CN117554847A - Equipment power supply performance detection device and detection method - Google Patents

Abstract

The invention relates to the technical field of power performance detection, and provides a device and a method for detecting the power performance of equipment, wherein the device comprises the following steps: lifting mechanism, actuating mechanism, supporting mechanism and drive mechanism. The in-process that constantly rotates at the pinion on actuating mechanism can make the gear wheel rotate a week after, can obtain transient stationary state, thereby lead to the conveyer belt to stop carrying, the transmission frame of this moment drives the right angle bar and just in time is in minimum height, make and detect the feeler lever and the electrode on the equipment battery inconsistent, thereby can carry out short-term test to the voltage of equipment battery through the voltmeter, and the supporting mechanism of this moment just in time rises to the highest department, can support the bottom of equipment battery under the detection state through the layer board, make detection work can steadily go on, and is easy operation, convenient to use only need a motor to carry out the operation of detection work, the cost is saved, degree of automation is high, improve work efficiency greatly, and has very high use value.

Description

Equipment power supply performance detection device and detection method

Technical Field

The invention relates to the technical field of power performance detection, in particular to a device and a method for detecting the power performance of equipment.

Background

A power supply is a device that converts other forms of energy into electrical energy and supplies the electrical energy to a circuit (electronic device), and is an essential component of the electronic device. The DC power supply is a device for forming stable constant voltage current in a maintenance circuit. Such as dry cells, accumulators, dc generators, etc., the means of converting chemical energy into electrical energy are called chemical cells, generally referred to as simply batteries. After discharge, the internal active species can be regenerated by means of charging—storing electrical energy as chemical energy; when the battery is required to be discharged, chemical energy is converted into electric energy again, after the battery is produced, the voltage of the battery is required to be detected by using corresponding detection equipment, the traditional detection mode is generally that a positive and negative electrode detection head of a handheld detection instrument of a user is directly connected with the positive and negative electrode of the storage battery, and although the voltage related parameters of the storage battery can be detected, the operation efficiency is low, and the tiredness of the user is increased.

Through searching, the prior patent (bulletin number: CN 219831336U) discloses a direct current power supply performance rapid detection device, which comprises a workbench, wherein two ends of the workbench are respectively provided with an electric roller, the outer walls of the two electric rollers are in rolling connection with a conveyor belt, and two sides of the middle part of the top surface of the workbench are respectively fixedly connected with a guide rail. Through setting up conveyer belt, carriage, flexible rectangle frame, servo motor, rack and gear, and then two electronic cylinder circular telegrams move, drive conveyer belt rotates, and servo motor circular telegrams moves, drives the carriage and moves along the length direction of two guide rails, and two pneumatic cylinders extend the action, makes the support frame decline height, and spacing frame cup joints mutually with the battery simultaneously, and four detection contacts contact with the electrode of battery respectively to two voltmeters carry out short-term test to the voltage of battery.

However, in the above scheme, certain disadvantages still exist:

when the support frame is lowered by the pneumatic cylinder to enable the detection contact to be in contact with the electrode of the storage battery for detection, the storage battery can press down the conveyor belt under the action of self gravity of the storage battery and the extrusion force of the detection contact, and the conveyor belt with softer texture is difficult to provide stable support for the storage battery, so that the stability is insufficient during detection work;

when the detection work is carried out, the detection device is driven by various electric equipment such as a pneumatic cylinder, a servo motor and an electric roller, and in the one-time detection work, the start and stop operation of each electric equipment is carried out step by step, so that the operation is complicated, the use cost is greatly increased, and the detection efficiency is reduced.

In view of the above, the present invention provides a device and a method for detecting the power performance of a device.

Disclosure of Invention

The invention provides a device and a method for detecting the power performance of equipment, which solve the problems that the existing power detection equipment in the related technology has insufficient stability, is complex to operate, greatly increases the use cost and reduces the detection efficiency during detection.

