CN112958489B - Lighting lamp inspection equipment for quality inspection of lamps - Google Patents

Abstract

The invention relates to lighting lamp inspection equipment, in particular to lighting lamp inspection equipment for lamp quality inspection, which comprises a conveying mechanism, a rotary lamp mechanism, a lamp removing mechanism and a printing mechanism, wherein the conveying mechanism is connected with the rotary lamp mechanism, the rotary lamp mechanism is connected with the lamp removing mechanism, the lamp removing mechanism is connected with the conveying mechanism, the printing mechanism is connected with the conveying mechanism, the rotary lamp mechanism is connected with the printing mechanism, and the lamp removing mechanism is connected with the printing mechanism.

Description

Lighting lamp inspection equipment for quality inspection of lamps

Technical Field

The invention relates to an illuminating lamp inspection device, in particular to an illuminating lamp inspection device for quality inspection of lamps.

Background

In the process of lamp quality inspection, the process flow is more complicated, more personnel are needed for matching and completing, but no good illuminating lamp inspection equipment exists in the market, so that the illuminating lamp inspection equipment for lamp quality inspection is designed.

Disclosure of Invention

The invention mainly solves the technical problem of providing lighting lamp inspection equipment for lamp quality inspection, the equipment can convey a lamp to the other end of the equipment, the equipment can rotate the lamp into a power-on seat, the equipment can automatically rotate the unlighted lamp out of the power-on seat, the equipment can automatically inject printing paint into printing sponge, and the equipment can print quality inspection prints on the qualified lamp.

In order to solve the technical problem, the invention relates to lighting lamp inspection equipment, in particular to lighting lamp inspection equipment for lamp quality inspection.

The conveying mechanism is connected with the rotary lamp mechanism, the rotary lamp mechanism is connected with the lamp removing mechanism, the lamp removing mechanism is connected with the conveying mechanism, the printing mechanism is connected with the conveying mechanism, the rotary lamp mechanism is connected with the printing mechanism, and the lamp removing mechanism is connected with the printing mechanism.

As a further optimization of the technical scheme, the invention provides the illuminating lamp inspection equipment for lamp quality inspection, wherein the conveying mechanism comprises a stepping motor a, a motor shaft a, a belt a, a connecting shaft a, a conveying column, a conveying belt, a connecting plate a, a connecting plate b, a connecting plate c, a pressing shaft, a guide groove, a pressing spring, a lamp and an electric connection seat, the stepping motor a is connected with the motor shaft a, the stepping motor a is connected with the connecting plate a, the motor shaft a is in friction connection with the belt a, the belt a is in friction connection with the connecting shaft a, the connecting shaft a is connected with the conveying column, the connecting shaft a is connected with the connecting plate a through a bearing, the conveying column is in friction connection with the conveying belt, the conveying belt is connected with the connecting plate c, the conveying belt is connected with the electric connection seat, the connecting plate a is connected with the connecting plate b, the connecting plate c is in sliding connection with the pressing shaft, the pressing shaft is connected with the guide groove, the guide groove is in sliding connection with the electric connection seat, and the pressing spring is sleeved on the pressing shaft and is limited by the connecting plate c and the guide groove.

As a further optimization of the technical scheme, the invention relates to a lighting lamp inspection device for lamp quality inspection, which comprises a stepping motor b, a motor shaft b, a belt b, a connecting shaft b, a poking wheel, a return triangle, a guide plate, a connecting shaft c, a rotating sponge a, a supporting spring, a bevel gear a, a bevel gear b, a connecting shaft d, a special-shaped friction wheel a, a connecting shaft e, a reverse connecting plate a, a reverse connecting plate b, a torsion spring and a connecting plate I, wherein the stepping motor b is connected with the motor shaft b, the stepping motor b is connected with the connecting plate a, the motor shaft b is connected with the belt b in a friction manner, the belt b is connected with the connecting shaft b in a friction manner, the connecting shaft b is connected with the connecting plate a bearing, the connecting shaft b is connected with the connecting shaft a, the return triangle is connected with the guide plate in a sliding manner, the return triangle is connected with the connecting shaft c, the guide plate I is connected with the connecting shaft c, the rotating sponge a is connected with the connecting plate C in a sliding manner, the supporting spring is sleeved on the connecting shaft c and limited between the return triangle and the bevel gear A, the connecting shaft b is meshed with the torsion spring, the connecting plate e is connected with the connecting plate d, the connecting plate e, the connecting shaft e is connected with the connecting plate e, and the connecting plate e, and the connecting shaft e is connected with the connecting plate e, and connected with the connecting plate e connecting shaft e connecting plate e.

