CN113371280A - Lamp part subpackaging equipment - Google Patents

Abstract

The invention relates to the field of lamps, in particular to lamp part subpackaging equipment. The lamp parts can be separated singly, and the lamp parts can be packaged singly; the size of the lamp parts can be carried according to the actual situation. The automatic packaging machine comprises a packaging assembly, a carrying assembly and a driving assembly, wherein the packaging assembly is connected with the carrying assembly, and the carrying assembly is connected with the driving assembly. Can rotate manual bull stick relatively, and then drive the motion of drive bull stick through manual bull stick, and then drive through the drive bull stick and adjust the straight-teeth motion, and then drive through adjusting the straight-teeth and adjust the rack motion, and then drive the drive boss through adjusting the rack and along a straight-teeth axle endwise slip, and then drive the motion of middle-end driving-disc through the drive boss, and then make the distance between middle-end driving-disc and the upper end driving-disc change.

Description

Lamp part subpackaging equipment

Technical Field

The invention relates to the field of lamps, in particular to lamp part subpackaging equipment.

Background

For example, patent No. CN201710727371.3 discloses a welding mold for lamp part processing, which comprises a conveying unit, a welding unit disposed at the rear side of the conveying unit, a cooling unit, and an exhaust gas recovery unit disposed between the welding unit and the cooling unit; the welding unit comprises a bracket and a welding device; the conveying unit comprises a first conveying device and a second conveying device, the first conveying device comprises a left conveying table, a right conveying table and a displacement adjusting device for adjusting the space between the left conveying table and the right conveying table, and a conveying piece is arranged on each of the left conveying table and the right conveying table; the second conveying device comprises two symmetrically arranged supporting arms and a conveying belt arranged on the supporting arms, but the technical scheme has the defect that the size of the carried lamp parts cannot be adjusted according to the actual use condition.

Disclosure of Invention

The invention aims to provide lamp part split charging equipment which can realize single separation of lamp parts and is convenient for single packaging of the lamp parts; the size of the lamp parts can be carried according to the actual situation.

The purpose of the invention is realized by the following technical scheme:

the lamp part subpackaging equipment comprises a subpackaging assembly, a carrying assembly and a driving assembly, wherein the subpackaging assembly is connected with the carrying assembly, and the carrying assembly is connected with the driving assembly.

As a further optimization of the technical scheme, the invention relates to lamp part split charging equipment, which comprises a split charging support, a middle-end driving disk, an upper-end driving disk, a feeding pipe, a feeding sleeve pipe, a matching plate, a first straight tooth shaft, a second half straight tooth, a second straight tooth shaft, a first bevel tooth, a second bevel tooth, a driving friction wheel, a first bevel tooth shaft, a driving rotating rod, an adjusting straight tooth, a turning cover, a passive matching rod, an expansion sleeve pipe, a driving boss, a driving groove, an adjusting rack, a manual rotating rod, a first inner end clamping rod pushing spring, a first inner end clamping groove and a semicircular boss, wherein the feeding sleeve pipe is arranged on the upper-end driving disk, the feeding pipe is communicated with the feeding sleeve pipe, the first straight tooth shaft is fixedly connected with the upper-end driving disk, the first straight tooth shaft is rotatably connected with the split charging support, the middle-end driving disk is slidably connected with the first straight tooth shaft, and the first straight tooth shaft is fixedly connected with the straight tooth shaft, the matching plate is fixedly connected with a first straight tooth, a second half straight tooth is in meshing transmission with the first straight tooth, the second half straight tooth is fixedly connected with a semicircular boss, the semicircular boss is in matching connection with the matching plate, a second straight tooth shaft is fixedly connected with the second half straight tooth, a first bevel tooth is in matching connection with a second straight tooth shaft, the second straight tooth shaft is in rotating connection with the subpackaging bracket, a first bevel tooth is in meshing transmission with a second bevel tooth, the second bevel tooth is fixedly connected with a first bevel tooth shaft, the first bevel tooth shaft is in rotating connection with the subpackaging bracket, a driving friction wheel is fixedly connected with the first bevel tooth shaft, a driving rotating rod is in rotating connection with the subpackaging bracket, a regulating straight tooth is fixedly connected with the driving rotating rod, the manual rotating rod is fixedly connected with the driving rotating rod, a first inner clamping groove is formed in the subpackaging bracket, a first inner clamping rod is in matching connection with the first inner clamping groove, a first inner clamping rod is in sliding connection with the manual rotating rod, a first inner clamping rod push spring is arranged between the first inner clamping rod and the manual rotating rod, the material sleeve pipe is connected with the extension sleeve pipe in a sliding mode, the extension sleeve pipe is fixedly connected with the middle-end driving disk, the material turning cover is fixedly connected with the passive matching rod, the passive matching rod is connected with the extension sleeve pipe in a hinged mode, the passive matching rod is connected with the driving boss in a matched mode, the driving groove is formed in the driving boss, the driving boss is connected with the middle-end driving disk in a rotating mode, the driving boss is fixedly connected with the adjusting rack, the adjusting rack is connected with the subpackaging support in a sliding mode, the adjusting rack is in meshed transmission with the adjusting straight teeth, and the driving boss is connected with the subpackaging support in a sliding mode.