The technical scheme of the invention is as follows: a device power performance detection apparatus, comprising: the conveying device comprises a frame, three rotating rollers are rotatably connected to the inner side of the frame, the three rotating rollers are respectively located at three vertexes of an isosceles triangle, a conveying belt is commonly connected to the three rotating rollers, a plurality of flexible limiting frames are equidistantly distributed on the outer wall of the conveying belt and used for placing the equipment battery, a voltmeter is fixedly arranged on the outer wall of the frame, and two detection feeler levers electrically connected with the voltmeter are arranged on one side of the voltmeter and used for detecting the voltage of the equipment battery;

the frame is provided with a lifting mechanism for lifting the detection feeler lever, and the frame is provided with a driving mechanism for synchronously driving the lifting mechanism and the rotating roller;

the frame is provided with a bearing mechanism, the outer wall of the frame is penetrated and provided with a slideway matched with the bearing mechanism, a transmission mechanism is arranged between the bearing mechanism and the lifting mechanism, and the bearing mechanism can be driven by the transmission mechanism to carry out corresponding descending and lifting motions in the lifting and descending processes of the lifting mechanism.

Preferably, the driving mechanism comprises a first driving part, a second driving part and a transmission belt connected between the first driving part and the second driving part, the second driving part comprises a small belt pulley rotatably connected to the outer wall of the frame, a connecting rod is fixed at the center of one side, far away from the frame, of the small belt pulley, a transmission frame is arranged on one side of the connecting rod, and a pushing column sleeved on the inner wall of the transmission frame in a sliding manner is arranged at one end of the connecting rod.

Preferably, the first driving part comprises a right-angle bracket fixedly connected to the outer wall of the frame, a motor is fixedly arranged on the outer wall of the upper side of the right-angle bracket, an output shaft on the motor rotates to penetrate through the inside of the right-angle bracket and is fixedly provided with a pinion, a large gear matched with the pinion is arranged on the lower side of the pinion, a large belt pulley is arranged on one side, close to the frame, of the large gear, and the transmission belt is in transmission connection between the large belt pulley and the small belt pulley.

Preferably, a rotating shaft is fixedly sleeved between the large belt pulley and the center of the large gear, one end of the rotating shaft is rotatably connected to the right-angle bracket, and the other end of the rotating shaft is rotatably extended into the frame and is fixedly connected with the rotating roller positioned at the upper left.

Preferably, the first driving part further comprises a wobble plate fixedly connected to the outer wall of the large gear and two round blocks symmetrically fixed to the outer wall of the small gear, the outer periphery of the large gear is provided with a toothless section, and the outer periphery of the large gear except for the toothless section can be meshed with the small gear.

Preferably, the transmission mechanism comprises a fixed frame arranged on the outer side of the frame, a U-shaped frame for fixedly mounting the fixed frame is fixed on the outer wall of the frame, a transmission cavity is formed inside the fixed frame in a penetrating mode, T-shaped grooves are formed inside the fixed frames on two sides of the transmission cavity in a penetrating mode, and transmission tooth columns are connected inside the transmission cavity in a rotating mode through a shaft rod.

Preferably, the elevating system is including extending to the inside right angle pole of transmission chamber be fixed with on the right angle pole lateral wall with T type groove sliding connection's the second T star pole, right angle pole bottom and transmission frame outer wall fixed connection right angle pole one side is provided with the gallows, two detect feeler lever fixed mounting on the gallows fixedly connected with suspender that hangs the gallows between gallows and the right angle pole is located be fixed with the second rack on the right angle pole lateral wall of second T star pole contralateral side, the second rack meshes with the transmission tooth post mutually.

Preferably, the bearing mechanism comprises a lifting plate extending to the inside of the fixed frame, a first T-shaped rod sleeved in the T-shaped groove is fixed on the side wall of the lifting plate in a sliding mode, a first rack meshed with the transmission tooth column is fixed on the side wall of the lifting plate opposite to the first T-shaped rod, a right-angle frame is fixed at the bottom end of the lifting plate, extends to the inner side of the frame and is in sliding connection with the sliding way, and a supporting plate is fixed at the top end of the right-angle frame.

