusted according to the heights of the output head and the input head, the connectors with different heights are conveniently connected, air in the buffer air bag can be input into the pushing air bag through the air bag pipe, the pushing air bag is expanded to push the sliding rod, the sliding rod pushes the rotating block to move and press and attach with the adjusting knob, the extrusion force between the rotating block and the adjusting knob can be increased, the rotating block is retracted when the rotating block is not used, the interference between the detection mechanism and the power supply when the detection mechanism is separated is reduced, and the connecting effect is improved.

Drawings

FIG. 1 is a schematic top view of the present invention;

FIG. 2 is a schematic view of the position structure of a turntable and a conveyor belt according to the present invention;

FIG. 3 is a schematic diagram showing a structure of attaching a detection mechanism to a power supply according to the present invention;

FIG. 4 is a schematic diagram of a detection mechanism according to the present invention;

FIG. 5 is a schematic diagram showing the internal structure of the detecting mechanism according to the present invention;

FIG. 6 is a schematic diagram of a test head mounting structure according to the present invention;

FIG. 7 is a schematic view of the internal structure of the rotating rod according to the present invention;

FIG. 8 is a schematic top view of a turning bar according to the present invention;

FIG. 9 is a schematic diagram of a transmission control mechanism according to the present invention;

fig. 10 is a schematic top view of the transmission control mechanism of the present invention.

In the figure: 1. a base; 2. a driving motor; 3. a turntable; 4. a connecting belt; 5. a connecting rod; 501. a conductive rod; 6. an electric cylinder; 7. a conveyor belt; 8. a power supply; 801. an output head; 802. an adjustment knob; 803. an input head; 9. a limiting plate; 10. a power connection plate; 11. a detection mechanism; 1101. a central controller; 1102. a detection circuit board; 1103. a power transmission circuit board; 1104. a mounting groove; 12. a spiral line; 13. a rotating block; 1301. a rotating lever; 1302. a slide bar; 1303. a return spring; 1304. propelling the air bag; 1305. an air inlet hole; 14. a detection head; 1401. a power supply connector; 15. a voltage detector; 16. a buffer air bag; 1601. an air bag tube; 17. a rotating motor; 18. sensing wires; 19. a seal ring; 20. an output board; 2001. a connecting block; 21. a driven plate; 2101. a sliding block; 22. a loop bar; 23. a transmission spring; 24. signal conductors.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. The embodiments described below by referring to the drawings are illustrative only and are not to be construed as limiting the invention.

Hereinafter, an embodiment of the present invention will be described in accordance with its entire structure.

The utility model provides a power functionality check out test set, as shown in fig. 1 through 10, the on-line screen storage device comprises a base 1, conveyer belt 7 has all been installed to the both sides of base 1, multiunit power 8 has been placed to the top of every conveyer belt 7, output head 801 is installed to the tip of power 8, adjust knob 802 and input 803, driving motor 2 and carousel 3 are connected to the top of base 1, connecting belt 4 has been cup jointed in the outside of carousel 3, connect electric plate 10 is installed to the top of base 1 in the below of connecting belt 4, connect electric plate 10 through connecting rod 5 and 11 internal equipment switch-on, and multiunit connecting rod 5 is installed to the inner wall of connecting belt 4, the bottom of connecting rod 5 is connected with the power plug, connecting rod 5 is pegged graft through connect electric plug and connect electric plate 10, two sets of conducting rods 501 are installed to the side of connecting rod 5, every conducting rod 501 all extends to the outside and the electric cylinder 6 fixed connection of connecting belt 4, a set of conducting rod 501 and electric cylinder 6 switch-on, and the output end of electric cylinder 6 is connected with detecting mechanism 11, the bottom of a set of conducting rod 12 is connected with multiunit spiral 12, every set of spiral 12 respectively with detecting mechanism 11 when detecting mechanism 11 and detecting mechanism 5, connect electric rod 11 and detecting mechanism 5 and detecting mechanism 11 through connecting rod 11, detect electric connection 11 and detecting mechanism through connecting rod 11 and detecting mechanism 11, connect electric connection 11 and detecting mechanism through connecting rod 11, the power connection end is connected with electric rod 11, and detecting mechanism through connecting rod 11, and detecting mechanism is connected with electric connection 11, and detecting mechanism.

