CN112607206A - Light-emitting diode storage box - Google Patents

Abstract

The invention discloses a light-emitting diode storage box, which comprises a casing, wherein a storage cavity with an upward opening is arranged on the upper inner wall of the middle part of the casing, a storage mechanism is arranged in the storage cavity, a transmission cavity is arranged on the right side of the storage cavity, a transmission control mechanism is arranged in the transmission cavity, and a switch mechanism is arranged on the upper end face of the middle part of the casing. And the impact force of falling on the diode is reduced to the maximum extent so as to avoid the diode being damaged.

Description

Light-emitting diode storage box

Technical Field

The invention relates to the field of diodes, in particular to a light-emitting diode storage box.

Background

The diode is an electronic device made of semiconductor material, has one-way conductivity, is one of the most emerging semiconductor devices, has very wide application, and particularly utilizes the diode and elements such as a resistor, a capacitor, an inductor and the like to reasonably connect in various electronic circuits, so that the diodes can form circuits with different functions;

at present, when soldering a diode, a diode storage box is often placed around the diode so that the diode can be picked and placed at any time, but when soldering is performed, the diode storage box may be swept off from a table, and the diode inside may be scattered.

Disclosure of Invention

The invention aims to solve the technical problem of providing a light-emitting diode storage box, which solves the problem that internal parts fall out when the storage box arranged on the left is knocked down and the like, and realizes that the box automatically limits the position of a diode when the diode falls down so as to avoid the damage to the diode when the diode falls down.

The invention is realized by the following technical scheme.

The invention relates to a light-emitting diode storage box, which comprises a casing, wherein a storage cavity with an upward opening is arranged on the upper inner wall of the middle part of the casing, a storage mechanism is arranged in the storage cavity, a lifting cavity is arranged at the rear side of the storage cavity, a lifting mechanism is arranged in the lifting cavity, a transmission cavity is arranged at the right side of the storage cavity, a transmission control mechanism is arranged in the transmission cavity, a detection cavity is arranged at the lower side of the storage cavity, a detection mechanism is arranged in the detection cavity, a switch mechanism is arranged on the upper end surface of the middle part of the casing, the transmission control mechanism comprises a motor positioned on the lower inner wall of the middle part of the transmission cavity, a limiting cavity with a downward opening is arranged on the upper inner wall of the middle part of the transmission cavity, the upper end of the motor is rotatably provided with a transmission shaft, the other end of, a plurality of limiting plates are equidistantly distributed on the limiting wheel, a clamping block cavity with a leftward opening is formed in the right inner wall of the limiting cavity, clamping blocks are arranged in the clamping block cavity in a sliding mode, a clamping block spring is connected between the right end face of each clamping block and the right inner wall of the clamping block cavity, one end of a clamping block rope is connected to the right end face of each clamping block, the clamping block rope enters the shell from the right inner wall of the clamping block cavity, eight driven shafts which uniformly surround the transmission shaft are rotatably arranged between the upper inner wall and the lower inner wall of the transmission cavity, lifting rope wheels are arranged at the upper ends of the seven driven shafts except the rightmost end in a friction connection mode, magnets are arranged at the lower ends of the seven lifting rope wheels, arc-shaped limiting cavities are formed in the upper ends of the seven lifting rope wheels, one ends of the lifting ropes are connected to the seven lifting rope wheels, and the lifting ropes enter the shell from the annular inner wall of the, seven annular rolling cavities with downward openings and positioned on the upper side of the lifting rope rolling wheel are respectively arranged on the upper inner wall of the transmission cavity, an annular block is arranged in the annular rolling cavities in a sliding manner, teeth are arranged on the outer circular part of the annular block, a torsion spring is connected between the lower end face of the annular block and the upper end face of the lifting rope rolling wheel, a transmission gear is arranged in the middle of the transmission shaft in a spline connection manner, annular openings with downward openings are arranged on the lower inner wall of the transmission gear, driven gears which are mutually meshed with the transmission gear are arranged in the middle of seven driven shafts except the rightmost end in a spline connection manner, annular cavities with downward openings are arranged on the lower end faces of the driven gears, two sliding blocks are arranged in the annular cavities in a sliding manner, one end of a control rope is connected onto the lower end face of one sliding block, and one end of an ejection rope is, the control rope and the ejection rope enter the shell from the lower inner wall of the transmission cavity, and a push-down spring is connected between the lower end face of the limiting wheel and the upper end face of the transmission gear.

