CN113075494A

CN113075494A - Full-automatic static super capacitor test screening equipment and method

Info

Publication number: CN113075494A
Application number: CN202110541879.0A
Authority: CN
Inventors: 杨引; 于强; 余小强; 李照阳; 孙嘉; 杨恩东
Original assignee: Nantong Jianghai Energy Storage Technology Co ltd; NANTONG JIANGHAI CAPACITOR CO Ltd
Current assignee: Nantong Jianghai Energy Storage Technology Co ltd; NANTONG JIANGHAI CAPACITOR CO Ltd
Priority date: 2021-05-18
Filing date: 2021-05-18
Publication date: 2021-07-06

Abstract

The invention discloses a full-automatic static super capacitor test screening device and a method, which comprises the following steps: step one, a user can turn on the motor and gradually introduce the super capacitor to be detected into the feed hopper, at the moment, the motor drives the first chain wheel and the second rotating plate to rotate, so as to drive the second chain wheel to rotate through the chain, the first rotating rod drives the first rotating plate to rotate, at the moment, the driving column synchronously rotates along with the first rotating plate, thereby driving the driving ring to move up and down in a reciprocating way, further driving the material guide plate to move up and down in a reciprocating way through the vertical rod, when the material guide plate moves downwards, the super capacitor to be detected in the feed hopper is clamped in the material guide groove, when the material guide plate moves upwards and the material guide groove is communicated with the feeding pipe, under the action of gravity, the super capacitor to be detected in the guide chute is guided into one group of first through holes through the feeding pipe, thereby realized the mechanical feeding of equal interval of screening installation, and then saved the manpower, the practicality is higher.

Description

Full-automatic static super capacitor test screening equipment and method

Technical Field

The invention relates to the technical field of super capacitor test equipment, in particular to full-automatic static super capacitor test screening equipment and a method.

Background

The super capacitor is a novel energy storage device between a traditional capacitor and a rechargeable battery, and has the characteristics of quick charge and discharge of the capacitor and the energy storage characteristic of the battery. Compared with a storage battery and a traditional physical capacitor, the super capacitor is mainly characterized in that: high power density, long cycle life, wide working temperature limit, no maintenance and environmental protection.

Aging is an important process for the manufacturing process of the super capacitor. However, most of the existing aging processes are still performed in a manual testing mode, and mechanical operation is not achieved, so that manpower is wasted, and detection operation is inconvenient to develop.

Disclosure of Invention

The invention aims to provide full-automatic static super-capacitor testing and screening equipment and method to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a full-automatic static super capacitor test screening method comprises the following steps:

step one, a user can turn on the motor and gradually introduce the super capacitor to be detected into the feed hopper, at the moment, the motor drives the first chain wheel and the second rotating plate to rotate, so as to drive the second chain wheel to rotate through the chain, the first rotating rod drives the first rotating plate to rotate, at the moment, the driving column synchronously rotates along with the first rotating plate, thereby driving the driving ring to move up and down in a reciprocating way, further driving the material guide plate to move up and down in a reciprocating way through the vertical rod, when the material guide plate moves downwards, the super capacitor to be detected in the feed hopper is clamped in the material guide groove, when the material guide plate moves upwards and the material guide groove is communicated with the feeding pipe, under the action of gravity, the super capacitor to be detected in the guide chute is guided into one group of first through holes through the feeding pipe, therefore, equal-interval mechanical feeding of the screening equipment is realized, the labor is saved, and the practicability is high;

step two, the second rotating plate drives the special-shaped plate and the driving rod to rotate, so that the driving groove and the limiting groove are matched for use, the driven plate can be driven to intermittently rotate, the first rotating disc is driven to intermittently rotate through the second rotating rod, the to-be-detected super capacitor is sequentially clamped in the corresponding first through hole, if a contact of the to-be-detected super capacitor is positioned in the first annular groove, the contact of the to-be-detected super capacitor pushes the top plate to move upwards during the rotation of the first rotating disc, the second contact is driven to move upwards through the guide rod, the first spring is extruded through the lantern ring, when the second contact is in contact with the first contact, the power supply of the electromagnetic valve is connected, one end of the electromagnetic valve is separated from the second through hole, the second through hole is communicated with the first through hole, and then the to-be-detected super capacitor in the group of first through holes enters the second through hole under, the other corresponding group of first through holes are led into the discharge pipe, so that the contact of the group of super capacitors to be detected is separated from the top plate, at the moment, under the action of the elastic force of the first spring, the second contact is driven to reset with the top plate, so that the second contact is separated from the first contact, at the moment, the power supply of the electromagnetic valve is disconnected, so that one end of the electromagnetic valve is inserted into the second through hole again, and the second through hole is not communicated with the first through hole any more; if the contact of the super capacitor to be detected is located in the second annular groove, the contact of the group of super capacitors to be detected cannot push against the top plate during the rotation of the first rotary disc, so that the contact of the group of super capacitors to be detected rotates along with the first rotary disc until the first through hole where the group of super capacitors to be detected is located is communicated with the discharge pipe, and at the moment, the group of super capacitors to be detected enters the discharge pipe under the action of gravity, so that the automatic correction of the position of the super capacitor to be detected is realized, and further, the contacts of all the super capacitors to be detected are located at the upper end, and the development of later detection operation is;