As further optimization of the technical scheme, the lamp part subpackaging equipment is characterized in that the contact surface of the middle-end driving disc and the straight tooth shaft I is non-circular, and the material turning cover is matched with the specification of the extension sleeve.

As a further optimization of the technical scheme, the invention relates to lamp part split charging equipment, which comprises a carrying component, a plurality of fixed connecting columns, a carrying belt, a side wall bracket, a first belt, a middle end rotating shaft, a middle end buffer spring, roller sleeves and a middle end rotor, wherein the fixed connecting columns are arranged and are fixedly connected with the carrying bracket, the middle end rotating shaft is rotatably connected with the carrying bracket, the middle end rotor is fixedly connected with the middle end rotating shaft, one end of the middle end buffer spring is connected with the middle end rotor, the other end of the middle end buffer spring is connected with the roller sleeves, the number of the roller sleeves is two, the carrying belt is connected between the two roller sleeves, the first belt is connected between the middle end rotating shaft, the side wall bracket is fixedly connected with the carrying bracket, the split charging bracket is fixedly connected with the carrying bracket, and a feeding pipe is fixedly connected with the side wall bracket, the driving friction wheel is in friction transmission with the inner wall of the carrying belt.

As a further optimization of the technical scheme, the invention relates to lamp part split charging equipment, wherein a driving assembly comprises a driving support, a middle end door-shaped support, a driving belt wheel shaft, a clutch plate I, a clutch plate II, a clutch slide rod push spring, a middle end driving wheel I, a middle end driving wheel II, a middle end driving bevel gear I, a middle end driving bevel gear II, a middle end driving rod, a middle end driving disc, an adjusting slide block, an input motor, a middle end driving bevel gear III, a spherical clamping rod I, a spherical clamping rod push spring I, a spherical clamping groove I and a middle end driving bevel gear IV, the middle end door-shaped support is fixedly connected with the driving support, the driving belt wheel shaft is fixedly connected with the driving belt wheel shaft, the driving belt wheel shaft is rotatably connected with the driving support, the clutch plate I is fixedly connected with the driving belt wheel shaft, the clutch plate I is connected with the clutch plate II in a matching way, and the clutch slide rod is connected with the clutch plate II in a sliding way, a clutch slide bar push spring is connected with the clutch slide bar in a sleeved mode, the clutch slide bar push spring is arranged between a second plywood and a middle end door-shaped bracket, the clutch slide bar is fixedly connected with a middle end transmission rod, a middle end transmission wheel I and a middle end transmission wheel II are both rotatably connected with the middle end door-shaped bracket, the middle end transmission bevel gear I and the middle end transmission wheel II are both rotatably connected with the middle end transmission rod, a middle end transmission bevel gear II is fixedly connected with the middle end transmission wheel II, a middle end transmission bevel gear IV is fixedly connected with the middle end transmission wheel I, the middle end transmission bevel gear I is rotatably connected with the middle end transmission rod, a middle end transmission bevel gear III is in meshing transmission with the middle end transmission bevel gear II, the middle end transmission bevel gear II is in meshing transmission with the middle end transmission bevel gear III, the middle end transmission bevel gear III is in meshing transmission with the middle end transmission bevel gear IV, and the middle end transmission bevel gear I and the middle end transmission wheel II are both in friction transmission with a middle end transmission disc, the middle-end transmission disc is fixedly connected with an output shaft of the input motor, the input motor is fixedly connected with the adjusting slider, the adjusting slider is connected with the driving support in a sliding mode, the first spherical clamping groove is formed in the driving support, the first spherical clamping rod is connected with the adjusting slider in a sliding mode, the first spherical clamping rod pushing spring is arranged between the first spherical clamping rod and the adjusting slider, the driving support is fixedly connected with the fixed connection column, and the transmission belt wheel is connected with the first belt in a matching mode.

The lamp part subpackaging equipment has the beneficial effects that:

according to the lamp part split charging equipment, the manual rotating rod can be relatively rotated, the manual rotating rod drives the driving rotating rod to move, the driving rotating rod drives the adjusting straight teeth to move, the adjusting rack is driven by the adjusting straight teeth to move, the adjusting rack drives the driving boss to axially slide along the straight tooth shaft, the driving boss drives the middle-end driving disk to move, the distance between the middle-end driving disk and the upper-end driving disk is changed, the specifications of lamp parts capable of being adapted among the feeding sleeve, the expansion sleeve and the material overturning cover are changed, and lamp parts of different specifications are conveniently carried.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a first general structural diagram of the present invention;

FIG. 2 is a second overall structural schematic of the present invention;

figure 3 is a first schematic structural view of the dispensing assembly 1 of the present invention;

figure 4 is a schematic structural view II of the dispensing assembly 1 of the present invention;

figure 5 is a schematic view three of the construction of the racking assembly 1 of the present invention;

figure 6 is a fourth schematic structural view of the racking assembly 1 of the present invention;

figure 7 is a schematic diagram five of the construction of the racking assembly 1 of the present invention;

FIG. 8 is a first schematic view of the structure of the carrier assembly 2 of the present invention;

FIG. 9 is a second schematic structural view of the carrier assembly 2 of the present invention;

FIG. 10 is a first schematic structural diagram of the driving assembly 3 of the present invention;

FIG. 11 is a second structural view of the driving assembly 3 of the present invention;

fig. 12 is a third structural schematic diagram of the driving assembly 3 of the present invention.