A device power performance detection method using the device power performance detection apparatus according to any one of the preceding claims, comprising the steps of:

s1: the device battery to be detected is placed on the inner side of a flexible limiting frame on the conveyor belt, the motor is started through external control equipment, the motor drives the pinion to rotate through an output shaft of the motor, the pinion can drive the large gear to rotate when being meshed with the large gear, the large gear drives the rotating shaft to rotate, and the rotating shaft drives the rotating roller positioned at the upper left to rotate, so that the conveyor belt can be driven to rotate and the rest rotating rollers can be driven to rotate, and the device battery placed on the conveyor belt can be conveyed;

s2: in the rotating process of the rotating shaft, the large belt pulley can be driven to rotate, the rotating large belt pulley can drive the small belt pulley to rotate through the transmission belt, the connecting rod is driven to rotate when the small belt pulley rotates, the connecting rod drives the push column to revolve, the transmission frame is pushed and pulled, and the transmission frame can drive the right-angle rod to move up and down on the inner side of the fixed frame;

s3: when the right-angle rod is lifted, the transmission gear column can be driven to rotate, and when the transmission gear column rotates, the lifting plate can be driven to lift through the first rack, and the lifting plate drives the supporting plate to lift through the right-angle frame;

s4: along with continuous rotation of the large gear, when the toothless section on the large gear rotates to the bottom of the small gear, the small gear is not contacted with the toothless section, so that a transient idle phenomenon can occur to the small gear at the moment, namely the large gear is not driven to rotate, when the small gear idles, two round blocks move along the outer wall of the wobble plate and can not push the wobble plate, and along with continuous rotation of the small gear, the round blocks push the wobble plate, the wobble plate drives the large gear to rotate, so that the large gear is meshed with the bottom of the small gear again, and the small gear can continuously drive the large gear to rotate, namely in the process of continuously rotating the small gear, the large gear can obtain a transient static state after rotating for a circle;

s5: when the pinion is in idle state, can make the gear wheel keep static to lead to the conveyer belt to stop carrying, the transmission frame drive right angle pole of this moment just is in minimum height, makes to detect the feeler lever and the electrode on the equipment battery and contradict, thereby can carry out the short-term test to the voltage of equipment battery through the voltmeter, and the supporting mechanism of this moment just rises to the highest department, supports the bottom of equipment battery under the detection state through the layer board.

The working principle and the beneficial effects of the invention are as follows:

in the invention, the lifting mechanism is arranged on the frame, the driving mechanism is arranged on the frame, the lifting mechanism and the rotating roller can be synchronously driven by the driving mechanism, and the conveyor belt can be driven to transmit the storage battery when the rotating roller rotates. The detection feeler lever can be lifted through the lifting mechanism, so that the detection lever can be abutted against the storage battery motor. The support mechanism is arranged on the frame, the slide way matched with the support mechanism is penetrated and arranged on the outer wall of the frame, the transmission mechanism is arranged between the support mechanism and the lifting mechanism, and the support mechanism can be driven to correspondingly move downwards and upwards through the transmission mechanism in the lifting and lowering processes of the lifting mechanism. In the actual operation process, in the process that the pinion on the driving mechanism continuously rotates, the large gear can obtain a short stationary state after rotating for a circle. When the pinion is in idle state, can make the gear wheel keep static to lead to the conveyer belt to stop carrying, the transmission frame that this moment drives the right angle pole and just is in minimum height, make to detect that the feeler lever is inconsistent with the electrode on the equipment battery, thereby can carry out short-term test to the voltage of equipment battery through the voltmeter, and the supporting mechanism that this moment just rises to the highest department, can support the bottom of the equipment battery under the detection state through the layer board, make detection work can go on steadily, and is easy operation, convenient to use only needs a motor to detect the operation of work, the cost is saved, degree of automation is high, improve work efficiency greatly, and has very high use value.

Drawings

The invention will be described in further detail with reference to the drawings and the detailed description.