step three, when the super capacitor to be detected enters the discharge pipe, under the action of self gravity, the super capacitor to be detected falls on the material conveying plate and moves to one side away from the base until the first group of super capacitor to be detected is clamped between the two adjacent limiting rods, when the material conveying plate is filled with a proper amount of super capacitor to be detected, a user can open the equipment for detecting the super capacitor to be detected and pull the limiting plates to rotate, so that the equipment drives the L-shaped clamping plate to rotate through the traction rope, the L-shaped clamping plate is separated from the clamping groove and stretches the second spring, then the user can loosen the limiting plates, at the moment, the super capacitor to be detected continuously slides along the material conveying plate under the action of self gravity, so that the limiting rods are driven to rotate, the driven disc drives the third rotating rod to rotate, and the limiting disc synchronously rotates along with the third rotating rod, the second spring will contract, thereby pulling L type cardboard and reseing, and through haulage rope pulling limiting plate reseing, when L type cardboard card is established in another group's draw-in groove, a set of ultracapacitor system that waits is established the card in corresponding two sets of gag lever posts that wait down, it will promote the limiting plate once more and rotate to wait during the follow-up slip of ultracapacitor system to wait at first group, thereby make L type cardboard and draw-in groove separate once more, and then will repeat the above-mentioned step and carry out the defeated material operation of follow-up ultracapacitor system that waits, thereby realized waiting to wait that the equidistant automatic defeated material of ultracapacitor system, and then be convenient for the development of follow-up detection operation, the practicality of equipment has effectively.

The utility model provides a full-automatic static super capacitor test screening installation, includes the base, the top middle part fixed mounting of base has U type frame, be equipped with feed mechanism on the U type frame, one side of feed mechanism and one side of U type frame are equipped with corrects the mechanism, one side of base is equipped with and corrects the actuating mechanism that mechanism and feed mechanism cooperation were used, the one end upside of base is equipped with and corrects the defeated material mechanism that the mechanism cooperation was used.

As a preferred technical scheme of the invention, the feeding mechanism comprises a feeding hopper and a first rotating rod, the feeding hopper is fixedly mounted on a U-shaped frame, a material guide plate is slidably clamped at the bottom end of an inner cavity of the feeding hopper, a material guide chute is formed in the top end of the material guide plate, a vertical rod is arranged at the bottom end of the material guide plate, one end of the vertical rod penetrates through the U-shaped frame, a driving ring is arranged at the tail end of the vertical rod, the first rotating rod is rotatably inserted into the U-shaped frame, a first rotating plate is arranged at one end of the first rotating rod, a driving column is arranged at one end of the first rotating plate, and the driving column is movably clamped in the driving ring.

As a preferable technical scheme of the invention, the correcting mechanism comprises a mounting disc, the mounting disc is fixedly mounted on a U-shaped frame, the mounting disc is provided with a feeding pipe and a discharging pipe in a communicating manner, one end of the feeding pipe is communicated with a feeding hopper, a guide chute can be communicated with the feeding pipe, a first rotating disc is rotatably mounted in an inner cavity of the mounting disc, the first rotating disc is provided with first through holes distributed in an array manner in a penetrating manner, the first through holes can be communicated with the feeding pipe and the discharging pipe, the first rotating disc is provided with a first annular groove matched with the first through holes for use, a second rotating disc is fixedly mounted in the inner cavity of the mounting disc, the second rotating disc is rotatably inserted in the inner side of the first rotating disc, the second rotating disc is provided with second through holes matched with the first through holes in a penetrating manner, and the outer wall of the second rotating disc is provided with a second annular groove matched with the, and an electromagnetic valve is arranged on one side of the mounting disc, and one end of the electromagnetic valve can be slidably inserted into the second through hole.

As a preferred technical scheme of the invention, a sleeve is communicated with and arranged on the mounting disc, a first contact is arranged at the top of an inner cavity of the sleeve, a partition plate is fixedly arranged in the inner cavity of the sleeve, a guide rod is slidably inserted on the partition plate, a second contact is arranged at one end of the guide rod and can be contacted with the first contact, a top plate is fixedly connected with the other end of the guide rod, the top plate can be movably clamped in a first annular groove, a lantern ring is fixedly sleeved on the guide rod, a first spring is arranged at one side of the lantern ring and movably sleeved on the guide rod, and one end of the first spring is fixedly connected with the partition plate.

As a preferred technical scheme of the invention, the driving mechanism comprises a motor and a second rotating rod, the motor is fixedly mounted on the base, the output end of the motor is provided with a second rotating plate, one side of the second rotating plate is fixedly provided with a special-shaped plate and a driving rod, the second rotating rod is rotatably inserted on the mounting disc, one end of the second rotating rod is fixedly connected with the first rotating disc, the other end of the second rotating rod is provided with a driven plate, the driven plate is provided with driving grooves and limiting grooves which are distributed in an array manner, the driving grooves and the limiting grooves are distributed in a staggered manner, the outer wall of the special-shaped plate can be in contact with the inner wall of the limiting groove, and the driving rod can be movably clamped in the driving groove.