Furthermore, a ring block cavity is arranged on the upper side of the transmission cavity, a ring block is rotatably arranged in the ring block cavity, seven clamping cavities which are respectively positioned on the upper side of the lifting rope rolling wheel are arranged on the inner side of the ring block cavity, a limiting rod which extends into the transmission cavity and can slide is arranged on the lower end face of the clamping cavity, lifting round blocks which are in mutual contact with threads on an inner circular arc of the ring block are arranged at the upper ends of the limiting rods, teeth on the lifting round blocks are meshed with the threads on the inner ring block, teeth on the outer side of the lower end of the ring block are meshed with the teeth of the ring block respectively, a rotating cavity with a right opening is arranged on the right end face of the middle part of the casing, a threaded shaft with threads is arranged on the left end face of the rotating cavity in a friction connection manner, the threads on the threaded shaft are meshed with the teeth on the outer ring block, and a turntable is arranged at the right end of, the transmission mechanism is characterized in that a rotating gear located below the transmission gear is arranged in the middle of the driven shaft at the rightmost end, an anti-falling rope winding wheel is arranged at the upper end of the driven shaft at the rightmost side, an anti-falling torsion spring is connected between the upper end face of the anti-falling rope winding wheel and the upper inner wall of the transmission cavity, one end of an anti-falling rope is connected onto the anti-falling rope winding wheel, and the anti-falling rope enters the interior of the casing from the inner wall at the rightmost side of the transmission cavity.

Furthermore, the lifting mechanism comprises eight lifting cavities which are respectively positioned on the rear inner wall of the lifting cavity and have forward openings, lifting blocks are arranged in all the lifting cavities in a sliding manner, descending springs are connected between the lower end surfaces of the lifting blocks and the lower inner wall of the lifting cavity, the upper end surface of the leftmost lifting block is connected with the other end of an anti-falling rope, the anti-falling rope enters the casing from the upper inner wall of the leftmost lifting cavity, the upper end surfaces of the lifting blocks except the leftmost lifting block are connected with the other ends of the lifting ropes, the lifting ropes enter the casing from the upper inner walls of the lifting cavities, pressing block cavities with rightward openings are arranged on the lower left inner walls of the seven lifting cavities except the leftmost lifting cavity, pressing blocks are arranged in the pressing block cavities in a sliding manner, and pressing block springs are connected between the left end surfaces of the pressing blocks and the left inner walls of the pressing block cavities, the left end face of each pressing block is connected with one end of a detection rope, and the detection ropes respectively enter the shell from the left inner wall of each pressing block cavity.

Furthermore, the storage mechanism comprises connecting rods which are respectively arranged on the front end faces of the lifting blocks and extend into the storage cavities, the front ends of the eight connecting rods are respectively provided with a base, the upper end face of the leftmost base is provided with a baffle plate, the upper sides of other bases are respectively provided with a storage plate, the left end face of each storage plate is provided with a storage cavity with a left opening, the lower end face of each storage plate is provided with a limiting cavity with an upward opening, the upper end face of each base is provided with a limiting rod extending into the limiting cavity, a storage spring is connected between the upper end face of each base and the lower end face of each storage plate, the lower end face of each storage plate is connected with one end of a storage rope, the storage rope enters the base from the upper end face of each base, and the rear end faces of other lifting blocks except the leftmost lifting blocks are respectively provided with a pop-up cavity with a backward opening, the pop-up cavity is internally provided with a pop-up block in a sliding mode, pop-up springs are arranged between the front end face of the pop-up block and the front inner wall of the pop-up cavity, the other end of a storage rope is connected to the front end face of the pop-up block, the storage rope enters the inside of the lifting block from the front inner wall of the pop-up cavity, a press-block cavity with a forward opening is arranged on the rear inner wall of all other lifting cavities except the leftmost lifting cavity, a press block is arranged in the press-block cavity in a sliding mode, the rear end face of the press block and the rear inner wall of the press-block cavity are connected with the press-block springs, a connecting block is arranged on the upper end face of the left side of the press block, the other end of a control rope is connected to the front end face of the connecting block, and the control rope enters the.

Further, on-off mechanism is including being located two engaging lugs around on the casing right side up end, it is equipped with the connecting axle to rotate between one engaging lug, fixed connection is equipped with the apron on the connecting axle, the right side of apron is equipped with the apron chamber, the front side of connecting axle is equipped with preceding rope sheave, be connected with the one end of pulling the rope on the preceding rope sheave, just the pulling rope is walked around follow behind the preceding rope sheave enter into on the up end of casing within the casing, the rear end of connecting axle is equipped with back rope sheave, be connected with the other end of fixture block rope on the back rope sheave, the fixture block rope is followed enter into on the up end of casing within the casing.

Furthermore, the detection mechanism comprises a detection plate arranged in the detection cavity in a sliding manner, a detection spring is connected between the upper end surface of the detection plate and the upper inner wall of the detection cavity, the upper end surface of the detection plate is connected with the other end of a pulling rope, the pulling rope enters the shell from the upper inner wall of the detection cavity, the right side of the detection cavity is provided with an anti-motion cavity, the anti-motion cavity is internally provided with an anti-motion plate in a sliding manner, the anti-motion spring is connected between the lower end surface of the anti-motion plate and the lower inner wall of the anti-motion cavity, the lower end surface of the anti-motion plate is connected with the other ends of all detection ropes, the detection ropes enter the shell from the lower inner wall of the anti-motion cavity, push rods extending into the transmission cavity are arranged on the upper end surface on the left side of the anti-motion plate and the upper end surface on the right side of the detection plate, and push blocks are arranged on, the upper end surface of the push block is provided with a roller cavity with an upward opening, the left inner wall and the right inner wall of the roller cavity are rotatably provided with rolling shafts, the rolling shafts are provided with rollers, the rollers are contacted with the upper inner wall of the clamping cavity, the left inner wall of the detection cavity is provided with a pressing cavity with a rightward opening, the pressing cavity is internally provided with a pressing block in a sliding manner, the left end surface of the pressing block is connected with the other ends of seven ejection ropes, the ejection ropes enter the machine shell from the left inner wall of the pressing cavity, the lower end surface of the right side of the pressing block inclines rightwards, a pressing spring is connected between the left end surface of the pressing block and the left inner wall of the pressing cavity, the lower end surface of the anti-moving plate is connected with a linkage rope, the linkage rope enters the machine shell from the lower inner wall of the anti-moving cavity, and the upper end surface of the detection plate is connected with the other end of the linkage rope, the linkage rope enters the shell from the upper inner wall of the detection cavity.