Fig. 1 is a schematic diagram of a front perspective structure of a device for detecting power performance of an apparatus according to the present invention;

fig. 2 is a schematic rear-view perspective structure diagram of a device for detecting power performance of an apparatus according to the present invention;

FIG. 3 is a schematic diagram illustrating an assembling structure of a driving mechanism according to the present invention;

FIG. 4 is a schematic diagram illustrating the structure of a transmission mechanism according to the present invention;

FIG. 5 is a schematic view showing the structure of the supporting mechanism and the lifting mechanism according to the present invention;

FIG. 6 is a schematic perspective view of a driving mechanism according to the present invention;

FIG. 7 is a schematic view of the assembled pinion and bull gear structure of the present invention;

in the figure: 1. a transfer device; 11. a rotating roller; 12. a flexible limit frame; 13. a conveyor belt; 14. a frame; 15. a slideway; 2. a voltmeter; 3. a device battery; 4. detecting a feeler lever; 5. a bearing mechanism; 51. a supporting plate; 52. a right angle frame; 53. a lifting plate; 54. a first T-bar; 55. a first rack; 6. a driving mechanism; 61. a first driving part; 611. a right angle bracket; 612. a large gear; 613. a rotating shaft; 614. a motor; 615. a pinion gear; 616. a large pulley; 617. round blocks; 618. a swinging plate; 619. a toothless section; 62. a second driving part; 621. a small pulley; 622. a connecting rod; 623. pushing a column; 624. a transmission frame; 63. a drive belt; 7. a transmission mechanism; 71. a U-shaped frame; 72. a fixed frame; 73. a T-shaped groove; 74. a transmission cavity; 75. a driving gear column; 76. a shaft lever; 8. a lifting mechanism; 81. a right angle lever; 82. a second T star bar; 83. a second rack; 84. a boom; 85. and (5) hanging a bracket.

Detailed Description

The technical solutions of the embodiments of the present invention will be clearly and completely described below in conjunction with the embodiments of the present invention, and it is apparent that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be made by one of ordinary skill in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1 and 2, a device power performance detecting apparatus includes: a conveyer 1 for carrying equipment battery 3, conveyer 1 includes frame 14, rotate in the frame 14 inboard and be connected with three roller 11, three roller 11 are located isosceles triangle's three summit respectively, be connected with conveyer belt 13 jointly on three roller 11, equidistance distributes on the outer wall of conveyer belt 13 has a plurality of flexible spacing frames 12 for place equipment battery 3, fixed mounting has voltmeter 2 on the frame 14 outer wall, be provided with two detection feeler levers 4 with voltmeter 2 electric connection in voltmeter 2 one side, be used for carrying out voltage detection to equipment battery 3. The frame 14 is provided with a lifting mechanism 8 for lifting the detection feeler lever 4, and the frame 14 is provided with a driving mechanism 6 for synchronously driving the lifting mechanism 8 and the roller 11.

During operation, the device battery 3 to be detected is placed on the inner side of the flexible limiting frame 12 on the conveyor belt 13, and the lifting mechanism 8 and the rotating roller 11 are synchronously driven by the driving mechanism 6, so that the rotating roller 11 positioned on the upper left can rotate, the conveyor belt 13 can be driven to convey, the rest rotating roller 11 can rotate, and the device battery 3 placed on the conveyor belt 13 can be conveyed. The detection feeler lever 4 is moved downwards by the lifting mechanism 8, so that the detection feeler lever 4 is abutted against an electrode on the equipment battery 3, and the voltage of the equipment battery 3 can be rapidly detected by the voltmeter 2.

Referring to fig. 1, 2, 3, 6 and 7, the driving mechanism 6 includes a first driving member 61, a second driving member 62 and a transmission belt 63 connected between the first driving member 61 and the second driving member 62, the second driving member 62 includes a small pulley 621 rotatably connected to an outer wall of the frame 14, a connecting rod 622 is fixed at a center of a side of the small pulley 621 away from the frame 14, a transmission frame 624 is provided at a side of the connecting rod 622, and a push post 623 slidably sleeved on an inner wall of the transmission frame 624 is provided at one end of the connecting rod 622.