The bottom end of the detection mechanism 11 is connected with a plurality of groups of detection heads 14 and a group of power supply joints 1401, the detection heads 14 are aligned with the output heads 801, the power supply joints 1401 are aligned with the input heads 803, a voltage detector 15 is connected to the inside of the detection mechanism 11 above each group of detection heads 14, a central controller 1101 is connected to the upper side of the voltage detector 15, a power transmission circuit board 1103 is connected to the upper side of the power supply joints 1401, the detection circuit board 1102 and the power transmission circuit board 1103 are connected with the central controller 1101 through wires, a wireless module is arranged at the top end of the central controller 1101, a rotating motor 17 is arranged in the detection mechanism 11 through a spiral line, the output end of the rotating motor 17 is connected with a rotating block 13, the top end of the rotating block 13 is connected with a rotating rod 1301, the inside of the rotating rod 1301 is hollow, the inside of the rotating rod 1301 is movably connected with a sliding rod 1302, the rotating block 13 is fixed at the end part of the sliding rod 1302, the slide bar 1302 is a cuboid column, a return spring 1303 is sleeved on the outer side of the slide bar 1302, a transmission mechanism is arranged in the rotating block 13, the transmission mechanism comprises a pushing air bag 1304, a buffer air bag 16 and a sealing ring 19, the pushing air bag 1304 is positioned at the top end of the slide bar 1302 in the rotating bar 1301, a plurality of groups of air inlets 1305 are formed in the outer wall of the rotating bar 1301, the air inlets 1305 are communicated with the pushing air bag 1304, the sealing ring 19 is connected with each group of buffer air bags 16, the buffer air bags 16 are positioned in each group of mounting grooves 1104, the mounting grooves 1104 are respectively positioned above the detection heads 14 and the power supply connectors 1401, when the detection mechanism 11 is connected with the power supply 8, the detection heads 14 are extruded on the output heads 801, the power supply connectors 1401 are extruded on the input heads 803, and when the detection heads 14 and the power supply connectors 1401 move upwards, the buffer air bags 16 are extruded, the gas in the buffer airbag 16 enters into the seal ring 19 along the airbag tube 1601 and enters into the propulsion airbag 1304 through the gas inlet 1305, the propulsion airbag 1304 expands to push the slide bar 1302 and the rotating block 13 to move, the rotating block 13 is extruded on the adjusting knob 802, the connection between the detection mechanism 11 and the power supply 8 is completed, each group of detection heads 14 and the power supply connector 1401 are in contact extrusion with the corresponding output heads 801 and input heads 803 on the power supply 8, the detection heads 14 and the power supply connector 1401 are pushed to slide in the mounting groove 1104, the buffer airbag 16 is extruded, the height of the detection heads 14 and the power supply connector 1401 is changed, the output heads 801 and the input heads 803 with different heights can be extruded and connected with the output heads 801 and the input heads 803 with different heights, the detection heads 801 and 803 with different heights can not be in contact with the detection heads 14 or the power supply connector 1401, the detection effect is improved, when the buffer airbag 16 is extruded, the gas in the buffer airbag 16 is transmitted into the seal ring 19 through the airbag tube 1601, the inner wall of the seal ring 19 is provided with grooves communicated with the rotating bars 1301, the gas is enabled to enter into the propulsion airbag 1302, the propulsion airbag 1302 slides in the mounting groove 1104, the detection heads 802 and the detection heads 802 are pushed by the driving heads 802, the output heads 801 and the input heads 803 are not in contact with the detection heads 803, the detection heads are not rotated with the detection heads 803, and are tightly, and are not adjusted, and are tightly connected with the detection heads 803, and are not rotated with the detection heads 803, and are in contact with the detection heads 13, and are tightly, and connected with the detection heads are not in contact with the power supply connector 1401, and adjusted, and are in contact with the detection heads and connected with the power supply connector 1401, and is in order to rotate, and connected with the detection input heads and is in contact with the detection connector with the input and has and is or tightly connected with the detection input air input and has and is or connected.