The invention has the beneficial effects that: the invention has simple structure and convenient operation, when the diode needs to be stored, the plate for storing can be automatically lifted, and can be descended after being fully stored, and can be lifted when the diode is used, and can be descended after being taken out, so that people can conveniently store and take the diode, and the collision can be prevented when the diode is stored.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a schematic structural diagram at A-A of FIG. 1 in accordance with an embodiment of the present invention;

FIG. 3 is a schematic structural diagram at B-B of FIG. 2 according to an embodiment of the present invention;

FIG. 4 is a schematic structural diagram at C-C of FIG. 2 according to an embodiment of the present invention;

FIG. 5 is a schematic structural diagram at D-D of FIG. 1 according to an embodiment of the present invention;

FIG. 6 is a schematic structural diagram at E-E of FIG. 1 according to an embodiment of the present invention;

FIG. 7 is a schematic diagram of the structure at F in FIG. 1 according to an embodiment of the present invention;

FIG. 8 is a schematic structural diagram at G-G of FIG. 1 according to an embodiment of the present invention.

Detailed Description

The invention will now be described in detail with reference to fig. 1-8, wherein for ease of description the orientations described below are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The light emitting diode storage box disclosed in the attached figures 1 to 8 comprises a casing 10, wherein a storage cavity 27 with an upward opening is formed in the upper inner wall of the middle part of the casing 10, a storage mechanism is arranged in the storage cavity 27, a lifting cavity 33 is formed in the rear side of the storage cavity 11, a lifting mechanism is arranged in the lifting cavity 33, a transmission cavity 88 is formed in the right side of the storage cavity 27, a transmission control mechanism is arranged in the transmission cavity 88, a detection cavity 17 is formed in the lower side of the storage cavity 27, a detection mechanism is arranged in the detection cavity 17, a switch mechanism is arranged on the upper end surface of the middle part of the casing 10, the transmission control mechanism comprises a motor 76 positioned on the lower inner wall of the middle part of the transmission cavity 88, a limiting cavity 64 with a downward opening is formed in the upper inner wall of the middle part of the transmission cavity 88, a transmission shaft 53 with the other end rotatably arranged on, the upper end of the transmission shaft 53 is provided with a limiting wheel 63 positioned in the limiting cavity 64, the limiting wheel 63 is equidistantly provided with a plurality of limiting plates 62, the right inner wall of the limiting cavity 64 is provided with a fixture block cavity 67 with a leftward opening, a fixture block 65 is slidably arranged in the fixture block cavity 67, a fixture block spring 66 is connected between the right end surface of the fixture block 65 and the right inner wall of the fixture block cavity 67, the right end surface of the fixture block 65 is connected with one end of a fixture block rope 59, the fixture block rope 59 enters the machine shell 10 from the right inner wall of the fixture block cavity 67, eight driven shafts 78 uniformly surrounding the transmission shaft 53 are rotatably arranged between the upper inner wall and the lower inner wall of the transmission cavity 88, the upper ends of seven driven shafts 78 except the rightmost end are provided with lifting rope rollers 82 in a friction connection manner, the lower ends of the seven lifting rope rollers 82 are provided with magnets 81, the upper ends of the seven lifting rope rollers 82 are provided with arc-shaped, the seven lifting rope wheels 82 are all connected with one end of a lifting rope 38, the lifting rope 38 enters the machine shell 10 from the annular inner wall of the transmission cavity 88, the upper inner wall of the transmission cavity 88 is provided with seven annular rolling cavities 85 with downward openings and positioned at the upper sides of the lifting rope wheels 82, annular blocks 84 are arranged in the annular rolling cavities 85 in a sliding mode, the outer circular parts of the annular blocks 84 are provided with teeth, torsion springs 90 are connected between the lower end surfaces of the annular blocks 84 and the upper end surfaces of the lifting rope wheels 82, the middle of the transmission shaft 53 is provided with a transmission gear 52 in a spline connection mode, the lower inner wall of the transmission gear 52 is provided with an annular opening 91 with a downward opening, the middle parts of the seven driven shafts 78 except the rightmost end are provided with driven gears 80 in a spline connection mode, the lower end surfaces of the driven gears 80 are provided with annular cavities 77 with downward openings, two sliding blocks 79 are arranged in the annular cavity 77 in a sliding mode, one end of a control rope 50 is connected to the lower end face of each sliding block 79, one end of an ejection rope 95 is connected to the lower end face of the other sliding block 79, the control rope 50 and the ejection rope 95 enter the shell 10 from the lower inner wall of the transmission cavity 88, and a push-down spring 30 is connected between the lower end face of the limiting wheel 63 and the upper end face of the transmission gear 52.