As a further optimization of the technical scheme, the invention relates to lighting lamp inspection equipment for lamp quality inspection, wherein a lamp removing mechanism comprises a first belt, a first connecting shaft, a first bevel gear, a second connecting shaft, a friction wheel a, a third connecting shaft, a rotating sponge b, a bearing connecting block, a hinged plate a, a hinged plate b, a handle, a hinged plate limiting groove, a friction wheel b, a fourth connecting shaft, a friction wheel c, a friction wheel d, a fifth connecting shaft, a friction wheel e, a brake plate and a brake limiting plate, one end of the first belt is in friction connection with the first connecting shaft, the other end of the first belt is in friction connection with the second connecting shaft, the first connecting shaft is connected with the first bevel gear, the first bevel gear is meshed with the second bevel gear, the second bevel gear is connected with the second connecting shaft, the second connecting shaft is connected with the friction wheel a, and the second connecting shaft is connected with the first connecting plate, the friction wheel a is connected with the connecting shaft III in a friction mode, the connecting shaft III is connected with the rotating sponge b, the connecting shaft III is connected with the bearing connecting block bearing, the connecting shaft III is connected with the connecting plate I in a sliding mode, the bearing connecting block is hinged with the hinged plate a, the hinged plate a is hinged with the hinged plate b, the hinged plate b is connected with the friction wheel b in a friction mode, the hinged plate b is connected with the handle, the hinged plate b is connected with the hinged plate limiting groove in a sliding mode, the hinged plate limiting groove is connected with the connecting plate I, the friction wheel b is connected with the connecting shaft IV, the connecting shaft IV is connected with the friction wheel c, the connecting shaft IV is connected with the connecting plate b bearing, the connecting shaft IV is connected with the connecting plate bearing, the friction wheel c is connected with the friction wheel d, the friction wheel d is connected with the connecting shaft V, the connecting shaft V is connected with the friction wheel e, the connecting shaft V is connected with the connecting plate b bearing, the connecting shaft V is connected with the connecting plate bearing, and the friction wheel e is connected with the brake plate, the brake plate is connected with the brake limiting plate in a sliding mode, the friction wheel e is connected with the connecting plate a in a sliding mode, and the brake limiting plate is connected with the connecting plate b.

As a further optimization of the technical scheme, the invention relates to a lighting lamp inspection device for lamp quality inspection, wherein a printing mechanism comprises a linkage belt, a friction strip, a transmission shaft a, a first friction wheel, a material injection column, a printing sponge, a reset connecting groove, a reset limiting shaft, a reset spring, a special-shaped friction wheel v, a transmission shaft b, a mounting plate a, a mounting plate b, a spring, an injection plate, an injection barrel, a sealing plate, a water pipe limiting plate and a water tank, one end of the linkage belt is in friction connection with the first connecting shaft, the other end of the linkage belt is in friction connection with the transmission shaft a, the linkage belt is connected with the friction strip, the friction strip is in friction connection with the first friction wheel, the transmission shaft a is connected with the special-shaped friction wheel v, the transmission shaft a is connected with the first connecting plate a bearing, the first friction wheel is in threaded connection with the material injection column, the first friction wheel is connected with the connecting plate, the material injection column is connected with the printing sponge, the material injection column is in sliding connection with the reset connecting plate, the printing sponge is connected with the reset connecting groove, the reset connecting plate, the injection barrel is connected with the reset limiting shaft, the reset connecting groove is connected with the water tank, the water tank is connected with the sealing plate b, the water tank is connected with the water pipe b, the injection barrel, the water tank is connected with the water tank, the sealing plate b, the water tank is connected with the injection barrel, the water tank is connected with the water tank, the water tank b, the water tank is connected with the water pipe b, the water tank is connected with the first connecting plate.

The invention discloses a lamp inspection device for lamp quality inspection, which has the beneficial effects that:

according to the lighting lamp inspection equipment for lamp quality inspection, the equipment can convey the lamp to the other end of the equipment, the equipment can rotate the lamp into the power connection base, the equipment can automatically rotate the non-bright lamp which is powered on out of the power connection base, the equipment can automatically inject the printing coating into the printing sponge, and the equipment can print the quality inspection print on the qualified lamp.

Drawings

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

Fig. 1 is a first schematic structural diagram of an illumination lamp inspection apparatus for quality inspection of lamps according to the present invention.

Fig. 2 is a second structural schematic diagram of an illumination lamp inspection apparatus for quality inspection of lamps according to the present invention.