A limit detection mechanism is connected between the rotating block 13 and the rotating motor 17 and is communicated with the central controller 1101, the limit detection mechanism comprises a sensing wire 18, an output plate 20, a driven plate 21, a loop bar 22 and a transmission spring 23, the end part of the sensing wire 18 is connected with two groups of output rings, each group of output rings is respectively positioned at the outer sides of the output plate 20 and the driven plate 21, the bottom end of the output plate 20 is connected with a connecting block 2001, the loop bar 22 is fixed at two sides of the connecting block 2001, the bottom end of the loop bar 22 is connected with a sliding block 2101, the loop bar 22 penetrates through the sliding block 2101, the transmission spring 23 is sheathed at the outer side of the loop bar 22, two ends of the transmission spring 23 are respectively fixed at the outer walls of the connecting block 2001 and the sliding block 2101, a group of first signal wires 24 are arranged in the connecting block 2001, one end of the first signal wires 24 extends to the side surface of the connecting block 2001 and is communicated with one group of the sensing wire 18, the other end extends to the bottom end of the connecting block 2001 and aligns with the top end of the driven plate 21, two groups of second signal wires are symmetrically arranged in the driven plate 21, one end of each group of second signal wires also extends to the outer side of the driven plate 21 and is communicated with one group of induction wires 18, the other end extends to the top end of the driven plate 21 and is in butt joint with the first signal wires 24, after the detection mechanism 11 is in contact with the power supply 8, the voltage output by the power supply 8 is detected through a plurality of groups of voltage detectors 15, and meanwhile, the rotating motor 17 is started to drive the connecting block 2001 to rotate the connecting block 2001 to squeeze the transmission spring 23 through the output plate 20, the transmission spring 23 is contracted until the internal force of the transmission spring 23 is larger than the resistance force born by the rotating block 13, the transmission spring 23 pushes the driven plate 21 to synchronously rotate, the driven plate 21 drives the rotating block 13 to synchronously rotate, and the rotating block 13 drives the adjusting knob 802 to finely adjust the output voltage of the power supply 8, until the adjustment knob 802 rotates to the limit position and cannot continue to rotate, the resistance of the adjustment knob 802 received by the rotating block 13 and the rotating rod 1301 is increased instantaneously, at the moment, the extrusion force of the connecting block 2001 to the transmission spring 23 is increased instantaneously, the transmission spring 23 is shortened more, the internal signal wire 24 driven by the connecting block 2001 is communicated with the signal wire 24 in the driven plate 21, the induction wire 18 forms a loop to output a signal to the central controller 1101, at the moment, the central controller 1101 drives the rotating motor 17 to rotate reversely, the output plate 20, the driven plate 21 and the rotating block 13 are driven to rotate reversely, so that the adjustment knob 802 is driven to rotate reversely, the output current of the power supply 8 is reversely adjusted until the adjustment to the limit position of the power supply 8 is carried out again, at the moment, the central controller 1101 transmits the detected signal to external processing equipment, at the moment, the voltage at the moment is recorded, the voltage interval of the power supply 8 is detected, and the detection effect is improved.

Referring to fig. 5, a plurality of groups of mounting slots 1104 are formed in the detection mechanism 11, and the detection head 14 and the power supply connector 1401 are movably connected with the detection mechanism 11 through the mounting slots 1104, so that the detection head 14 and the power supply connector 1401 can be conveniently moved, the detection head 14 and the power supply connector 1401 can be conveniently moved in position, and the output heads 801 and the input heads 803 with different heights can be conveniently connected.

Referring to fig. 7, a friction plate is provided at the bottom end of the rotating block 13, and a clamping groove matched with the adjusting knob 802 is provided at the bottom end of the friction plate, so that the rotating block 13 is convenient to be tightly attached to the adjusting knob 802 to drive the adjusting knob 802 to rotate.