Beneficially, an annular block cavity 93 is arranged on the upper side of the transmission cavity 88, an annular block 60 is rotatably arranged in the annular block cavity 93, seven clamping cavities 91 respectively located on the upper side of the lifting rope winding wheel 82 are arranged on the inner side of the annular block cavity 93, a limiting rod 86 which extends into the transmission cavity 88 and can slide is arranged on the lower end face of each clamping cavity 91, lifting round blocks 87 which are in mutual contact with threads on an inner circular arc of the annular block 60 are arranged at the upper ends of the limiting rods 86, teeth on the lifting round blocks 87 are meshed with the threads on an inner ring of the annular block 60, teeth on the outer side of the lower end of the annular block 60 are meshed with teeth of the annular block 84 respectively, a rotating cavity 92 with a right opening is arranged on the right end face of the middle part of the casing 10, a threaded shaft 24 with threads on the rotating cavity 92 is arranged on the left end face in a friction connection manner, and the threads on the threaded shaft 24 are meshed with teeth on an outer ring of the annular block, the right-hand member of threaded shaft 24 is equipped with carousel 25, the driven shaft 78 middle part of rightmost end is equipped with and is located the transmitting gear 52 below rotating gear 72, the driven shaft 78 upper end on rightmost side is equipped with prevents the rope sheave 89 that falls, prevent falling the up end of rope sheave 89 with be connected with between the last inner wall of transmission chamber 88 and prevent falling torsion spring 69, prevent falling the one end that is connected with on the rope sheave 89 and prevents falling rope 39, prevent falling rope 39 from entering into on the inner wall on the rightmost side of transmission chamber 88 inside the casing 10.

Advantageously, the lifting mechanism comprises eight lifting cavities 36 which are respectively located on the rear inner wall of the lifting cavity 33 and open forward, lifting blocks 37 are slidably arranged in all the lifting cavities 36, a descending spring 94 is connected between the lower end surface of each lifting block 37 and the lower inner wall of each lifting cavity 36, the upper end surface of the leftmost lifting block 37 is connected with the other end of a falling-preventing rope 39, the falling-preventing rope 39 enters the machine shell 10 from the upper inner wall of the leftmost lifting cavity 36, the upper end surfaces of the lifting blocks 37 except the leftmost lifting block are connected with the other ends of lifting ropes 38, the lifting ropes 38 enter the machine shell 10 from the upper inner walls of the lifting cavities 36 respectively, pressing block cavities 41 which are open to the right are arranged on the lower left inner walls of seven lifting cavities 36 except the leftmost lifting cavity, pressing blocks 42 are slidably arranged in the pressing block cavities 41, a pressing block spring 40 is connected between the left end face of the pressing block 42 and the left inner wall of the pressing block cavity 41, one end of the detection rope 21 is connected to the left end face of the pressing block 42, and the detection rope 21 enters the casing 10 from the left inner wall of each pressing block cavity 41.

Beneficially, the storage mechanism includes connecting rods 34 respectively disposed on the front end faces of the lifting blocks 37 and extending into the storage cavities 27, the front ends of the eight connecting rods 34 are all provided with bases 35, the upper end face of the leftmost base 35 is provided with a baffle 11, the upper sides of the other bases 35 are all provided with storage plates 28, the left end face of each storage plate 28 is provided with a storage cavity 12 with a left opening, the lower end face of each storage plate 28 is provided with a limiting cavity 13 with an upward opening, the upper end face of each base 35 is provided with a limiting rod 15 extending into the limiting cavity 13, a storage spring 14 is connected between the upper end face of each base 35 and the lower end face of each storage plate 28, the lower end face of each storage plate 28 is connected with one end of a storage rope 16, and the storage rope 16 enters into the base 35 from the upper end face of each base 35, the rear end surfaces of the lifting blocks 37 except the leftmost side are provided with ejecting cavities 49 with backward openings, the ejecting cavities 49 are internally provided with ejecting blocks 46 in a sliding manner, ejecting springs 47 are arranged between the front end surfaces of the ejecting blocks 46 and the front inner walls of the ejecting cavities 49, the front end surface of each ejecting block 49 is connected with the other end of the storage rope 16, the storage rope 16 enters the lifting blocks 37 from the front inner walls of the ejecting cavities 49, the rear inner walls of all the lifting cavities 36 except the leftmost side are provided with pressing block cavities 44 with forward openings, the pressing block cavities 44 are internally provided with pressing blocks 43 in a sliding manner, pressing block springs 45 are connected between the rear end surfaces of the pressing blocks 43 and the rear inner walls of the pressing block cavities 44, the left upper end surface of each pressing block 43 is provided with a connecting block 51, the front end surface of the connecting block 51 is connected with the other end of a control rope 50, the control cord 50 enters the housing 10 from the upper front inner wall of the button chamber 44.