In the figure: a dispensing assembly 1; subpackage support 1-1; a middle drive disc 1-2; an upper end drive disk 1-3; a feeding pipe 1-4; feeding a sleeve 1-5; 1-6 of matching plates; 1-7 of straight teeth I; 1-8 of a straight gear shaft I; 1-9 parts of semi-straight teeth II; 1-10 parts of a straight gear shaft II; 1-11 parts of a first bevel gear; 1-12 parts of a second bevel gear; driving friction wheels 1-13; 1-14 parts of a bevel gear shaft I; driving the rotating rod 1-15; adjusting straight teeth by 1-16; 1-17 of a material turning cover; passive mating bars 1-18; expansion sleeves 1-19; 1-20 of a driving boss; drive grooves 1-21; adjusting racks 1-22; manual rotating rods 1-23; the inner end clamping rod I is 1-24; the inner end clamping rod pushes the spring 1-25; a first clamping groove 1-26 at the inner end; 1-27 of semicircular bosses; a carrier assembly 2; a carrying bracket 2-1; a fixed connecting column 2-2; a carrier belt 2-3; 2-4 of a side wall bracket; 2-5 parts of a first belt; 2-6 of a middle-end rotating shaft; 2-7 of a middle buffer spring; 2-8 parts of roller sleeves; 2-9 of middle-end rotor; a drive assembly 3; a drive bracket 3-1; a middle end door type bracket 3-2; a driving pulley 3-3; 3-4 of a transmission belt wheel shaft; 3-5 parts of a clutch plate I; 3-6 of a clutch plate II; 3-7 of a clutch slide bar; 3-8 parts of clutch slide bar push spring; 3-9 parts of a middle-end driving wheel; 3-10 parts of a middle-end driving wheel II; the middle-end transmission bevel gear I is 3-11; 3-12 parts of a middle-end transmission bevel gear II; a middle drive rod 3-13; 3-14 parts of a middle-end transmission disc; 3-15 parts of an adjusting slide block; input motors 3-16; 3-17 parts of middle-end transmission bevel gear III; 3-18 parts of a spherical clamping rod I; a first spherical clamping rod push spring is 3-19; 3-20 parts of a spherical clamping groove I; and the middle end drives the bevel gear four 3-21.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The fixed connection in the device is realized by fixing in modes of welding, thread fixing and the like, and different fixing modes are used in combination with different use environments; the rotary connection means that the bearing is arranged on the shaft in a drying mode, a spring retainer ring groove is formed in the shaft or the shaft hole, and the elastic retainer ring is clamped in the retainer ring groove to achieve axial fixation of the bearing and achieve rotation; the sliding connection refers to the connection through the sliding of the sliding block in the sliding groove or the guide rail, and the sliding groove or the guide rail is generally in a step shape, so that the sliding block is prevented from falling off in the sliding groove or the guide rail; the hinge joint is a movable connection mode on connecting parts such as a hinge, a pin shaft, a short shaft and the like; the required sealing positions are sealed by sealing rings or O-shaped rings.

The first embodiment is as follows:

the following describes the present embodiment with reference to fig. 1 to 12, and a lamp part separate loading apparatus includes a separate loading assembly 1, a carrying assembly 2, and a driving assembly 3, where the separate loading assembly 1 is connected to the carrying assembly 2, and the carrying assembly 2 is connected to the driving assembly 3.

The second embodiment is as follows:

the first embodiment is further described with reference to fig. 1-12, and the dispensing assembly 1 includes a dispensing bracket 1-1, a middle end driving disk 1-2, an upper end driving disk 1-3, a material inlet pipe 1-4, a material inlet sleeve 1-5, a matching plate 1-6, a straight tooth first 1-7, a straight tooth first 1-8, a half straight tooth second 1-9, a straight tooth second 1-10, a conical tooth first 1-11, a conical tooth second 1-12, a driving friction wheel 1-13, a conical tooth first 1-14, a driving rotating rod 1-15, an adjusting straight tooth 1-16, a material turning cover 1-17, a passive matching rod 1-18, an expanding sleeve 1-19, a driving boss 1-20, a driving groove 1-21, an adjusting rack 1-22, The manual rotating rod 1-23, the inner end clamping rod 1-24, the inner end clamping rod push spring 1-25, the inner end clamping groove 1-26 and the semicircular boss 1-27, the material sleeve 1-5 is arranged on the upper end driving disk 1-3, the material inlet pipe 1-4 is communicated with the material sleeve 1-5, the straight tooth shaft 1-8 is fixedly connected with the upper end driving disk 1-3, the straight tooth shaft 1-8 is rotatably connected with the subpackaging bracket 1-1, the middle end driving disk 1-2 is slidably connected with the straight tooth shaft 1-8, the straight tooth shaft 1-7 is fixedly connected with the straight tooth shaft 1-8, the matching plate 1-6 is fixedly connected with the straight tooth shaft 1-7, the half straight tooth second 1-9 is in meshing transmission with the straight tooth first 1-7, and the half straight tooth second 1-9 is fixedly connected with the semicircular boss 1-27, the semicircular bosses 1-27 are matched and connected with the matching plates 1-6, the straight-tooth shafts 1-10 are fixedly connected with the half straight-tooth shafts 1-9, the bevel teeth 1-11 are matched and connected with the straight-tooth shafts 1-10, the straight-tooth shafts 1-10 are rotatably connected with the subpackaging bracket 1-1, the bevel teeth 1-11 are meshed and driven with the bevel teeth 1-12, the bevel teeth 1-12 are fixedly connected with the bevel-tooth shafts 1-14, the bevel-tooth shafts 1-14 are rotatably connected with the subpackaging bracket 1-1, the driving friction wheels 1-13 are fixedly connected with the bevel-tooth shafts 1-14, the driving rotating rods 1-15 are rotatably connected with the subpackaging bracket 1-1, the adjusting straight teeth 1-16 are fixedly connected with the driving rotating rods 1-15, the manual rotating rods 1-23 are fixedly connected with the driving rotating rods 1-15, an inner end clamping groove I1-26 is arranged on the split charging support 1-1, an inner end clamping rod I1-24 is matched and connected with the inner end clamping groove I1-26, an inner end clamping rod I1-24 is slidably connected with a manual rotating rod 1-23, an inner end clamping rod push spring I1-25 is arranged between the inner end clamping rod I1-24 and the manual rotating rod 1-23, a material sleeve 1-5 is slidably connected with an extension sleeve 1-19, an extension sleeve 1-19 is fixedly connected with a middle end driving disk 1-2, a material turning cover 1-17 is fixedly connected with a passive matching rod 1-18, the passive matching rod 1-18 is hinged and connected with the extension sleeve 1-19, the passive matching rod 1-18 is matched and connected with a driving boss 1-20, and a driving groove 1-21 is arranged on the driving boss 1-20, the driving boss 1-20 is rotationally connected with the middle-end driving disc 1-2, the driving boss 1-20 is fixedly connected with the adjusting rack 1-22, the adjusting rack 1-22 is slidably connected with the subpackaging bracket 1-1, the adjusting rack 1-22 is in meshing transmission with the adjusting straight teeth 1-16, and the driving boss 1-20 is slidably connected with the subpackaging bracket 1-1;

putting lamps into feeding pipes 1-4 in batches; meanwhile, the manual rotating rods 1-23 can be rotated relatively, the manual rotating rods 1-23 drive the driving rotating rods 1-15 to move, the driving rotating rods 1-15 drive the adjusting straight teeth 1-16 to move, the adjusting straight teeth 1-16 drive the adjusting racks 1-22 to move, the adjusting racks 1-22 drive the driving bosses 1-20 to axially slide along the straight tooth shafts 1-8, the driving bosses 1-20 drive the middle driving disk 1-2 to move, the distance between the middle driving disk 1-2 and the upper driving disk 1-3 is changed, and the specifications of the lamp parts capable of being adapted among the feeding sleeve 1-5, the expanding sleeve 1-19 and the turning cover 1-17 are generated, thereby being convenient for carrying lamp parts with different specifications.

The third concrete implementation mode:

the embodiment is described below by combining fig. 1-12, and the embodiment is further described, wherein the contact surface of the middle end driving disk 1-2 and the straight-tooth shaft I1-8 is non-circular, and the material turning cover 1-17 is matched with the specification of the expansion sleeve 1-19.

The fourth concrete implementation mode:

the embodiment is described below with reference to fig. 1-12, and the embodiment further describes the first embodiment, where the carrier assembly 2 includes a carrier bracket 2-1, a plurality of fixed connection columns 2-2, a carrier belt 2-3, a sidewall bracket 2-4, a belt one 2-5, a middle end rotating shaft 2-6, a middle end buffer spring 2-7, a roller sleeve 2-8, and a middle end rotor 2-9, the fixed connection columns 2-2 are provided in plurality, and the fixed connection columns 2-2 are all fixedly connected with the carrier bracket 2-1, the middle end rotating shaft 2-6 is rotatably connected with the carrier bracket 2-1, the middle end rotor 2-9 is fixedly connected with the middle end rotating shaft 2-6, one end of the middle end buffer spring 2-7 is connected with the middle end rotor 2-9, the other end of the middle buffer spring 2-7 is connected to the roller sleeves 2-8, the number of the roller sleeves 2-8 is two, the carrying belt 2-3 is connected between the two roller sleeves 2-8, the belt I2-5 is connected between the middle rotating shaft 2-6, the side wall support 2-4 is fixedly connected with the carrying support 2-1, the split charging support 1-1 is fixedly connected with the carrying support 2-1, the feeding pipe 1-4 is fixedly connected with the side wall support 2-4, and the driving friction wheels 1-13 are in friction transmission with the inner wall of the carrying belt 2-3.