Fig. 3 is a first structural schematic diagram of a conveying mechanism 1 of an illumination lamp inspection apparatus for lamp quality inspection according to the present invention.

Fig. 4 is a second structural schematic diagram of the conveying mechanism 1 of the lamp inspection equipment for quality inspection of lamps according to the present invention.

Fig. 5 is a third schematic structural diagram of the conveying mechanism 1 of the lamp inspection equipment for quality inspection of lamps according to the present invention.

Fig. 6 is a first structural schematic diagram of a rotary lamp mechanism 2 of the lamp inspection device for lamp quality inspection according to the present invention.

Fig. 7 is a second schematic structural diagram of a rotary lamp mechanism 2 of the lamp inspection device for lamp quality inspection according to the present invention.

Fig. 8 is a third schematic structural diagram of the rotary lamp mechanism 2 of the lamp inspection device for lamp quality inspection according to the present invention.

Fig. 9 is a first schematic structural diagram of a lamp removing mechanism 3 of the lamp inspection equipment for lamp quality inspection according to the present invention.

Fig. 10 is a second schematic structural diagram of a lamp removing mechanism 3 of the lamp inspection equipment for lamp quality inspection according to the present invention.

Fig. 11 is a third schematic structural diagram of a lamp removing mechanism 3 of the lamp inspection equipment for lamp quality inspection according to the present invention.

Fig. 12 is a fourth structural schematic diagram of a lamp removing mechanism 3 of the lamp inspection equipment for lamp quality inspection according to the present invention.

Fig. 13 is a first structural schematic diagram of a printing mechanism 4 of the lighting lamp inspection equipment for quality inspection of lamps according to the present invention.

Fig. 14 is a second schematic structural diagram of the printing mechanism 4 of the lighting lamp inspection equipment for quality inspection of the lamp according to the present invention.

Fig. 15 is a third schematic structural diagram of the printing mechanism 4 of the lighting lamp inspection equipment for quality inspection of the lamp according to the present invention.

Fig. 16 is a fourth schematic structural diagram of the printing mechanism 4 of the lighting lamp inspection equipment for quality inspection of the lamp according to the present invention.

In the figure: a transfer mechanism 1; a stepping motor a1-1; a motor shaft a1-2; belts a1-3; connecting shafts a1-4; transfer columns 1-5; a conveyor belt 1-6; connection plates a1-7; connecting plates b1-8; connecting plates c1-9; 1-10 parts of a compression shaft; guide grooves 1-11; pressing the springs 1-12; lamps 1-13; 1-14 of the electric connecting seat; rotating the lamp mechanism 2; a stepping motor b2-1; a motor shaft b2-2; a belt b2-3; connecting shafts b2-4; 2-5 of a poking wheel; resetting the triangle for 2-6; a guide plate 2-7; connecting shafts c2-8; rotating sponge a2-9; 2-10 parts of supporting spring; bevel gears a2-11; bevel gears b2-12; connecting shafts d2-13; special-shaped friction wheels a2-14; connecting shafts e2-15; reverse connection plates a2-16; reverse connection plates b2-17; 2-18 parts of torsion spring; 2-19 of a first connecting plate; a lamp removing mechanism 3; 3-1 of a first belt; connecting a shaft I3-2; 3-3 parts of a first bevel gear; 3-4 parts of a second bevel gear; connecting shafts II 3-5; 3-6 of friction wheel; connecting shafts III 3-7; rotating sponge b3-8; 3-9 parts of a bearing connecting block; hinge plates a3-10; hinge plates b3-11; 3-12 of a handle; hinge plate limiting grooves 3-13; friction wheels b3-14; connecting shaft IV 3-15; friction wheels c3-16; friction wheels d3-17; connecting shafts five 3-18; friction wheels e3-19; 3-20 parts of brake plate; 3-21 parts of brake limiting plate; a printing mechanism 4; 4-1 of a linkage belt; 4-2 of rubbing strips; a transmission shaft a4-3; 4-4 parts of a first friction wheel; 4-5 of a material injection column; 4-6 parts of printing sponge; resetting the connecting groove 4-7; resetting the limit shaft 4-8; 4-9 of a return spring; a special-shaped friction wheel v4-10; a transmission shaft b4-11; mounting plates a4-12; mounting plates b4-13; 4-14 parts of spring; 4-15 parts of injection plate; 4-16 parts of an injection barrel; sealing plates 4-17; 4-18 parts of a water pipe; 4-19 water pipe limiting plates; and 4-20 water tanks.