As a preferred technical scheme of the present invention, a first sprocket is fixedly sleeved on an outer side of an output end of the motor, a second sprocket is fixedly installed at one end of the first rotating rod, and a chain is engaged with outer sides of the second sprocket and the first sprocket.

As a preferred technical scheme of the invention, the material conveying mechanism comprises a material conveying plate, one end of the material conveying plate is fixedly connected with the base, one end of the material conveying plate is positioned below the material discharging pipe, a first side plate, a second side plate and a third side plate which are used in a matched manner are fixedly installed on two sides of the top end of the material conveying plate, a first supporting plate is arranged on one side of the material conveying plate, a third rotating rod is installed on the first supporting plate in a rotating manner, a limiting disc and a driven disc are fixedly sleeved on the third rotating rod, clamping grooves distributed in an array manner are formed in the limiting disc, and limiting rods distributed in an array manner are arranged on the driven disc.

According to a preferable technical scheme, a second supporting plate is arranged on one side of the material conveying plate, a limiting plate is rotatably arranged on the second supporting plate, one end of the limiting plate is movably inserted into a third side plate, a traction rope is fixedly arranged on one side of the limiting plate, an L-shaped clamping plate is arranged at one end of the traction rope, one end of the L-shaped clamping plate is rotatably connected with the first supporting plate, the other end of the L-shaped clamping plate can be movably clamped in a clamping groove, a second spring is arranged on one side of the L-shaped clamping plate, and one end of the second spring is fixedly connected with the first supporting plate.

Compared with the prior art, the invention has the beneficial effects that:

1. the user can turn on the motor and gradually lead the super capacitor to be detected into the feed hopper, at the moment, the motor drives the first chain wheel and the second rotating plate to rotate, so as to drive the second chain wheel to rotate through the chain, the first rotating rod drives the first rotating plate to rotate, at the moment, the driving column synchronously rotates along with the first rotating plate, thereby driving the driving ring to move up and down in a reciprocating way, further driving the material guide plate to move up and down in a reciprocating way through the vertical rod, when the material guide plate moves downwards, the super capacitor to be detected in the feed hopper is clamped in the material guide groove, when the material guide plate moves upwards and the material guide groove is communicated with the feeding pipe, under the action of gravity, the super capacitor to be detected in the guide chute is guided into one group of first through holes through the feeding pipe, thereby realized the mechanical feeding of equal interval of screening installation, and then saved the manpower, the practicality is higher.

2. When the device is used, the second rotating plate drives the special-shaped plate and the driving rod to rotate, so that the driving groove and the limiting groove are matched for use, the driven plate can be driven to rotate intermittently, the first rotating disc is driven to rotate intermittently by the second rotating rod, the to-be-detected super capacitor is sequentially clamped in the corresponding first through hole, if the contact of the to-be-detected super capacitor is positioned in the first annular groove, the contact of the to-be-detected super capacitor pushes the top plate to move upwards during the rotation of the first rotating disc, the second contact is driven to move upwards by the guide rod, the first spring is extruded by the lantern ring, when the second contact is contacted with the first contact, the power supply of the electromagnetic valve is switched on, one end of the electromagnetic valve is separated from the second through hole, the second through hole is communicated with the first through hole, and then the to-be-detected super capacitor in the group of first through holes enters the second through, the other corresponding group of first through holes are led into the discharge pipe, so that the contact of the group of super capacitors to be detected is separated from the top plate, at the moment, under the action of the elastic force of the first spring, the second contact is driven to reset with the top plate, so that the second contact is separated from the first contact, at the moment, the power supply of the electromagnetic valve is disconnected, so that one end of the electromagnetic valve is inserted into the second through hole again, and the second through hole is not communicated with the first through hole any more; if wait to detect when ultracapacitor system's contact is located the second annular, during first carousel rotation, this group waits to detect ultracapacitor system's contact will not push up the roof to make it rotate along with first carousel, when the first through-hole that this group waits to detect ultracapacitor system place is linked together with the discharging pipe, this group waits to detect ultracapacitor system this moment and will get into in the discharging pipe under the action of gravity, thereby realized waiting to detect the automatic of ultracapacitor system position and correct, and then can make all wait to detect ultracapacitor system's contact all be located the upper end, be convenient for later stage detection operation develop.