The fifth concrete implementation mode:

the embodiment is described below with reference to fig. 1-12, and the embodiment will be further described, wherein the driving assembly 3 includes a driving bracket 3-1, a middle end gate type bracket 3-2, a driving pulley 3-3, a driving pulley shaft 3-4, a clutch plate I3-5, a clutch plate II 3-6, a clutch slide bar 3-7, a clutch slide bar push spring 3-8, a middle end driving wheel I3-9, a middle end driving wheel II 3-10, a middle end driving cone tooth I3-11, a middle end driving cone tooth II 3-12, a middle end driving rod 3-13, a middle end driving disc 3-14, an adjusting slider 3-15, an input motor 3-16, a middle end driving cone tooth III 3-17, a spherical clamping rod I3-18, a spherical clamping rod push spring I3-19, a spherical clamping rod push spring II 3-9, a spring II, 3-20 parts of a spherical clamping groove I and 3-21 parts of a middle-end transmission bevel gear, wherein a middle-end door type bracket 3-2 is fixedly connected with a driving bracket 3-1, a transmission belt wheel 3-3 is fixedly connected with a transmission belt wheel shaft 3-4, the transmission belt wheel shaft 3-4 is rotatably connected with the driving bracket 3-1, a clutch plate I3-5 is fixedly connected with the transmission belt wheel shaft 3-4, a clutch plate I3-5 is connected with a clutch plate II 3-6 in a matching way, a clutch slide rod 3-7 is connected with the clutch plate II 3-6 in a sliding way, a clutch slide rod push spring 3-8 is connected with the clutch slide rod 3-7 in a sleeving way, the clutch slide rod push spring 3-8 is arranged between the clutch plate II 3-6 and the middle-end door type bracket 3-2, the clutch slide rod 3-7 is fixedly connected with a middle-end transmission rod 3-13, the middle end driving wheel I3-9 and the middle end driving wheel II 3-10 are rotationally connected with the middle end door type bracket 3-2, the middle end driving wheel I3-9 and the middle end driving wheel II 3-10 are rotationally connected with the middle end transmission rod 3-13, the middle end transmission bevel gear II 3-12 is fixedly connected with the middle end driving wheel II 3-10, the middle end transmission bevel gear IV 3-21 is fixedly connected with the middle end driving wheel I3-9, the middle end transmission bevel gear I3-11 is rotationally connected with the middle end transmission rod 3-13, the middle end transmission bevel gear III 3-17 is rotationally connected with the middle end transmission rod 3-13, the middle end transmission bevel gear I3-11 is engaged with the middle end transmission bevel gear II 3-12, the middle end transmission bevel gear II 3-12 is engaged with the middle end transmission bevel gear III 3-17, the middle end transmission bevel gear III 3-17 is engaged with the middle end transmission bevel gear IV 3-21, the middle-end driving wheel I3-9 and the middle-end driving wheel II 3-10 are in friction transmission with the middle-end driving disc 3-14, the middle-end driving disc 3-14 is fixedly connected with an output shaft of the input motor 3-16, the input motor 3-16 is fixedly connected with the adjusting slider 3-15, the adjusting slider 3-15 is in sliding connection with the driving bracket 3-1, the spherical clamping groove I3-20 is arranged on the driving bracket 3-1, the spherical clamping rod I3-18 is in sliding connection with the adjusting slider 3-15, the spherical clamping rod push spring I3-19 is arranged between the spherical clamping rod I3-18 and the adjusting slider 3-15, the driving bracket 3-1 is fixedly connected with the fixed connecting column 2-2, and the driving belt wheel 3-3 is in matching connection with the belt wheel I2-5.

The invention relates to lamp part subpackaging equipment, which has the working principle that:

when in use, the input motor 3-16 is started, the middle end transmission disk 3-14 is driven to rotate by the input motor 3-16, the middle end transmission wheel I3-9 and the middle end transmission wheel II 3-10 are driven to move simultaneously by the middle end transmission disk 3-14, the middle end transmission bevel gear II 3-12 is driven to move by the middle end transmission wheel II 3-10, the middle end transmission bevel gear IV 3-21 is driven to move by the middle end transmission wheel I3-9, the middle end transmission bevel gear I3-11 and the middle end transmission bevel gear III 3-17 are driven to move simultaneously by the middle end transmission bevel gear IV 3-21 and the middle end transmission bevel gear II 3-12, the middle end transmission bevel gear I3-11 and the middle end transmission bevel gear III 3-17 are driven to move simultaneously by the speed difference of the middle end transmission wheel II 3-10 of the middle end transmission wheel I3-9, the middle-end transmission bevel gear 3-11 and the middle-end transmission bevel gear 3-17 drive the middle-end transmission rod 3-13 to move simultaneously, the middle-end transmission rod 3-13 drives the clutch slide rod 3-7 to move, the clutch slide rod 3-7 drives the clutch plate 3-6 to move, the clutch plate 3-6 drives the clutch plate one 3-5 to move, the clutch plate one 3-5 drives the transmission belt wheel shaft 3-4 to move, the transmission belt wheel shaft 3-4 drives the transmission belt wheel 3-3 to move, and the transmission belt wheel 3-3 is convenient to output power; meanwhile, the sliding blocks 3-15 and the driving bracket 3-1 can be relatively adjusted, so that the transmission positions of the middle-end transmission discs 3-14 are correspondingly changed, the speed difference of the middle-end transmission wheels 3-10 of the middle-end transmission wheels 3-9 is relatively changed, and the output speed of the transmission belt wheels 3-3 is changed through the disclosed transmission relation; in the implementation process, the adjusting slide blocks 3-15 can slide towards two sides along the driving support 3-1, the middle end position of the sliding path of the adjusting slide blocks 3-15 is a speed minimum point, the two ends of the sliding path of the adjusting slide blocks 3-15 are speed maximum points, but the output directions through the driving belt wheels 3-3 are opposite, when forward machining is required, only one side is required to slide, but when reverse movement is required, the transition points can be crossed according to actual requirements and the transition points can slide reversely; meanwhile, the transmission belt wheel 3-3 drives the belt I2-5 to move, further drives the middle end rotating shaft 2-6 to move through the belt I2-5, further drives the middle end buffer spring 2-7 to move through the middle end rotating shaft 2-6, further drives the roller sleeve 2-8 to move through the middle end buffer spring 2-7, and further drives the carrying belt 2-3 to move through the roller sleeve 2-8; meanwhile, the carrier belt 2-3 moves to drive the driving friction wheels 1-13 to move through friction force, further the driving friction wheels 1-13 drive the bevel gear shafts 1-14 to move, further the bevel gear shafts 1-14 drive the bevel gears 1-12 to move, further the bevel gears 1-11 drive the bevel gears 1-11 to move, further the bevel gears 1-11 drive the straight gear shafts 1-10 to move, further the straight gear shafts 1-10 drive the half straight gears 1-9 to move, further the half straight gear shafts 1-9 drive the straight gear shafts 1-7 to move, simultaneously, the half straight gear shafts 1-9 drive the straight gear shafts 1-7 to rotate for half a circle and disengage, simultaneously, the semicircular bosses 1-27 are in fit connection with the matching plates 1-6, the semicircular bosses 1-27 are connected with the matching plates 1-6 in a matching way to keep the straight teeth I1-7 not rotating, the straight teeth I1-7 drive the straight teeth I1-8 to move, the straight teeth I1-8 drive the upper end drive disc 1-3 to move, the upper end drive disc 1-3 drive the feeding sleeve 1-5 to move, the feeding sleeve 1-5 drive the expanding sleeve 1-19 to move, the expanding sleeve 1-19 drive the middle end drive disc 1-2 to move simultaneously with the upper end drive disc 1-3, and the upper end drive disc 1-3 drive the passive matching rods 1-18 to move through the expanding sleeve 1-19, so that the passive matching rods 1-18 slide on the drive bosses 1-20, when the passive matching rod 1-18 is in contact with the driving groove 1-21 on the driving boss 1-20, the turning cover 1-17 is turned downwards under the action of the gravity of the lamp part, so that the turning cover 1-17 is separated from the extension sleeve 1-19, the lamp part in the extension sleeve 1-19 falls, and meanwhile, the lamp part is separated from the extension sleeve 1-19 fully through the time that the straight teeth I1-7 are not in contact with the half straight teeth II 1-9, and then the lamp part falls on the carrying belt 2-3 conveniently, and further the transportation of the lamp part is realized conveniently; meanwhile, with the meshing of the first half straight teeth 1-7 and the second half straight teeth 1-9 in the next period, the first half straight teeth 1-7 are enabled to rotate for a half circle again, further the driven matching rods 1-18 and the driving grooves 1-21 are enabled to be contacted and sealed, and the turning cover 1-17 and the extension sleeve 1-19 are enabled to be contacted and sealed, so that the lamp parts can be stored conveniently in the next time; meanwhile, lamps are put into the feeding pipes 1-4 in batches; meanwhile, the manual rotating rods 1-23 can be rotated relatively, the manual rotating rods 1-23 drive the driving rotating rods 1-15 to move, the driving rotating rods 1-15 drive the adjusting straight teeth 1-16 to move, the adjusting straight teeth 1-16 drive the adjusting racks 1-22 to move, the adjusting racks 1-22 drive the driving bosses 1-20 to axially slide along the straight tooth shafts 1-8, the driving bosses 1-20 drive the middle driving disk 1-2 to move, the distance between the middle driving disk 1-2 and the upper driving disk 1-3 is changed, and the specifications of the lamp parts capable of being adapted among the feeding sleeve 1-5, the expanding sleeve 1-19 and the turning cover 1-17 are generated, and then conveniently carry the lamps and lanterns part of not using the specification, the single separation of part to batch lamps and lanterns of realization here, and then realize the single encapsulation to lamps and lanterns part.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (5)