The first driving part 61 comprises a right-angle bracket 611 fixedly connected to the outer wall of the frame 14, a motor 614 is fixedly arranged on the outer wall of the upper side of the right-angle bracket 611, an output shaft on the motor 614 rotates to penetrate through the right-angle bracket 611 and is fixedly provided with a pinion 615, a large gear 612 matched with the pinion 615 is arranged on the lower side of the pinion 615, a large belt pulley 616 is arranged on one side, close to the frame 14, of the large gear 612, and a driving belt 63 is in transmission connection between the large belt pulley 616 and the small belt pulley 621. A rotating shaft 613 is fixedly sleeved between the big belt pulley 616 and the center of the big gear 612, one end of the rotating shaft 613 is rotatably connected to the right-angle bracket 611, and the other end of the rotating shaft 613 is rotatably extended into the frame 14 and fixedly connected with the rotating roller 11 positioned at the upper left. The first driving part 61 further comprises a wobble plate 618 fixedly connected to the outer wall of the large gear 612 and two round blocks 617 symmetrically fixed to the outer wall of the small gear 615, a toothless section 619 is formed on the outer periphery of the large gear 612, and the outer periphery of the large gear 612 can be meshed with the small gear 615 except the toothless section 619.

Through external control equipment, the motor 614 is started, the motor 614 drives the pinion 615 to rotate through the output shaft of the motor 614, when the pinion 615 is meshed with the large gear 612, the rotation of the pinion 615 can drive the large gear 612 to rotate, the large gear 612 drives the rotating shaft 613 to rotate, the rotating shaft 613 drives the rotating roller 11 positioned at the upper left to rotate, and therefore the conveyor belt 13 can be driven to convey, the rest rotating roller 11 can be driven to rotate, and then the equipment battery 3 placed on the conveyor belt 13 can be conveyed. In the process of rotating the rotating shaft 613, the large belt pulley 616 can be driven to rotate, the rotating large belt pulley 616 can drive the small belt pulley 621 to rotate through the transmission belt 63, the connecting rod 622 is driven to rotate when the small belt pulley 621 rotates, the connecting rod 622 drives the push column 623 to revolve, the transmission frame 624 is pushed and pulled, and the transmission frame 624 moves up and down.

Along with continuous rotation of the large gear 612, when the toothless segment 619 on the large gear 612 rotates to the bottom of the small gear 615, the small gear 615 is not contacted with the toothless segment 619, so that a short idle phenomenon occurs to the small gear 615 at the moment, that is, the large gear 612 cannot be driven to rotate, when the small gear 615 idles, two round blocks 617 move along the outer wall of the wobble plate 618 and cannot push the wobble plate 618, along with continuous rotation of the small gear 615, the round blocks 617 push the wobble plate 618, the wobble plate 618 drives the large gear 612 to rotate, the large gear 612 is meshed with the bottom of the small gear 615 again, and therefore the small gear 615 can continuously drive the large gear 612 to rotate, that is, in the process of continuous rotation of the small gear 615, the large gear 612 can obtain a short static state after rotating for a circle.

Referring to fig. 1, 2, 4, 5 and 6, a supporting mechanism 5 is disposed on a frame 14, a slide way 15 matched with the supporting mechanism 5 is disposed on an outer wall of the frame 14, a transmission mechanism 7 is disposed between the supporting mechanism 5 and a lifting mechanism 8, and the supporting mechanism 5 can be driven to move correspondingly downward and upward by the transmission mechanism 7 during the lifting and lowering process of the lifting mechanism 8.