Advantageously, the switch mechanism includes two front and rear engaging lugs 54 located on the upper end surface of the right side of the casing 10, a connecting shaft 55 is rotatably disposed between the two engaging lugs, a cover plate 26 is fixedly connected to the connecting shaft 55, a cover plate cavity 56 is disposed on the right side of the cover plate 26, a front rope winding wheel 58 is disposed on the front side of the connecting shaft 55, one end of the pulling rope 18 is connected to the front rope winding wheel 58, the pulling rope passes through the front rope winding wheel 58 and then enters the casing 10 from the upper end surface of the casing 10, a rear rope winding wheel 57 is disposed on the rear end of the connecting shaft 55, the other end of a fixture rope 59 is connected to the rear rope winding wheel 57, and the fixture rope 59 enters the casing 10 from the upper end surface of the casing 10.

Advantageously, the detection mechanism comprises a detection plate 20 slidably disposed in the detection chamber 17, a detection spring 19 is connected between an upper end surface of the detection plate 20 and an upper inner wall of the detection chamber 17, the upper end surface of the detection plate 20 is connected with the other end of a pulling rope 18, the pulling rope 18 enters the housing 10 from the upper inner wall of the detection chamber 17, an anti-motion chamber 29 is disposed on the right side of the detection chamber 17, an anti-motion plate 23 is slidably disposed in the anti-motion chamber 29, an anti-motion spring 22 is connected between a lower end surface of the anti-motion plate 23 and a lower inner wall of the anti-motion chamber 29, the lower end surface of the anti-motion plate 23 is connected with the other end of all detection ropes 21, the detection ropes 21 enter the housing 10 from the lower inner wall of the anti-motion chamber 29, push rods 75 extending into the transmission chambers 88 are disposed on an upper end surface on the left side of the anti-motion plate 23 and an upper end surface on the right side of the detection plate 20, the upper end of the push rod 75 is provided with a push block 74, the upper end surface of the push block 74 is provided with a roller cavity 73 with an upward opening, the left and right inner walls of the roller cavity 73 are rotatably provided with a roller shaft 70, the roller shaft 70 is provided with a roller 71, the roller 71 is in contact with the upper inner wall of the clamping cavity 91, the left inner wall of the detection cavity 17 is provided with a pressing cavity 98 with a rightward opening, the pressing cavity 98 is internally provided with a pressing block 99 in a sliding manner, the left end surface of the pressing block 99 is connected with the other ends of seven ejecting ropes 95, the ejecting ropes 95 enter the machine shell 10 from the left inner wall of the pressing cavity 98, the right lower end surface of the pressing block 99 inclines to the right, a pressing spring 97 is connected between the left end surface of the pressing block 99 and the left inner wall of the pressing cavity 98, the lower end surface of the anti-moving plate 23 is connected with a linkage rope 31, the linkage rope 31 enters the machine shell 10 from the lower inner wall of the anti-moving cavity 29, the upper end surface of the detection plate 20 is connected with the other end of a linkage rope 31, and the linkage rope 31 enters the casing 10 from the upper inner wall of the detection cavity 17.

Sequence of mechanical actions of the whole device:

1: when the cover plate 26 is closed, the fixture block 59 is in a released state, so that the fixture block 65 blocks the limit plate 62, thereby preventing the transmission shaft 53 from rotating, after the cover plate 26 is opened, the fixture block 59 is stretched, so that the fixture block 65 moves rightwards, the limit of the fixture block 65 on the limit plate 62 is released, then the motor 76 is started, the transmission shaft 53, the transmission gear 52 and all the driven gears 80 are driven to rotate, thereby driving the driven shafts 78 except for the rightmost side and the lifting rope winding wheel 82 to rotate, so that the lifting rope 38 is stretched, so that the lifting blocks 37 except for the leftmost side, the connecting rods 34 connected with the lifting blocks and the base 35 are lifted, so that the storage plate 28 is lifted, then the light emitting diodes are embedded into the storage cavity 12, when the storage plate 28 is slowed down, due to the increase of gravity, the storage rope 16 is released, the ejecting block 46 moves backwards under the action of the ejecting spring 47 to press the pressing block 43, so that the control rope 50 is stretched, the driven gear 80 connected with the control rope 50 descends, the lifting rope wheel 82 is driven to rotate and reset under the action of the torsion spring 90, the corresponding lifting rope 38 is loosened, the lifting block 37 descends and resets under the action of the descending spring 94, and the connecting rod 34, the base 35 and the storage plate 28 connected with the lifting block are driven to descend and reset;