1. The utility model provides a lamps and lanterns part partial shipment equipment, includes partial shipment subassembly (1), delivery subassembly (2), drive assembly (3), its characterized in that: the split charging assembly (1) is connected with the carrying assembly (2), and the carrying assembly (2) is connected with the driving assembly (3).

2. A lamp component dispensing apparatus as claimed in claim 1, wherein: the split charging assembly (1) comprises a split charging support (1-1), a middle-end driving disc (1-2), an upper-end driving disc (1-3), a feeding pipe (1-4), a feeding sleeve (1-5), a matching plate (1-6), a first straight tooth (1-7), a first straight tooth shaft (1-8), a second half straight tooth (1-9), a second straight tooth shaft (1-10), a first conical tooth (1-11), a second conical tooth (1-12), a driving friction wheel (1-13), a first conical tooth shaft (1-14), a driving rotating rod (1-15), an adjusting straight tooth (1-16), a material turning cover (1-17), a passive matching rod (1-18), an extension sleeve (1-19), a driving boss (1-20), a driving groove (1-21), An adjusting rack (1-22), a manual rotating rod (1-23), an inner end clamping rod I (1-24), an inner end clamping rod push spring I (1-25), an inner end clamping groove I (1-26) and a semicircular boss (1-27), wherein a material sleeve (1-5) is arranged on an upper end driving disk (1-3), a material feeding pipe (1-4) is communicated with the material sleeve (1-5), a straight tooth shaft I (1-8) is fixedly connected with the upper end driving disk (1-3), the straight tooth shaft I (1-8) is rotatably connected with a sub-packaging bracket (1-1), a middle end driving disk (1-2) is slidably connected with the straight tooth shaft I (1-8), the straight tooth shaft I (1-7) is fixedly connected with the straight tooth shaft I (1-8), a matching plate (1-6) is fixedly connected with the straight tooth shaft I (1-7), the half straight-tooth second (1-9) is in meshing transmission with the straight-tooth first (1-7), the half straight-tooth second (1-9) is fixedly connected with the semicircular lug boss (1-27), the semicircular lug boss (1-27) is in matching connection with the matching plate (1-6), the straight-tooth shaft second (1-10) is fixedly connected with the half straight-tooth second (1-9), the bevel gear first (1-11) is in matching connection with the straight-tooth shaft second (1-10), the straight-tooth shaft second (1-10) is in rotating connection with the split charging support (1-1), the bevel gear first (1-11) is in meshing transmission with the bevel gear second (1-12), the bevel gear second (1-12) is fixedly connected with the bevel gear shaft first (1-14), the bevel gear shaft first (1-14) is in rotating connection with the split charging support (1-1), the driving friction gear (1-13) is fixedly connected with the bevel gear shaft first (1-14), the driving rotating rods (1-15) are rotatably connected with the split charging support (1-1), the adjusting straight teeth (1-16) are fixedly connected with the driving rotating rods (1-15), the manual rotating rods (1-23) are fixedly connected with the driving rotating rods (1-15), inner end clamping grooves I (1-26) are arranged on the split charging support (1-1), inner end clamping rods I (1-24) are matched and connected with the inner end clamping grooves I (1-26), inner end clamping rods I (1-24) are slidably connected with the manual rotating rods (1-23), inner end clamping rod push springs I (1-25) are arranged between the inner end clamping rods I (1-24) and the manual rotating rods (1-23), the material sleeves (1-5) are slidably connected with the expansion sleeves (1-19), the expansion sleeves (1-19) are fixedly connected with the middle-end driving disk (1-2), the overturning cover (1-17) is fixedly connected with a passive matching rod (1-18), the passive matching rod (1-18) is hinged with an extension sleeve (1-19), the passive matching rod (1-18) is matched and connected with a driving boss (1-20), a driving groove (1-21) is formed in the driving boss (1-20), the driving boss (1-20) is rotatably connected with a middle-end driving disk (1-2), the driving boss (1-20) is fixedly connected with an adjusting rack (1-22), the adjusting rack (1-22) is slidably connected with the sub-packaging support (1-1), the adjusting rack (1-22) is in meshing transmission with an adjusting straight tooth (1-16), and the driving boss (1-20) is slidably connected with the sub-packaging support (1-1).

3. A lamp component dispensing apparatus as claimed in claim 2, wherein: the contact surface of the middle driving disc (1-2) and the straight-tooth shaft I (1-8) is non-circular, and the specification of the material turning cover (1-17) is matched with that of the extension sleeve (1-19).