The working principle of the invention is as follows: when the equipment is detected, the screw rod and the adjusting bolt on the back of the limiting plate 9 are rotated, the position of the limiting plate 9 is adjusted, the conveyor belt 7 drives the power supply 8 to move below the detection mechanism 11, the limiting plate 9 limits the position of the power supply 8, the power supply 8 is prevented from shifting during processing, then the driving motor 2 and the conveyor belt 7 are synchronously started, the driving motor 2 drives the connecting belt 4 to rotate through the turntable 3, the connecting belt 4 drives the plurality of groups of connecting rods 5 and the detection mechanism 11 to move, the conveyor belt 7 drives the power supply 8 and the detection mechanism 11 to synchronously operate, after the bottom end of the connecting rod 5 is contacted with the power connection plate 10, the connecting rod 5 is connected with an external power supply through the power connection plate 10, the electric cylinder 6 and the detection mechanism 11 are powered through the conducting rod 501, the electric cylinder 6 pushes the detection mechanism 11 to move downwards, the detection mechanism 11 is enabled to move above the output head 801 and the input head 803 of the power supply 8, at this time, each group of detection heads 14 and power supply joints 1401 and corresponding output heads 801 and input heads 803 on a power supply 8 are contacted and extruded at first, the detection heads 14 and the power supply joints 1401 are pushed to slide in mounting grooves 1104, buffer air bags 16 are extruded, the heights of the detection heads 14 and the power supply joints 1401 are changed, the output heads 801 and the input heads 803 with different heights can be extruded and connected, the situation that the output heads 801 and the input heads 803 with different heights cannot be contacted with the detection heads 14 or the power supply joints 1401 is avoided, the detection effect is improved, and when the buffer air bags 16 are extruded, air in the buffer air bags 16 is transmitted into sealing rings 19 through air bag tubes 1601, grooves communicated with rotating rods 1301 are formed in the inner walls of the sealing rings 19, the air is led to enter into pushing air bags 1304 through air inlets 1305, the pushing air bags 1304 are inflated to push sliding rods 1302, the slide bar 1302 pushes the rotating block 13 to be tightly attached to the adjusting knob 802, so that the rotating block 13 is clamped with the adjusting knob 802, at the moment, the pushing air bag 1304 is not inflated, the air in the buffer air bag 16 is not discharged, the detection head 14 and the power supply connector 1401 are not moved to be stable, the detection head 14, the power supply connector 1401 are tightly attached to the output head 801 and the input head 803, and the connection between the detection mechanism 11 and the power supply 8 is completed;