The transmission mechanism 7 includes a fixing frame 72 disposed outside the frame 14, a U-shaped frame 71 fixedly mounted on the fixing frame 72 is fixed on an outer wall of the frame 14, a transmission cavity 74 is formed inside the fixing frame 72 in a penetrating manner, T-shaped grooves 73 are formed inside the fixing frame 72 on two sides of the transmission cavity 74 in a penetrating manner, and transmission tooth columns 75 are connected inside the transmission cavity 74 in a rotating manner through shaft rods 76. The lifting mechanism 8 comprises a right-angle rod 81 extending into the transmission cavity 74, a second T-shaped star rod 82 which is in sliding connection with the T-shaped groove 73 is fixed on the side wall of the right-angle rod 81, the bottom of the right-angle rod 81 is fixedly connected with the outer wall of the transmission frame 624, a hanging bracket 85 is arranged on one side of the right-angle rod 81, two detection feeler levers 4 are fixedly arranged on the hanging bracket 85, a hanging rod 84 for hanging the hanging bracket 85 is fixedly connected between the hanging bracket 85 and the right-angle rod 81, a second rack 83 is fixed on the side wall of the right-angle rod 81 positioned on the opposite side of the second T-shaped star rod 82, and the second rack 83 is meshed with the transmission tooth column 75. The supporting mechanism 5 comprises a lifting plate 53 extending to the inside of a fixed frame 72, a first T-shaped rod 54 sleeved in the T-shaped groove 73 in a sliding mode is fixed on the side wall of the lifting plate 53, a first rack 55 meshed with a transmission tooth column 75 is fixed on the side wall of the lifting plate 53 opposite to the first T-shaped rod 54, a right-angle frame 52 is fixed at the bottom end of the lifting plate 53, the right-angle frame 52 extends to the inner side of the frame 14 and is in sliding connection with the slide rail 15, and a supporting plate 51 is fixed at the top end of the right-angle frame 52.

The transmission frame 624 can drive the right angle pole 81 and reciprocate in fixed frame 72 inboard when reciprocating, and when right angle pole 81 goes up and down the work, can drive the transmission tooth post 75 and rotate, and when the transmission tooth post 75 rotated, can drive lifter plate 53 through first rack 55 and go up and down the motion, lifter plate 53 drives layer board 51 through right angle frame 52 and goes up and down the motion.

Working principle and using flow: the device battery 3 to be detected is placed on the inner side of the flexible limiting frame 12 on the conveyor belt 13, the motor 614 is started through external control equipment, the motor 614 drives the pinion 615 to rotate through an output shaft of the motor 614, the pinion 615 can drive the large gear 612 to rotate when being meshed with the large gear 612, the large gear 612 drives the rotating shaft 613 to rotate, the rotating shaft 613 drives the rotating roller 11 positioned on the upper left to rotate, and accordingly the conveyor belt 13 can be driven to be conveyed, the rest rotating roller 11 can be driven to rotate, and the device battery 3 placed on the conveyor belt 13 can be conveyed.

In the process of rotating the rotating shaft 613, the large belt pulley 616 can be driven to rotate, the rotating large belt pulley 616 can drive the small belt pulley 621 to rotate through the transmission belt 63, the connecting rod 622 is driven to rotate when the small belt pulley 621 rotates, the connecting rod 622 drives the push column 623 to revolve, the transmission frame 624 is pushed and pulled, and the transmission frame 624 can drive the right-angle rod 81 to move up and down on the inner side of the fixed frame 72. When the right-angle bar 81 is lifted, the transmission gear column 75 can be driven to rotate, and when the transmission gear column 75 rotates, the lifting plate 53 can be driven to lift through the first rack 55, and the lifting plate 53 drives the supporting plate 51 to lift through the right-angle frame 52. Along with continuous rotation of the large gear 612, when the toothless segment 619 on the large gear 612 rotates to the bottom of the small gear 615, the small gear 615 is not contacted with the toothless segment 619, so that a short idle phenomenon occurs to the small gear 615 at the moment, that is, the large gear 612 cannot be driven to rotate, when the small gear 615 idles, two round blocks 617 move along the outer wall of the wobble plate 618 and cannot push the wobble plate 618, along with continuous rotation of the small gear 615, the round blocks 617 push the wobble plate 618, the wobble plate 618 drives the large gear 612 to rotate, the large gear 612 is meshed with the bottom of the small gear 615 again, and therefore the small gear 615 can continuously drive the large gear 612 to rotate, that is, in the process of continuous rotation of the small gear 615, the large gear 612 can obtain a short static state after rotating for a circle. When the pinion 615 is in an idle state, the large gear 612 can be kept still, so that the conveying belt 13 stops conveying, and the transmission frame 624 at the moment drives the right-angle rod 81 to be just at the lowest height, so that the detection feeler lever 4 is in contact with an electrode on the equipment battery 3, the voltage of the equipment battery 3 can be rapidly detected through the voltmeter 2, and the bearing mechanism 5 at the moment just rises to the highest position and supports the bottom of the equipment battery 3 in the detection state through the supporting plate 51.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the invention.