3. When the super capacitor to be detected enters the discharge pipe, the super capacitor to be detected falls on the material conveying plate and moves towards one side far away from the base under the action of self gravity until the first group of super capacitor to be detected is clamped between the two adjacent groups of limiting rods, when the material conveying plate is filled with a proper amount of super capacitor to be detected, a user can open the equipment for detecting the super capacitor to be detected and pull the limiting plates to rotate, so that the equipment drives the L-shaped clamping plate to rotate through the traction rope, the L-shaped clamping plate is separated from the clamping groove and stretches the second spring, then the user can loosen the limiting plates, at the moment, the super capacitor to be detected continuously slides along the material conveying plate under the action of self gravity to drive the limiting rods to rotate, the third rotating rod is driven to rotate through the driven plate, the limiting plate synchronously rotates along with the third rotating rod, and meanwhile, the second spring contracts, from and pulling L type cardboard resets, and reset through haulage rope pulling limiting plate, when L type cardboard card was established in another group's draw-in groove, a set of ultracapacitor system that waits is examined to next will block and establish in corresponding two sets of gag lever posts, treat at first set that to wait that the follow-up slip period of ultracapacitor system will promote the limiting plate once more and rotate, thereby make L type cardboard and draw-in groove separate once more, and then will repeat above-mentioned step and carry out the follow-up defeated material operation that waits to detect ultracapacitor system, thereby realized waiting to detect the equidistant automatic defeated material of ultracapacitor system, and then be convenient for the development of follow-up detection operation, the practicality of equipment has effectively been improved.

Drawings

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

FIG. 2 is another schematic structural view of the present invention;

FIG. 3 is a schematic view of a connecting structure of a U-shaped frame and a feeding mechanism according to the present invention;

FIG. 4 is an enlarged structural view of the structure at A in FIG. 3 according to the present invention;

FIG. 5 is a schematic view of the correcting mechanism of the present invention;

FIG. 6 is an enlarged structural view of the structure at B in FIG. 5 according to the present invention;

FIG. 7 is a schematic view of another correcting mechanism according to the present invention;

FIG. 8 is a schematic view of a connection structure of a first turntable and a driving mechanism according to the present invention;

FIG. 9 is a schematic view of a feeding mechanism according to the present invention;

FIG. 10 is an enlarged structural view of the structure at C in FIG. 9 according to the present invention.

In the figure: 1. a base; 2. a U-shaped frame; 3. a feeding mechanism; 31. a feed hopper; 32. a first rotating lever; 33. a material guide plate; 34. a material guide chute; 35. a vertical rod; 36. a drive ring; 37. a first rotating plate; 38. a drive column; 4. a correction mechanism; 41. installing a disc; 42. a feed pipe; 43. a discharge pipe; 44. a first turntable; 45. a first through hole; 46. a first ring groove; 47. a second turntable; 48. a second through hole; 49. a second ring groove; 410. an electromagnetic valve; 411. a sleeve; 412. a first contact; 413. a partition plate; 414. a guide bar; 415. a second contact; 416. a top plate; 417. a collar; 418. a first spring; 5. a drive mechanism; 51. a motor; 52. a second rotating rod; 53. a second rotating plate; 54. a profiled plate; 55. a drive rod; 56. a driven plate; 57. a drive slot; 58. a limiting groove; 59. a first sprocket; 510. a second sprocket; 511. a chain; 6. a material conveying mechanism; 61. a material conveying plate; 62. a first side plate; 63. a second side plate; 64. a third side plate; 65. a first support plate; 66. a third rotating rod; 67. a limiting disc; 68. a driven plate; 69. a card slot; 610. a limiting rod; 611. a second support plate; 612. a limiting plate; 613. a hauling rope; 614. an L-shaped clamping plate; 615. a second spring.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-10, the present invention provides a technical solution: a full-automatic static super capacitor test screening method comprises the following steps:

step one, a user can open the motor 51 and gradually introduce the super capacitors to be detected into the feed hopper 31, at this time, the motor 51 drives the first chain wheel 59 and the second rotating plate 53 to rotate, so as to drive the second chain wheel 510 to rotate through the chain 511, further drive the first rotating plate 37 to rotate through the first rotating rod 32, at this time, the driving post 38 rotates synchronously with the first rotating plate 37, thereby driving the driving ring 36 to move up and down in a reciprocating manner, further drive the material guiding plate 33 to move up and down in a reciprocating manner through the vertical rod 35, when the material guiding plate 33 moves down, the super capacitors to be detected in the feed hopper 31 are clamped in the material guiding groove 34, when the material guiding groove 34 moves up and moves up with the material feeding pipe 42, under the action of gravity, the super capacitors to be detected in the material guiding groove 34 are introduced into one group of the first through holes 45 through the material feeding pipe 42, thereby realizing the equidistant mechanized feeding of the screening apparatus, thereby saving manpower and having higher practicability;