the detection circuit board 1102 and the power transmission circuit board 1103 are then started by the central controller 1101, the power transmission circuit board 1103 provides input current meeting the standard of the power supply 8 for each group of power supply connectors 1401 through wires, the current is input into the power supply 8 through the power supply connectors 1401, the power supply 8 processes the input current to form standard current, the standard current is transmitted into the detection heads 14 through each group of detection heads 14, the detection heads 14 transmit the standard current into the voltage detector 15 through wires, the voltage detector 15 transmits detected signals into the detection circuit board 1102, the detection circuit board 1102 processes the signals and transmits the signals into the central controller 1101, the central controller transmits the processed signals into external processing equipment through a wireless module at the top end, the voltage at the time is recorded, then the rotating motor 17 is started, the rotating motor 17 drives the connecting block 2001 to rotate through the output plate 20 to extrude the transmission spring 23, the transmission spring 23 contracts until the internal force of the transmission spring 23 is larger than the resistance force born by the rotating block 13, the transmission spring 23 pushes the driven plate 21 to synchronously rotate, the driven plate 21 drives the rotating block 13 to rotate, the rotating block 13 drives the adjusting knob 802 to synchronously rotate, thereby fine-tuning the output voltage of the power supply 8 until the adjusting knob 802 rotates to the limit position and cannot continuously rotate, the resistance force born by the rotating block 13 and the rotating rod 1301 is instantaneously increased, at the moment, the extrusion force of the connecting block 2001 to the transmission spring 23 is also instantaneously increased, the transmission spring 23 is also more shortened, until the connecting block 2001 drives the internal signal wire 24 to be communicated with the signal wire 24 in the driven plate 21, the induction wire 18 forms a loop centering controller 1101 to output a signal, at the moment, the center controller 1101 drives the rotating motor 17 to reversely rotate, the output plate 20 is driven, the driven plate 21 and the rotating block 13 rotate reversely, thereby driving the adjusting knob 802 to rotate reversely, the output current of the power supply 8 is reversely adjusted until the limiting position of the power supply 8 is adjusted again, at this time, the central controller 1101 transmits the detected signal to the external processing equipment, the voltage at this time is recorded, the deviation value of the power supply 8 is recorded and compared, whether the power supply 8 is qualified or not is detected, after detection, the connecting rod 5 is separated from the power receiving plate 10, the power supply of the electric cylinder 6 and the detecting mechanism 11 is cut off, the electric cylinder 6 drives the detecting mechanism 11 to return, the detecting head 14, the power supply connector 1401 and the output head 801 are separated, the gravity of the detecting head 14 and the power supply connector 1401 pulls the buffer air bag 16 to return, the pushing rotating rod 1301 of the return spring 1303 returns and extrudes the pushing air bag 1304, the rotating block 13 is driven to return, the detecting mechanism 11 and the power supply 8 are separated and do not interfere with each other, the detection of the power supply 8 is completed, the power supply 8 to be detected on the two groups of conveyor belts 7 according to a certain sequence, the power supply 8 to be detected is placed on the two groups of conveyor belts 7 in sequence in the detecting process, the synchronous detection of the power supply 8 can be conveniently detected simultaneously, the voltage range of the power supply 8 can be detected conveniently and the voltage can be detected in the detecting process and the power supply range can be increased.

Although embodiments of the invention have been shown and described, the detailed description is to be construed as exemplary only and is not limiting of the invention as the particular features, structures, materials, or characteristics may be combined in any suitable manner in any one or more embodiments or examples, and modifications, substitutions, variations, etc. may be made in the embodiments as desired by those skilled in the art without departing from the principles and spirit of the invention, provided that such modifications are within the scope of the appended claims.

Claims (6)

1. The utility model provides a power functionality check out test set, includes base (1), conveyer belt (7) are all installed to the both sides of base (1), and multiunit power (8) have been placed to the top of every conveyer belt (7), output head (801), adjust knob (802) and input head (803) are installed to the tip of power (8), its characterized in that: the top of base (1) is connected with actuating mechanism, actuating mechanism outside transmission is connected with connecting belt (4), connect electric plate (10) is installed to the top of base (1) below that is located connecting belt (4), connect electric plate (10) to put through with detection mechanism (11) internal equipment through connecting rod (5), and the inner wall of connecting belt (4) is installed multiunit connecting rod (5), the side of every group connecting rod (5) is connected with electronic jar (6), and the output of electronic jar (6) is connected with detection mechanism (11), the bottom of detection mechanism (11) is connected with multiunit detection head (14) and a set of power supply joint (1401), detect head (14) and output head (801) alignment, power supply joint (1401) and input head (803) alignment, the top that is located detection mechanism (11) of every group detection head (14) all is connected with voltage detector (15) in the inside of detection mechanism (11), the top of voltage detector (15) is connected with well accuse ware (1101), the top of joint (5) is connected with detection mechanism (1103), install in detection mechanism (1101) and the transmission of electricity (1101) through rotating in the transmission line (1101) of detection mechanism (17) in the transmission line (1101) of radio transmission control module (1101), the output end of the rotating motor (17) is connected with a rotating block (13), a transmission mechanism is arranged in the rotating block (13), the transmission mechanism pushes the bottom end of the rotating block (13) to be tightly attached to the adjusting knob (802), a limit detection mechanism is connected between the rotating block (13) and the rotating motor (17), and the limit detection mechanism is communicated with the central controller (1101);