Claims (9)

1. A device power performance detection apparatus, comprising: the conveying device (1) for conveying the equipment batteries (3) is characterized in that a voltmeter (2) is fixedly arranged on the outer wall of the frame (14), and two detection feeler levers (4) electrically connected with the voltmeter (2) are arranged on one side of the voltmeter (2) and used for detecting the voltage of the equipment batteries (3);

the frame (14) is provided with a lifting mechanism (8) for lifting the detection feeler lever (4), and the frame (14) is provided with a driving mechanism (6) for synchronously driving the lifting mechanism (8) and the rotating roller (11);

the support mechanism (5) is arranged on the frame (14), a slide way (15) matched with the support mechanism (5) is arranged on the outer wall of the frame (14) in a penetrating mode, a transmission mechanism (7) is arranged between the support mechanism (5) and the lifting mechanism (8), and the support mechanism (5) can be driven to correspondingly move downwards and upwards through the transmission mechanism (7) in the lifting and descending process of the lifting mechanism (8).

2. The device power performance detection apparatus according to claim 1, wherein the driving mechanism (6) comprises a first driving part (61), a second driving part (62) and a transmission belt (63) connected between the first driving part (61) and the second driving part (62), the second driving part (62) comprises a small pulley (621) rotatably connected to the outer wall of the frame (14), a connecting rod (622) is fixed at the center of the side of the small pulley (621) away from the frame (14), a transmission frame (624) is arranged at one side of the connecting rod (622), and a pushing column (623) slidably sleeved on the inner wall of the transmission frame (624) is arranged at one end of the connecting rod (622).

3. A device power performance detection apparatus according to claim 2, wherein the first driving part (61) comprises a right angle bracket (611) fixedly connected to an outer wall of the frame (14), a motor (614) is fixedly installed on an outer wall of an upper side of the right angle bracket (611), an output shaft on the motor (614) rotates to penetrate through the inside of the right angle bracket (611) and is fixedly provided with a pinion (615), a large gear (612) matched with the pinion (615) is arranged on a lower side of the pinion (615), a large belt pulley (616) is arranged on one side, close to the frame (14), of the large gear (612), and the transmission belt (63) is connected between the large belt pulley (616) and the small belt pulley (621) in a transmission manner.

4. A device for detecting the power performance of an apparatus according to claim 3, wherein a rotating shaft (613) is fixedly sleeved between the large pulley (616) and the center of the large gear (612), one end of the rotating shaft (613) is rotatably connected to the right-angle bracket (611), and the other end of the rotating shaft (613) is rotatably extended into the frame (14) and fixedly connected to the rotating roller (11) located at the upper left.

5. The device for detecting the power performance of an apparatus according to claim 4, wherein the first driving unit (61) further comprises a wobble plate (618) fixedly connected to the outer wall of the large gear (612) and two round blocks (617) symmetrically fixed to the outer wall of the small gear (615), a toothless section (619) is formed on the outer periphery of the large gear (612), and the outer periphery of the large gear (612) can be meshed with the small gear (615) except for the toothless section (619).

6. The device for detecting the power performance of equipment according to claim 2, wherein the transmission mechanism (7) comprises a fixed frame (72) arranged on the outer side of the frame (14), a U-shaped frame (71) for fixedly installing the fixed frame (72) is fixed on the outer wall of the frame (14), a transmission cavity (74) is formed in the fixed frame (72) in a penetrating mode, T-shaped grooves (73) are formed in the fixed frame (72) on two sides of the transmission cavity (74) in a penetrating mode, and transmission tooth columns (75) are connected in the transmission cavity (74) in a rotating mode through shaft rods (76).