step two, the second rotating plate 53 drives the special-shaped plate 54 and the driving rod 55 to rotate, so as to cooperate with the use of the driving groove 57 and the limiting groove 58, and can drive the driven plate 56 to intermittently rotate, and further drive the first rotating disc 44 to intermittently rotate through the second rotating rod 52, so that the supercapacitors to be detected are sequentially clamped in the corresponding first through holes 45, if the contact of the supercapacitors to be detected is positioned in the first annular groove 46, during the rotation of the first rotating disc 44, the contact of the supercapacitors to be detected pushes the top plate 416 to move upwards, so that the second contact 415 is driven to move upwards through the guide rod 414, and the first spring 418 is extruded through the lantern ring 417, when the second contact 415 is contacted with the first contact 412, the power supply of the electromagnetic valve 410 is switched on, at this time, one end of the electromagnetic valve 410 is separated from the second through hole 48, at this time, the second through hole 48 is communicated with the first through hole 45, and then the supercapacitors to be, the current is led into the discharge pipe 43 through the other corresponding group of first through holes 45, so that the contact of the group of supercapacitors to be detected is separated from the top plate 416, at the moment, under the elastic force action of the first spring 418, the second contact 415 and the top plate 416 are driven to reset, so that the second contact 415 is separated from the first contact 412, at the moment, the power supply of the electromagnetic valve 410 is disconnected, so that one end of the electromagnetic valve 410 is inserted into the second through hole 48 again, and the second through hole 48 is not communicated with the first through hole 45 any more; if the contact of the supercapacitor to be detected is located in the second annular groove 49, the contact of the group of the supercapacitor to be detected does not push against the top plate 416 during the rotation of the first rotating disc 44, so that the contact of the group of the supercapacitor to be detected rotates along with the first rotating disc 44 until the first through hole 45 where the group of the supercapacitor to be detected is located is communicated with the discharge pipe 43, and at the moment, the group of the supercapacitor to be detected enters the discharge pipe 43 under the action of gravity, so that the automatic correction of the position of the supercapacitor to be detected is realized, and further, the contacts of all the supercapacitor to be detected are located at the upper end, and the development of later-stage detection operation is;

step three, when the super capacitor to be detected enters the discharging pipe 43, under the action of its own gravity, the super capacitor to be detected falls on the material conveying plate 61 and moves to a side away from the base 1 until the first group of super capacitor to be detected is clamped between the two adjacent sets of limiting rods 610, when a proper amount of super capacitor to be detected is contained in the material conveying plate 61, a user can open the device for detecting the super capacitor to be detected and pull the limiting plate 612 to rotate, so that the device drives the L-shaped clamping plate 614 to rotate through the pulling rope 613, further the device separates from the clamping groove 69 and stretches the second spring 615, then the user can release the limiting plate 612, at this time, the super capacitor to be detected will continue to slide along the material conveying plate 61 under the action of its own gravity, so as to drive the limiting rods 610 to rotate, further drive the third rotating rod 66 to rotate through the driven disc 68, and the limiting disc 67 will rotate synchronously, meanwhile, the second spring 615 can be contracted, so that the L-shaped clamping plate 614 can be pulled to reset, the limiting plate 612 can be pulled to reset through the traction rope 613, when the L-shaped clamping plate 614 is clamped in the other group of clamping grooves 69, the next group of super capacitors to be detected can be clamped in the corresponding two groups of limiting rods 610, the limiting plate 612 can be pushed to rotate again during the follow-up sliding period of the first group of super capacitors to be detected, so that the L-shaped clamping plate 614 and the clamping grooves 69 can be separated again, the above steps can be repeated to perform follow-up material conveying operation of the super capacitors to be detected, the equidistant automatic material conveying of the super capacitors to be detected is realized, the follow-up detection operation can be conveniently carried out, and the practicability of the.

The utility model provides a full-automatic static super capacitor test screening installation, includes base 1, and base 1's top middle part fixed mounting has U type frame 2, is equipped with feed mechanism 3 on the U type frame 2, and one side of feed mechanism 3 and one side of U type frame 2 are equipped with corrects mechanism 4, and one side of base 1 is equipped with and corrects mechanism 4 and the actuating mechanism 5 that 3 cooperations of feed mechanism used, and base 1's one end upside is equipped with and corrects 4 complex defeated material mechanisms 6 that use of mechanism.

Feed mechanism 3 includes feeder hopper 31 and first bull stick 32, feeder hopper 31 fixed mounting is on U type frame 2, and the inner chamber bottom sliding clamp of feeder hopper 31 is equipped with stock guide 33, baffle box 34 has been seted up on the top of stock guide 33, and the bottom of stock guide 33 is equipped with montant 35, the one end of montant 35 runs through U type frame 2 and is equipped with drive ring 36 at its end, first bull stick 32 rotates and inserts and establish on U type frame 2, and the one end of first bull stick 32 is equipped with first bull stick 37, the one end of first bull stick 37 is equipped with drive post 38, drive post 38 activity card is established in drive ring 36, thereby can drive ring 36 through drive post 38 and carry out reciprocating's reciprocating, and then drive stock guide 33 through montant 35 and carry out reciprocating.

The correcting mechanism 4 comprises a mounting disc 41, the mounting disc 41 is fixedly mounted on the U-shaped frame 2, the mounting disc 41 is provided with a feeding pipe 42 and a discharging pipe 43 in a communicating manner, one end of the feeding pipe 42 is communicated with the feeding hopper 31, the material guide chute 34 can be communicated with the feeding pipe 42, a first rotating disc 44 is rotatably mounted in an inner cavity of the mounting disc 41, the first rotating disc 44 is provided with first through holes 45 distributed in an array manner in a penetrating manner, the first through holes 45 can be communicated with the feeding pipe 42 and the discharging pipe 43, the first rotating disc 44 is provided with a first annular groove 46 matched with the first through holes 45, a second rotating disc 47 is fixedly mounted in the inner cavity of the mounting disc 41, the second rotating disc 47 is rotatably inserted in the inner side of the first rotating disc 44, the second rotating disc 47 is provided with second through holes 48 matched with the first through holes 45 in a penetrating manner, the second through holes 48 can be communicated with the first through holes 45, so that the super capacitors in the, and the outer wall of the second rotating disc 47 is provided with a second annular groove 49 matched with the second through hole 48 for use, one side of the mounting disc 41 is provided with an electromagnetic valve 410, and one end of the electromagnetic valve 410 can be slidably inserted into the second through hole 48.