4. A lamp component dispensing apparatus as claimed in claim 1, wherein: the carrying assembly (2) comprises a carrying bracket (2-1), fixed connecting columns (2-2), a carrying belt (2-3), side wall brackets (2-4), a belt I (2-5), a middle end rotating shaft (2-6), middle end buffer springs (2-7), roller sleeves (2-8) and middle end rotors (2-9), wherein the number of the fixed connecting columns (2-2) is multiple, the fixed connecting columns (2-2) are fixedly connected with the carrying bracket (2-1), the middle end rotating shaft (2-6) is rotatably connected with the carrying bracket (2-1), the middle end rotors (2-9) are fixedly connected with the middle end rotating shaft (2-6), one end of each middle end buffer spring (2-7) is connected to each middle end rotor (2-9), the other end of the middle buffer spring (2-7) is connected to the roller sleeves (2-8), the number of the roller sleeves (2-8) is two, the carrying belt (2-3) is connected between the two roller sleeves (2-8), the first belt (2-5) is connected between the middle rotating shaft (2-6), the side wall supports (2-4) are fixedly connected with the carrying supports (2-1), the split charging supports (1-1) are fixedly connected with the carrying supports (2-1), the feeding pipes (1-4) are fixedly connected with the side wall supports (2-4), and the driving friction wheels (1-13) are in friction transmission with the inner walls of the carrying belts (2-3).

5. A lamp component dispensing apparatus as claimed in claim 1, wherein: the driving assembly (3) comprises a driving support (3-1), a middle end door type support (3-2), a driving belt wheel (3-3), a driving belt wheel shaft (3-4), a clutch plate I (3-5), a clutch plate II (3-6), a clutch slide rod (3-7), a clutch slide rod push spring (3-8), a middle end driving wheel I (3-9), a middle end driving wheel II (3-10), a middle end driving bevel gear I (3-11), a middle end driving bevel gear II (3-12), a middle end driving rod (3-13), a middle end driving disc (3-14), an adjusting slide block (3-15), an input motor (3-16), a middle end driving bevel gear III (3-17), a spherical clamping rod I (3-18), a spherical clamping rod push spring I (3-19), A first spherical clamping groove (3-20) and a fourth middle-end transmission bevel gear (3-21), wherein the middle-end portal type bracket (3-2) is fixedly connected with the driving bracket (3-1), the transmission belt wheel (3-3) is fixedly connected with the transmission belt wheel shaft (3-4), the transmission belt wheel shaft (3-4) is rotatably connected with the driving bracket (3-1), a first clutch plate (3-5) is fixedly connected with the transmission belt wheel shaft (3-4), a first clutch plate (3-5) is matched and connected with a second clutch plate (3-6), a second clutch plate (3-7) is slidably connected with a second clutch plate (3-6), a push spring (3-8) of the second clutch plate is connected with the push spring (3-7) in a sleeved mode, the push spring (3-8) of the second clutch plate (3-6) is arranged between the middle-end portal type bracket (3-2), the clutch slide bar (3-7) is fixedly connected with the middle end transmission rod (3-13), the middle end transmission wheel I (3-9) and the middle end transmission wheel II (3-10) are both rotationally connected with the middle end door-shaped bracket (3-2), the middle end transmission wheel I (3-9) and the middle end transmission wheel II (3-10) are both rotationally connected with the middle end transmission rod (3-13), the middle end transmission bevel gear II (3-12) is fixedly connected with the middle end transmission wheel II (3-10), the middle end transmission bevel gear IV (3-21) is fixedly connected with the middle end transmission wheel I (3-9), the middle end transmission bevel gear I (3-11) is rotationally connected with the middle end transmission rod (3-13), the middle end transmission bevel gear III (3-17) is rotationally connected with the middle end transmission rod (3-13), the middle end transmission bevel gear I (3-11) is meshed with the middle end transmission bevel gear II (3-12), the middle-end transmission bevel gear II (3-12) is in meshing transmission with the middle-end transmission bevel gear III (3-17), the middle-end transmission bevel gear III (3-17) is in meshing transmission with the middle-end transmission bevel gear IV (3-21), the middle-end transmission gear I (3-9) and the middle-end transmission gear II (3-10) are in friction transmission with the middle-end transmission disc (3-14), the middle-end transmission disc (3-14) is fixedly connected with an output shaft of an input motor (3-16), the input motor (3-16) is fixedly connected with an adjusting slide block (3-15), the adjusting slide block (3-15) is in sliding connection with the driving bracket (3-1), the spherical clamping groove I (3-20) is arranged on the driving bracket (3-1), and the spherical clamping rod I (3-18) is in sliding connection with the adjusting slide block (3-15), the spherical clamping rod push spring I (3-19) is arranged between the spherical clamping rod I (3-18) and the adjusting slide block (3-15), the driving support (3-1) is fixedly connected with the fixed connecting column (2-2), and the transmission belt wheel (3-3) is connected with the belt I (2-5) in a matching manner.

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