2: when all the storage plates 28 are fully filled, all the storage plates 28 are descended and reset, when the diodes of the storage plates need to be taken out, the rotary disc 25 is rotated to drive the threaded shaft 24 and the ring block 60 to rotate, the lifting round block 87 moves downwards to enable the limiting rod 86 to move downwards to enter the arc-shaped limiting cavity 83, meanwhile, the ring block 60 rotates to enable all the ring blocks 84 to rotate, the lifting rope winding wheel 82 rotates through the torsion spring 90, the lifting rope 38 is tensioned, the storage plates 28 are lifted for taking out, after all the diodes are taken out, the gravity is lightened, the storage plates 28 move upwards and reset under the action of the storage spring 14, the storage rope 16 is stretched, the ejecting block 46 moves forwards and resets, the pressing block 43 moves forwards under the action of the pressing block spring 45, the control rope 50 is loosened to enable the corresponding driven gear 80 to move upwards and reset under the action of the magnet 81, the driven gear 80 is contacted with the transmission gear 52, the transmission gear 52 drives the driven gear 80 meshed with the transmission gear to rotate, then the driven shaft 78 and the lifting rope winding wheel 82 are driven to rotate, the lifting rope 38 is loosened, the part of the lower end of the limiting rod 86, which is positioned in the arc limiting cavity 83, is contacted with the inner wall of the arc limiting cavity 83 while the lifting rope 38 is completely loosened, so that the lifting rope winding wheel 82 is prevented from rotating, the corresponding lifting block 37 is lowered under the action of the corresponding lowering spring 94 due to the loosening of the lifting rope 38, so that the storage plate 28 with finished taking is moved downwards, when the storage plate is not required to be taken continuously, the motor 76 is turned off, the rotary disc 25 is reversed, the threaded shaft 24 and the ring block 60 are rotated, the ring block 84 is rotated and reset, so that the torsion spring 90, the lifting rope winding wheel 82, the driven shaft 78 and the driven gear 80 are rotated and reset, wherein the lifting rope winding wheel 82 on the upper side of the driven, the lifting rope wheel 82 is reset by rotating, so that the lifting rope 38 is loosened, all the lifting blocks 37 on the upper side are reset by moving downwards, the used storage plate 28 on the upper side is driven to move downwards for resetting for the next use, after complete taking, all the driven gears 80 are reset by moving upwards to be meshed with the transmission gear 52, the torsion spring 90 is twisted, then the rotary disc 25 is reversed, the threaded shaft 24 and the ring block 60 are reversed, the ring block 84 is reset, the torsion spring 90 is loosened, the lifting round block 87 and the limiting rod 86 are reset by moving upwards, and the machine is reset completely;

3: when the storage box is carelessly dropped when being taken, the detection plate 20 moves downwards under the action of the detection spring 19 to drive the detection plate 20 to move downwards, the storage plate 28 is arranged on the upper side, the corresponding press block 42 moves rightwards under the action of the press block spring 40 to stretch the detection rope 21, only one detection rope 21 is stretched, the anti-moving plate 23 moves downwards, the push rod 75 on the right side and the structure on the upper side move downwards together, the detection plate 20 moves downwards to drive the push rod 75 on the left side and the structure on the push rod 75 to move downwards together, the transmission gear 52 moves downwards under the action of the push spring 30, the transmission gear 52 is meshed with the transmission gear 72 during the downward movement, the rotating gear 72, the driven shaft 78 on the rightmost side and the anti-falling rope roller 89 are driven to rotate, the anti-falling rope 39 is stretched, and the transmission gear 72 is disengaged from the driven gear 80 on the upper side at the moment, so that the lifting rope wheel 82 rotates under the action of the torsion spring 90, the lifting rope 38 is stretched, all the lifting blocks 37 on the lower side move upwards due to the stretching of the lifting rope 38 and the anti-falling rope 39, then the transmission gear 52 continues to move downwards, the transmission gear 52 is disengaged from the transmission gear 72, so that the anti-falling rope wheel 89 is rotated and reset under the action of the anti-falling torsion spring 69, the anti-falling rope 39 is released again, the lifting block 37 on the leftmost side and the structure in front of the lifting block 37 move downwards, the pressing block 99 moves forwards under the action of the pressing spring 97 due to the downward movement of the inspection plate 20, the ejecting rope 95 is stretched, all the driven gears 80 on the upper side move downwards to be engaged with the transmission gear 52, so that the driven gears 80 drive the driven gears 52 to rotate, the driven shaft 78 and the lifting rope wheel 82 rotate, and the lifting rope wheel 38 is released completely, the lifting block 37 and the front structure thereof move downwards to prevent the diode from falling out, then the diode is only required to be picked up and placed back on the left, the detection plate 20 moves upwards, the pressing block 99 is pressed to enable the pressing block 99 to move leftwards and reset, the ejecting rope 95 is loosened, the driven gear 80 which is pulled down by the ejecting rope 95 is moved upwards and reset under the action of the magnet 81, then the detection plate 20 is completely lifted and reset, the transmission gear 52 is also completely lifted and reset, after the driven gear 80 is disengaged with the transmission gear 52, the lifting rope wheel 82 is rotated under the action of the torsion spring 90 to enable the 38 to be stretched, the storage plate 28 is lifted, the transmission gear 52 is engaged with the driven gear 80 on the upper side to drive the transmission gear to rotate, the driven shaft 78 and the lifting rope wheel 82 are rotated to enable the 38 to be loosened again, the storage plate 28 on the lower side before the fall is returned to the lower side, and the machine is returned to the state before the fall;