The mounting disc 41 is provided with a sleeve 411 in a communicating manner, the top of an inner cavity of the sleeve 411 is provided with a first contact 412, a partition 413 is fixedly installed in the inner cavity of the sleeve 411, a guide rod 414 is slidably inserted into the partition 413, one end of the guide rod 414 is provided with a second contact 415, the second contact 415 can be contacted with the first contact 412, when the second contact 415 is contacted with the first contact 412, the power supply of the electromagnetic valve 410 is connected, at this time, one end of the electromagnetic valve 410 is separated from the second through hole 48, at this time, the second through hole 48 is communicated with the first through hole 45, when the second contact 415 is separated from the first contact 412, the power supply of the electromagnetic valve 410 is disconnected, at this time, one end of the electromagnetic valve 410 is inserted into the second through hole 48 again, at this time, the second through hole 48 is not communicated with the first through hole 45, the work and the connection of related circuits of the electromagnetic valve 410 are the prior art, which will not be described, the top plate 416 can be movably clamped in the first ring groove 46, the guide rod 414 is fixedly sleeved with a collar 417, one side of the collar 417 is provided with a first spring 418, the first spring 418 is movably sleeved on the guide rod 414, and one end of the first spring 418 is fixedly connected with the partition 413.

The driving mechanism 5 comprises a motor 51 and a second rotating rod 52, and in the scheme: the type Y80M1-2 is preferred to be selected as the motor 51, a power supply interface of the motor is connected with a power supply system through a switch, an operation circuit of the motor 51 is a forward and reverse rotation control program of a conventional motor 51, the operation of the circuit is the conventional circuit, the circuit and the control related in the scheme are the prior art, redundant description is not repeated, the motor 51 is fixedly arranged on the base 1, the output end of the motor 51 is provided with a second rotating plate 53, one side of the second rotating plate 53 is fixedly provided with a special-shaped plate 54 and a driving rod 55, the second rotating rod 52 is rotatably inserted on the mounting disc 41, one end of the second rotating rod 52 is fixedly connected with the first rotating disc 44, the other end of the second rotating rod 52 is provided with a driven plate 56, the driven plate 56 is provided with driving grooves 57 and limiting grooves 58 which are distributed in an array, the driving grooves 57 and the limiting grooves 58 are distributed in a staggered manner, the outer wall of the special-, and the driving rod 55 can be movably engaged in the driving groove 57.

The fixed cover in the outside of motor 51 output has been connected with first sprocket 59, and the one end fixed mounting of first bull stick 32 has second sprocket 510, and the outside meshing of second sprocket 510 and first sprocket 59 has chain 511 to use through the cooperation of first sprocket 59, second sprocket 510 and chain 511, can realize feed mechanism 3 and correct the synchronous operation of mechanism 4.

Defeated material mechanism 6 includes defeated flitch 61, defeated flitch 61's one end and base 1 fixed connection, and defeated flitch 61's one end is located the below of discharging pipe 43, first curb plate 62 that the cooperation of the top both sides fixed mounting of defeated flitch 61 was used, second curb plate 63 and third curb plate 64, one side of defeated flitch 61 is equipped with first backup pad 65, it installs third bull stick 66 to rotate on the first backup pad 65, fixed cover is equipped with spacing dish 67 and driven plate 68 on the third bull stick 66, set up array distribution's draw-in groove 69 on the spacing dish 67, and be equipped with array distribution's gag lever post 610 on the driven plate 68, gag lever post 610 can the activity card establish between second curb plate 63 and third curb plate 64.

One side of defeated flitch 61 is equipped with second backup pad 611, rotate on the second backup pad 611 and install limiting plate 612, and the activity of one end of limiting plate 612 is inserted and is established on third panel 64, one side fixed mounting of limiting plate 612 has haulage rope 613, the one end of haulage rope 613 is equipped with L type cardboard 614, the one end and the first backup pad 65 of L type cardboard 614 rotate to be connected, and the other end of L type cardboard 614 can the activity card establish in draw-in groove 69, one side of L type cardboard 614 is equipped with second spring 615, the one end and the first backup pad 65 fixed connection of second spring 615.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. A full-automatic static super capacitor test screening method is characterized by comprising the following steps:

step one, a user can open a motor (51) and gradually introduce a super capacitor to be detected into a feed hopper (31), at the moment, the motor (51) drives a first chain wheel (59) and a second rotating plate (53) to rotate, so that a chain (511) drives a second chain wheel (510) to rotate, further a first rotating rod (32) drives a first rotating plate (37) to rotate, at the moment, a driving column (38) synchronously rotates along with the first rotating plate (37), so as to drive a driving ring (36) to circularly reciprocate up and down, further a vertical rod (35) drives a guide plate (33) to circularly reciprocate up and down, when the guide plate (33) moves down, the super capacitor to be detected in the feed hopper (31) is clamped in a guide chute (34), when the guide plate (33) moves up, when the guide chute (34) is communicated with a feed pipe (42), under the action of gravity, the super capacitor to be detected in the material guide groove (34) is guided into one group of the first through holes (45) through the material inlet pipe (42), so that equal-interval mechanical feeding of screening equipment is realized, the labor is saved, and the practicability is high;