the limit detection mechanism comprises a sensing wire (18), an output plate (20), a driven plate (21), a ring rod (22) and a transmission spring (23), wherein the end part of the sensing wire (18) is connected with two groups of output rings, each group of output rings is respectively positioned at the outer sides of the output plate (20) and the driven plate (21), the bottom end of the output plate (20) is connected with a connecting block (2001), the ring rod (22) is fixed at two sides of the connecting block (2001), the bottom end of the ring rod (22) is connected with a sliding block (2101), the ring rod (22) penetrates through the sliding block (2101), the transmission spring (23) is sleeved on the outer side of the ring rod (22), two ends of the transmission spring (23) are respectively fixed at the outer walls of the connecting block (2001) and the sliding block (2101), a group of first signal wires (24) are arranged in the connecting block (2001), one end of each first signal wire (24) extends to the side surface of the connecting block (2001) to be connected with one group of sensing wires (18), the other end of the first signal wires (2001) extends to the top end of the connecting block (21) to be aligned with the top end of the driven plate (21), the second signal wires (21) are symmetrically connected with the two groups of the first signal wires (21) which extend to the outer sides of the two groups of the first signal wires (21) respectively, the other end extends to the top end of the driven plate (21) to be in butt joint with the first signal wire (24);

the rotating motor (17) drives the connecting block (2001) to rotate through the output plate (20) to extrude the driving spring (23), the driving spring (23) contracts until the internal force of the driving spring (23) is larger than the resistance born by the rotating block (13), the driving spring (23) pushes the driven plate (21) to synchronously rotate, the driven plate (21) drives the rotating block (13) to rotate, and the rotating block (13) drives the adjusting knob (802) to synchronously rotate.

2. A power functionality detection apparatus according to claim 1, characterized in that: the bottom of connecting rod (5) is connected with and connects electric plug, and connecting rod (5) are pegged graft through connecing electric plug and electric plate (10), two sets of conducting rods (501) are installed to the side-mounting of connecting rod (5), and every conducting rod (501) of group all extends to the outside and electric cylinder (6) fixed connection of connecting belt (4), and a set of conducting rod (501) is put through with electric cylinder (6), and the bottom of a set of conducting rod (501) is connected with multiunit helix (12), and every set of helix (12) is put through with the inside equipment of detection mechanism (11) respectively.

3. A power functionality detection apparatus according to claim 1, characterized in that: a plurality of groups of mounting grooves (1104) are formed in the detection mechanism (11), and the detection head (14) and the power supply connector (1401) are movably connected with the detection mechanism (11) through the mounting grooves (1104).

4. A power functionality detection apparatus according to claim 3, characterized in that: the top of turning block (13) is connected with dwang (1301), the inside cavity of dwang (1301) and the inside swing joint of dwang (1301) have slide bar (1302), and end at slide bar (1302) is fixed in dwang (13), slide bar (1302) are cuboid post, and the outside of slide bar (1302) has cup jointed return spring (1303).

5. The power functionality detection apparatus according to claim 4, wherein: the transmission mechanism comprises a propelling air bag (1304), a buffer air bag (16) and a sealing ring (19), wherein the propelling air bag (1304) is positioned at the top end of an inner sliding rod (1302) of a rotating rod (1301), a plurality of groups of air inlets (1305) are formed in the outer wall of the rotating rod (1301), the air inlets (1305) are communicated with the propelling air bag (1304), the outer wall of the rotating rod (1301) is positioned at the outer side of the air inlets (1305) and is connected with the sealing ring (19), the sealing ring (19) is communicated with each group of buffer air bags (16), the buffer air bags (16) are positioned in each group of mounting grooves (1104), the mounting grooves (1104) are respectively positioned above a detection head (14) and a power supply connector (1401), when the detection head (14) and the power supply connector (1401) move upwards, the buffer air bags (16) are extruded, and gas in the buffer air bags (16) is transmitted into the sealing ring (19).

6. A power functionality detection apparatus according to claim 1, characterized in that: the bottom end of the rotating block (13) is provided with a friction plate, and the bottom end of the friction plate is provided with a clamping groove matched with the adjusting knob (802).

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