4: when all the holding plates 28 are on the lower side when falling, all the calanders 42 are pressed to make 41 loose, the anti-moving plate 23 is on the upper side under the action of the anti-moving spring 22 to make 31 the linkage rope stretched to hinder the detection plate 20 from falling, so that the falling does not generate any change.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims (6)

1. A light emitting diode storage box comprises a machine shell, and is characterized in that: the upper inner wall of the middle part of the casing is provided with a storage cavity with an upward opening, the storage cavity is internally provided with a storage mechanism, the rear side of the storage cavity is provided with a lifting cavity, the lifting cavity is internally provided with a lifting mechanism, the right side of the storage cavity is provided with a transmission cavity, the transmission cavity is internally provided with a transmission control mechanism, the lower side of the storage cavity is provided with a detection cavity, the detection cavity is internally provided with a detection mechanism, the upper end surface of the middle part of the casing is provided with a switch mechanism, the transmission control mechanism comprises a motor positioned on the lower inner wall of the middle part of the transmission cavity, the upper inner wall of the middle part of the transmission cavity is provided with a limiting cavity with a downward opening, the upper end of the motor is rotatably provided with a transmission shaft, the other end of the transmission shaft is rotatably arranged on the upper inner wall of the limiting cavity, the upper end of the transmission shaft is provided, a clamping block is arranged in the clamping block cavity in a sliding manner, a clamping block spring is connected between the right end face of the clamping block and the right inner wall of the clamping block cavity, one end of a clamping block rope is connected to the right end face of the clamping block, the clamping block rope enters the machine shell from the right inner wall of the clamping block cavity, eight driven shafts uniformly surrounding the transmission shaft are rotatably arranged between the upper inner wall and the lower inner wall of the transmission cavity, lifting rope wheels are arranged at the upper ends of seven driven shafts except the rightmost end in a friction connection manner, magnets are arranged at the lower ends of the seven lifting rope wheels, arc-shaped limiting cavities are arranged at the upper ends of the seven lifting rope wheels, one ends of lifting ropes are connected to the lifting rope wheels, the lifting ropes respectively enter the machine shell from the annular inner wall of the transmission cavity, seven annular rolling cavities with downward openings and positioned at the upper sides of the lifting rope wheels are respectively arranged on the upper inner wall of the transmission cavity, an annular block is arranged in the annular rolling cavity in a sliding manner, teeth are arranged on the circular part on the outer side of the annular block, a torsion spring is connected between the lower end face of the annular block and the upper end face of the lifting rope wheel, a transmission gear is arranged in the middle of the transmission shaft in a spline connection manner, an annular opening with a downward opening is arranged on the lower inner wall of the transmission gear, driven gears meshed with the transmission gear are arranged in the middle of seven driven shafts except the rightmost end in a spline connection manner, annular cavities with downward openings are arranged on the lower end faces of the driven gears, two sliding blocks are arranged in the annular cavities in a sliding manner, one end of a control rope is connected to the lower end faces of the sliding blocks, one end of an ejection rope is connected to the lower end face of the other sliding block, and the control rope and the ejection rope enter the machine shell from the lower inner wall of, and a push-down spring is connected between the lower end surface of the limiting wheel and the upper end surface of the transmission gear.

2. A light emitting diode storage case as set forth in claim 1, wherein: the upper side of the transmission cavity is provided with a ring block cavity, a ring block is rotationally arranged in the ring block cavity, seven clamping cavities which are respectively positioned on the upper side of the lifting rope rolling wheel are arranged on the inner side of the ring block cavity, a limiting rod which stretches into the transmission cavity and can slide is arranged on the lower end face of the clamping cavity, lifting round blocks which are in mutual contact with threads on the inner side circular arc of the ring block are arranged at the upper ends of the limiting rods, teeth on the lifting round blocks are meshed with the threads on the inner side of the ring block, teeth on the outer side of the lower end of the ring block are meshed with the teeth of the ring block respectively, a rotating cavity with a right opening is arranged on the middle right end face of the casing, a threaded shaft with threads is arranged on the left end face of the rotating cavity in a friction connection mode, the threads on the threaded shaft are meshed with the teeth on the outer side of the ring block, a rotary disc is, the transmission mechanism is characterized in that a rotating gear located below the transmission gear is arranged in the middle of the driven shaft at the rightmost end, an anti-falling rope winding wheel is arranged at the upper end of the driven shaft at the rightmost side, an anti-falling torsion spring is connected between the upper end face of the anti-falling rope winding wheel and the upper inner wall of the transmission cavity, one end of an anti-falling rope is connected onto the anti-falling rope winding wheel, and the anti-falling rope enters the interior of the casing from the inner wall at the rightmost side of the transmission cavity.