step two, the second rotating plate (53) drives the special-shaped plate (54) and the driving rod (55) to rotate, so that the driving groove (57) and the limiting groove (58) are matched for use, the driven plate (56) can be driven to intermittently rotate, the first rotating disc (44) is driven to intermittently rotate through the second rotating rod (52), the super capacitor to be detected is sequentially clamped in the corresponding first through hole (45), if the contact of the super capacitor to be detected is positioned in the first annular groove (46), the contact of the super capacitor to be detected pushes the top plate (416) to move upwards during the rotation of the first rotating disc (44), the second contact (415) is driven to move upwards through the guide rod (414), the first spring (418) is extruded through the lantern ring (417), when the second contact (415) is contacted with the first contact (412), the power supply of the electromagnetic valve (410) is connected, and at the moment, one end of the electromagnetic valve (410) is separated from the second through hole (48), at the moment, the second through hole (48) is communicated with the first through hole (45), then the super capacitor to be detected in the group of first through holes (45) enters the second through hole (48) under the action of gravity, and is led into the discharge pipe (43) through the other corresponding group of first through holes (45), so that the contact of the group of super capacitors to be detected is separated from the top plate (416), at the moment, under the action of the elastic force of the first spring (418), the second contact (415) and the top plate (416) are driven to reset, so that the second contact (415) is separated from the first contact (412), at the moment, the power supply of the electromagnetic valve (410) is disconnected, so that one end of the electromagnetic valve (410) is inserted into the second through hole (48) again, and the second through hole (48) is not communicated with the first through hole (45); if the contact of the super capacitor to be detected is positioned in the second annular groove (49), the contact of the group of super capacitors to be detected does not push against the top plate (416) during the rotation of the first rotary table (44), so that the group of super capacitors to be detected rotates along with the first rotary table (44) until the first through hole (45) where the group of super capacitors to be detected is positioned is communicated with the discharge pipe (43), and at the moment, the group of super capacitors to be detected enters the discharge pipe (43) under the action of gravity, so that the automatic correction of the position of the super capacitor to be detected is realized, all the contacts of the super capacitors to be detected can be positioned at the upper end, and the development of later detection operation is facilitated;

step three, when the super capacitor to be detected enters the discharge pipe (43), the super capacitor to be detected falls on the material conveying plate (61) and moves towards one side far away from the base (1) under the action of self gravity until the first group of super capacitor to be detected is clamped between two adjacent groups of limiting rods (610), when the material conveying plate (61) contains a proper amount of super capacitor to be detected, a user can open the equipment for detecting the super capacitor to be detected and pull the limiting plate (612) to rotate, so that the limiting plate (612) is driven to rotate by the traction rope (613), the L-shaped clamping plate (614) is further separated from the clamping groove (69) and stretches the second spring (615), then the user can loosen the limiting plate (612), and at the moment, the super capacitor to be detected continuously slides along the material conveying plate (61) under the action of self gravity, so that the limiting rods (610) are driven to rotate, and then the driven disc (68) drives the third rotating rod (66) to rotate, the limiting disc (67) synchronously rotates along with the third rotating rod (66), meanwhile, the second spring (615) contracts to pull the L-shaped clamping plate (614) to reset, and the traction rope (613) pulls the limiting plate (612) to reset, when the L-shaped clamping plate (614) is clamped in the other group of clamping grooves (69), the next group of to-be-detected super capacitors are clamped in the corresponding two groups of limiting rods (610), the limiting plate (612) is pushed to rotate again during the subsequent sliding of the first group of to-be-detected super capacitors, so that the L-shaped clamping plate (614) is separated from the clamping grooves (69) again, the steps are repeated to carry out the material conveying operation of the subsequent to-be-detected super capacitors, the equidistant automatic material conveying of the to-be-detected super capacitors is realized, and the subsequent detection operation is convenient to develop, the practicability of the equipment is effectively improved.

2. The utility model provides a full-automatic static super capacitor test screening installation, includes base (1), its characterized in that: the utility model discloses a feeding mechanism, including base (1), U type frame (2), be equipped with feeding mechanism (3) on U type frame (2), one side of feeding mechanism (3) is equipped with one side of U type frame (2) and corrects mechanism (4), one side of base (1) is equipped with and corrects actuating mechanism (5) that mechanism (4) and feeding mechanism (3) cooperation were used, the one end upside of base (1) is equipped with and corrects defeated material mechanism (6) that mechanism (4) cooperation was used.