7. The device for detecting the power performance of the equipment according to claim 6, wherein the lifting mechanism (8) comprises a right-angle rod (81) extending into the transmission cavity (74), a second T-shaped star rod (82) which is in sliding connection with the T-shaped groove (73) is fixed on the side wall of the right-angle rod (81), the bottom of the right-angle rod (81) is fixedly connected with the outer wall of the transmission frame (624), a hanging bracket (85) is arranged on one side of the right-angle rod (81), two detection feeler rods (4) are fixedly arranged on the hanging bracket (85), a hanging rod (84) for hanging the hanging bracket (85) is fixedly connected between the hanging bracket (85) and the right-angle rod (81), a second rack (83) is fixed on the side wall of the right-angle rod (81) on the opposite side of the second T-shaped star rod (82), and the second rack (83) is meshed with the transmission gear column (75).

8. The device for detecting the power performance of the equipment according to claim 7, wherein the supporting mechanism (5) comprises a lifting plate (53) extending to the inside of the fixed frame (72), a first T-shaped rod (54) which is sleeved in the T-shaped groove (73) in a sliding manner is fixed on the side wall of the lifting plate (53), a first rack (55) meshed with the transmission gear column (75) is fixed on the side wall of the lifting plate (53) opposite to the first T-shaped rod (54), a right-angle frame (52) is fixed at the bottom end of the lifting plate (53), the right-angle frame (52) extends to the inner side of the frame (14) and is in sliding connection with the slide way (15), and a supporting plate (51) is fixed at the top end of the right-angle frame (52).

9. A device power performance detection method using the device power performance detection apparatus according to any one of claims 1 to 8, comprising the steps of:

s1: the device battery (3) to be detected is placed on the inner side of a flexible limit frame (12) on a conveyor belt (13), a motor (614) is started through external control equipment, the motor (614) drives a pinion (615) to rotate through an output shaft of the motor, the pinion (615) can drive the pinion (612) to rotate when meshed with the bull gear (612), the bull gear (612) drives a rotating shaft (613) to rotate, the rotating shaft (613) drives a rotating roller (11) positioned at the upper left part to rotate, so that the conveyor belt (13) can be driven to carry out conveying, the other rotating rollers (11) can be driven to rotate, and then the device battery (3) placed on the conveyor belt (13) can be conveyed;

s2: in the rotating process of the rotating shaft (613), the large belt pulley (616) can be driven to rotate, the rotating large belt pulley (616) can drive the small belt pulley (621) to rotate through the transmission belt (63), the small belt pulley (621) drives the connecting rod (622) to rotate when rotating, the connecting rod (622) drives the push column (623) to revolve, the transmission frame (624) is pushed and pulled, and the transmission frame (624) can drive the right-angle rod (81) to move up and down on the inner side of the fixed frame (72);

s3: when the right-angle rod (81) is lifted, the transmission gear column (75) can be driven to rotate, and when the transmission gear column (75) rotates, the lifting plate (53) can be driven to lift through the first rack (55), and the lifting plate (53) drives the supporting plate (51) to lift through the right-angle frame (52);

s4: with continuous rotation of the large gear (612), when the toothless section (619) on the large gear (612) rotates to the bottom of the small gear (615), the small gear (615) is not contacted with the toothless section (619), so that a transient idle phenomenon occurs to the small gear (615), namely the large gear (612) is not driven to rotate, when the small gear (615) rotates in an idle mode, two round blocks (617) move along the outer wall of the wobble plate (618) and do not push the wobble plate (618), and with continuous rotation of the small gear (615), the round blocks (617) push the wobble plate (618), the wobble plate (618) drives the large gear (612) to rotate, so that the large gear (612) is meshed with the bottom of the small gear (615) again, and the small gear (615) can be continuously driven to rotate, namely in the process of continuously rotating the small gear (615), the large gear (612) can be enabled to obtain a transient static state after rotating for one circle;

s5: when pinion (615) are in idle running state, can make gear wheel (612) keep static to lead to conveyer belt (13) stop carrying, transmission frame (624) at this moment drive right angle bar (81) just in time be in minimum height, make detect contact rod (4) and electrode on equipment battery (3) inconsistent, thereby can carry out short-term test to the voltage of equipment battery (3) through voltmeter (2), supporting mechanism (5) at this moment just in time rise to the highest department, support the bottom of equipment battery (3) under the detection state through layer board (51).