3. A light emitting diode storage case as set forth in claim 2, wherein: the lifting mechanism comprises eight lifting cavities which are respectively positioned on the rear inner wall of the lifting cavity and have forward openings, lifting blocks are arranged in all the lifting cavities in a sliding mode, descending springs are connected between the lower end faces of the lifting blocks and the lower inner wall of the lifting cavity, the upper end face of the leftmost lifting block is connected with the other end of an anti-falling rope, the anti-falling rope enters the shell from the upper inner wall of the leftmost lifting cavity, the upper end faces of the other lifting blocks except the leftmost lifting block are connected with the other ends of the lifting ropes, the lifting ropes enter the shell from the upper inner walls of the lifting cavities respectively, pressing block cavities with rightward openings are arranged on the lower left inner walls of the seven lifting cavities except the leftmost lifting cavity, pressing blocks are arranged in the pressing block cavities in a sliding mode, and pressing block springs are connected between the left end faces of the pressing blocks and the left inner walls of the pressing block cavities, the left end face of each pressing block is connected with one end of a detection rope, and the detection ropes respectively enter the shell from the left inner wall of each pressing block cavity.

4. A light emitting diode storage case as set forth in claim 3, wherein: the storage mechanism comprises connecting rods which are respectively arranged on the front end faces of the lifting blocks and extend into the storage cavities, the front ends of the eight connecting rods are respectively provided with a base, the upper end face of the leftmost base is provided with a baffle plate, the upper sides of other bases are respectively provided with a storage plate, the left end face of each storage plate is provided with a storage cavity with a left opening, the lower end face of each storage plate is provided with a limiting cavity with an upward opening, the upper end face of each base is provided with a limiting rod extending into the limiting cavity, a storage spring is connected between the upper end face of each base and the lower end face of each storage plate, the lower end face of each storage plate is connected with one end of a storage rope, the storage rope enters the corresponding base from the upper end face of each base, and the rear end faces of other lifting blocks except the leftmost lifting blocks are respectively provided with a pop-up cavity with a backward opening, the pop-up cavity is internally provided with a pop-up block in a sliding mode, pop-up springs are arranged between the front end face of the pop-up block and the front inner wall of the pop-up cavity, the other end of a storage rope is connected to the front end face of the pop-up block, the storage rope enters the inside of the lifting block from the front inner wall of the pop-up cavity, a press-block cavity with a forward opening is arranged on the rear inner wall of all other lifting cavities except the leftmost lifting cavity, a press block is arranged in the press-block cavity in a sliding mode, the rear end face of the press block and the rear inner wall of the press-block cavity are connected with the press-block springs, a connecting block is arranged on the upper end face of the left side of the press block, the other end of a control rope is connected to the front end face of the connecting block, and the control rope enters the.

5. A light emitting diode storage case as set forth in claim 4, wherein: switching mechanism is including being located two engaging lugs in front and back on the casing right side up end, it is equipped with the connecting axle to rotate between an engaging lug, fixed connection is equipped with the apron on the connecting axle, the right side of apron is equipped with the apron chamber, the front side of connecting axle is equipped with preceding rope winding wheel, be connected with the one end of pulling rope on the preceding rope winding wheel, just the pulling rope is walked around follow behind the preceding rope winding wheel enter into on the up end of casing within the casing, the rear end of connecting axle is equipped with back rope winding wheel, be connected with the other end of fixture block rope on the back rope winding wheel, the fixture block rope is followed enter into on the up end of casing within the casing.

6. A light emitting diode storage case as set forth in claim 5, wherein: the detection mechanism comprises a detection plate arranged in the detection cavity in a sliding manner, a detection spring is connected between the upper end surface of the detection plate and the upper inner wall of the detection cavity, the upper end surface of the detection plate is connected with the other end of a pulling rope, the pulling rope enters the shell from the upper inner wall of the detection cavity, the right side of the detection cavity is provided with a motion-proof cavity, a motion-proof plate is arranged in the motion-proof cavity in a sliding manner, a motion-proof spring is connected between the lower end surface of the motion-proof plate and the lower inner wall of the motion-proof cavity, the lower end surface of the motion-proof plate is connected with the other end of all detection ropes, the detection ropes enter the shell from the lower inner wall of the motion-proof cavity, push rods extending into the transmission cavity are arranged on the upper end surface of the left side of the motion-proof plate and the upper end surface of the right side of the detection plate, and push blocks are arranged, the upper end surface of the push block is provided with a roller cavity with an upward opening, the left inner wall and the right inner wall of the roller cavity are rotatably provided with rolling shafts, the rolling shafts are provided with rollers, the rollers are contacted with the upper inner wall of the clamping cavity, the left inner wall of the detection cavity is provided with a pressing cavity with a rightward opening, the pressing cavity is internally provided with a pressing block in a sliding manner, the left end surface of the pressing block is connected with the other ends of seven ejection ropes, the ejection ropes enter the machine shell from the left inner wall of the pressing cavity, the lower end surface of the right side of the pressing block inclines rightwards, a pressing spring is connected between the left end surface of the pressing block and the left inner wall of the pressing cavity, the lower end surface of the anti-moving plate is connected with a linkage rope, the linkage rope enters the machine shell from the lower inner wall of the anti-moving cavity, and the upper end surface of the detection plate is connected with the other end of the linkage rope, the linkage rope enters the shell from the upper inner wall of the detection cavity.

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