3. The full-automatic static supercapacitor test screening device according to claim 2, wherein: feed mechanism (3) include feeder hopper (31) and first bull stick (32), feeder hopper (31) fixed mounting is on U type frame (2), and the inner chamber bottom slide card of feeder hopper (31) is equipped with stock guide (33), baffle box (34) have been seted up on the top of stock guide (33), and the bottom of stock guide (33) is equipped with montant (35), the one end of montant (35) runs through U type frame (2) and is equipped with drive ring (36) at its end, first bull stick (32) are rotated and are inserted and establish on U type frame (2), and the one end of first bull stick (32) is equipped with first bull stick (37), the one end of first bull stick (37) is equipped with drive column (38), drive column (38) activity card is established in drive ring (36).

4. The full-automatic static supercapacitor test screening device according to claim 3, wherein: correcting mechanism (4) including installation disc (41), installation disc (41) fixed mounting is on U type frame (2), and the intercommunication is equipped with inlet pipe (42) and discharging pipe (43) on installation disc (41), the one end and feeder hopper (31) of inlet pipe (42) are linked together, and baffle box (34) can be linked together with inlet pipe (42), rotate in the inner chamber of installation disc (41) and install first carousel (44), run through first through-hole (45) of seting up the array distribution on first carousel (44), first through-hole (45) can be linked together with inlet pipe (42) and discharging pipe (43), and set up first annular (46) of using with first through-hole (45) cooperation on first carousel (44), fixed mounting has second carousel (47) in the inner chamber of installation disc (41), second carousel (47) rotate to insert and establish the inboard at first carousel (44), run through on second carousel (47) and seted up second through-hole (48) with first through-hole (45) cooperation use, and offer on the outer wall of second carousel (47) with second through-hole (48) cooperation use second annular (49), one side of installation disc (41) is equipped with solenoid valve (410), the one end of solenoid valve (410) can slide and insert and establish in second through-hole (48).

5. The full-automatic static supercapacitor test screening device according to claim 4, wherein: the intercommunication is equipped with sleeve (411) on installation disc (41), and the inner chamber top of sleeve (411) is equipped with first contact (412), fixed mounting has baffle (413) in the inner chamber of sleeve (411), slide on baffle (413) and insert and be equipped with guide arm (414), the one end of guide arm (414) is equipped with second contact (415), and second contact (415) can contact with first contact (412), the other end fixedly connected with roof (416) of guide arm (414), roof (416) can the activity card establish in first annular (46), fixed cover has been connect lantern ring (417) on guide arm (414), one side of lantern ring (417) is equipped with first spring (418), first spring (418) activity cup joints on guide arm (414), and the one end and the baffle (413) fixed connection of first spring (418).

6. The full-automatic static supercapacitor test screening device according to claim 4, wherein: the driving mechanism (5) comprises a motor (51) and a second rotating rod (52), the motor (51) is fixedly arranged on the base (1), and the output end of the motor (51) is provided with a second rotating plate (53), one side of the second rotating plate (53) is fixedly provided with a special-shaped plate (54) and a driving rod (55), the second rotating rod (52) is rotatably inserted on the mounting disc (41), one end of the second rotating rod (52) is fixedly connected with the first rotating disc (44), the other end of the second rotating rod (52) is provided with a driven plate (56), the driven plate (56) is provided with driving grooves (57) and limiting grooves (58) which are distributed in an array, and the driving groove (57) and the limiting groove (58) are distributed in a staggered manner, the outer wall of the special-shaped plate (54) can be in contact with the inner wall of the limiting groove (58), and the driving rod (55) can be movably clamped in the driving groove (57).

7. The full-automatic static supercapacitor test screening device according to claim 6, wherein: the outer side of the output end of the motor (51) is fixedly sleeved with a first chain wheel (59), one end of the first rotating rod (32) is fixedly provided with a second chain wheel (510), and the outer sides of the second chain wheel (510) and the first chain wheel (59) are meshed with a chain (511).

8. The full-automatic static supercapacitor test screening device according to claim 4, wherein: defeated material mechanism (6) are including defeated flitch (61), the one end and base (1) fixed connection of defeated flitch (61), and the one end of defeated flitch (61) is located the below of discharging pipe (43), first curb plate (62), second curb plate (63) and third curb plate (64) that the top both sides fixed mounting cooperation of defeated flitch (61) was used, one side of defeated flitch (61) is equipped with first backup pad (65), it installs third bull stick (66) to rotate on first backup pad (65), fixed cover is equipped with spacing dish (67) and driven plate (68) on third bull stick (66), set up array distribution's draw-in groove (69) on spacing dish (67), and be equipped with array distribution's gag lever post (610) on driven plate (68).

9. The full-automatic static supercapacitor test screening device according to claim 8, wherein: one side of defeated flitch (61) is equipped with second backup pad (611), rotate on second backup pad (611) and install limiting plate (612), and the one end activity of limiting plate (612) is inserted and is established on third curb plate (64), one side fixed mounting of limiting plate (612) has haulage rope (613), the one end of haulage rope (613) is equipped with L type cardboard (614), the one end and the first backup pad (65) of L type cardboard (614) rotate to be connected, and the other end of L type cardboard (614) can the activity card establish in draw-in groove (69), one side of L type cardboard (614) is equipped with second spring (615), the one end and the first backup pad (65) fixed connection of second spring (615).