Detailed Description

The first embodiment is as follows:

the present embodiment will be described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, and fig. 16, and the present invention relates to an illumination lamp inspection apparatus, and more specifically, to an illumination lamp inspection apparatus for lamp quality inspection, which includes a transport mechanism 1, a rotary lamp mechanism 2, a lamp removal mechanism 3, and a printing mechanism 4.

The conveying mechanism 1 is connected with the rotary lamp mechanism 2, the rotary lamp mechanism 2 is connected with the lamp removing mechanism 3, the lamp removing mechanism 3 is connected with the conveying mechanism 1, the printing mechanism 4 is connected with the conveying mechanism 1, the rotary lamp mechanism 2 is connected with the printing mechanism 4, and the lamp removing mechanism 3 is connected with the printing mechanism 4.

The second embodiment is as follows:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, and fig. 16, and the embodiment further describes the embodiment, where the transmission mechanism 1 includes a stepping motor a1-1, a motor shaft a1-2, a belt a1-3, a connecting shaft a1-4, a transmission column 1-5, a transmission belt 1-6, a connecting plate a1-7, a connecting plate b1-8, a connecting plate c1-9, a pressing shaft 1-10, a guide groove 1-11, a pressing spring 1-12, a lamp 1-13, and a socket 1-14, the stepping motor a1-1 is connected to the motor shaft a1-2, the stepping motor a1-1 is connected to the connecting plate a1-7, a motor shaft a1-2 is in friction connection with a belt a1-3, the belt a1-3 is in friction connection with a connecting shaft a1-4, the connecting shaft a1-4 is connected with a conveying column 1-5, the connecting shaft a1-4 is in bearing connection with a connecting plate a1-7, the conveying column 1-5 is in friction connection with a conveying belt 1-6, the conveying belt 1-6 is connected with a connecting plate c1-9, the conveying belt 1-6 is connected with an electric connection seat 1-14, the connecting plate a1-7 is connected with a connecting plate b1-8, the connecting plate c1-9 is in sliding connection with a pressing shaft 1-10, the pressing shaft 1-10 is connected with a guide groove 1-11, the guide groove 1-11 is in sliding connection with an electric connection seat 1-14, a pressing spring 1-12 is sleeved on the pressing shaft 1-10 and limited on the connecting plate c1-9 and the guide groove 1-11, the device can convey a lamp to the other end of the device, the stepping motor a1-1 works to drive the motor shaft a1-2 to intermittently rotate, the motor shaft a1-2 rotates to drive the connecting shaft a1-4 to rotate through the belt a1-3, the connecting shaft a1-4 rotates to drive the conveying column 1-5 to rotate, the conveying column 1-5 rotates to drive the other conveying column 1-5 to rotate under the limitation of the connecting shaft a1-4 through the conveying belt 1-6, the conveying belt 1-6 rotates to drive the connecting plate c1-9 and the electric base 1-14 to move, the lamp 1-13 is placed in the two guide grooves 1-11, and the lamp 1-13 is extruded by the guide grooves 1-11 when rotating into the electric base 1-14 under the action of the compression spring 1-12.

The third concrete implementation mode:

the present embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, and the present embodiment further describes the first embodiment, in which the rotary lamp mechanism 2 includes a stepping motor b2-1, a motor shaft b2-2, a belt b2-3, a connecting shaft b2-4, a dial wheel 2-5, a return triangle 2-6, a guide plate 2-7, a connecting shaft c2-8, a rotary sponge a2-9, a support spring 2-10, a helical gear a2-11, a helical gear b2-12, a connecting shaft d2-13, a shaped friction wheel a2-14, a connecting shaft e2-15, a reverse connecting plate a2-16, a reverse connecting plate b2-17, a torsion spring 2-18, a connecting plate 2-19, a stepping motor b2-1 is connected with a motor shaft b2-2, the stepping motor b2-1 is connected with a connecting plate a1-7, the motor shaft b2-2 is connected with a belt b2-3 in a friction mode, the belt b2-3 and the belt b2-3 are connected with a connecting shaft b2-4 in a friction mode, the connecting shaft b2-4 is connected with a poking wheel 2-5, the connecting shaft b2-4 is connected with a connecting plate a1-7 in a bearing mode, the connecting shaft b2-4 is connected with a bevel gear a2-11, a reset triangle 2-6 is connected with a guide plate 2-7 in a sliding mode, the reset triangle 2-6 is connected with a connecting shaft c2-8, the guide plate 2-7 is connected with a connecting plate I2-19, the connecting shaft c2-8 is connected with a rotating sponge a2-9, and the connecting shaft c2-8 is connected with the connecting plate I2-19 in a sliding mode, a supporting spring 2-10 is sleeved on a connecting shaft c2-8 and limited between a reset triangle 2-6 and a connecting plate one 2-19, a bevel gear a2-11 is meshed with a bevel gear b2-12, the bevel gear b2-12 is connected with a connecting shaft d2-13, the connecting shaft d2-13 is connected with a special-shaped friction wheel a2-14, the connecting shaft d2-13 is connected with a connecting plate one 2-19 bearing, the special-shaped friction wheel a2-14 is connected with a connecting shaft e2-15 in a friction way, the connecting shaft e2-15 is connected with a reverse connecting plate a2-16, the connecting shaft e2-15 is connected with a reverse connecting plate b2-17, the connecting shaft e2-15 is connected with the connecting plate one 2-19 bearing, a torsion spring 2-18 is sleeved on the connecting shaft e2-15 and limited on the reverse connecting plate b2-17 and the connecting plate one 2-19, the first connecting plate 2-19 is connected with the connecting plate a1-7, the device can rotate a lamp into the electrical connection seat, when the stepping motor b2-1 rotates intermittently, the stepping motor b2-1 drives the motor shaft b2-2 to move, the motor shaft b2-2 moves to drive the connecting shaft b2-4 to rotate through the belt b2-3, the connecting shaft b2-4 rotates to drive the poking wheel 2-5 to rotate, the poking wheel 2-5 rotates to press the reset triangle 2-6 downwards, the reset triangle 2-6 reciprocates up and down under the guidance of the guide plate 2-7, the reset triangle 2-6 can automatically reset under the action of the support spring 2-10, the reset triangle 2-6 moves to drive the rotating sponge a2-9 through the connecting shaft c2-8 to press the lamp 1-13 downwards first and then the rotating sponge a2-9 resets, when the connecting shaft b2-4 rotates, the connecting shaft d2-13 is driven to rotate through the bevel gears a2-11 and the bevel gears b2-12, the connecting shaft d2-13 rotates to drive the special-shaped friction wheels a2-14 to rotate, the special-shaped friction wheels a2-14 rotate to drive the connecting shaft e2-15 to rotate, when the special-shaped friction wheels a2-14 are not in contact with the connecting shaft e2-15, the connecting shaft e2-15 rotates forwards and then rotates reversely at a high speed under the action of the torsion springs 2-18, the connecting shaft e2-15 drives the reverse connecting plate a2-16 to rotate, the connecting shaft c2-8 which moves to the lowest point is driven to rotate at a high speed by the reverse connecting plate a2-16, the connecting shaft c2-8 drives the rotary sponge a2-9 to rotate, the rotary sponge a2-9 rotates at a high speed and is transmitted to the lamp 1-13 under the rotary sponge a2-9 to rotate into the electrical connection seat 1-14, and the lamp 1-13 rotates into the electrical connection seat 1-14 through the metal internal thread at the bottom.

The fourth concrete implementation mode is as follows:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, and fig. 16, and the embodiment further describes the embodiment, where the lamp removing mechanism 3 includes a first belt 3-1, a first connecting shaft 3-2, a first helical gear 3-3, a second helical gear 3-4, a second connecting shaft 3-5, a friction wheel a3-6, a third connecting shaft 3-7, a rotating sponge b3-8, a bearing connecting block 3-9, a hinge plate a3-10, a hinge plate b3-11, a pull handle 3-12, a hinge plate limiting groove 3-13, a friction wheel b3-14, a fourth connecting shaft 3-15, a friction wheel c3-16, a friction wheel d3-17, a fifth connecting shaft 3-18, a friction wheel e3-19, a brake plate 3-20, and a brake plate 3-21, one end of a belt I3-1 is in friction connection with a connecting shaft I3-2, the other end of the belt I is in friction connection with a connecting shaft b2-4, the connecting shaft I3-2 is connected with a bevel gear I3-3, the connecting shaft I3-2 is in bearing connection with a connecting plate a1-7, the bevel gear I3-3 is meshed with a bevel gear II 3-4, the bevel gear II 3-4 is connected with a connecting shaft II 3-5, the connecting shaft II 3-5 is connected with a friction wheel a3-6, the connecting shaft II 3-5 is in bearing connection with a connecting plate I2-19, the friction wheel a3-6 is in friction connection with a connecting shaft III 3-7, the connecting shaft III 3-7 is connected with a rotating sponge b3-8, a connecting shaft III 3-7 is in bearing connection with a bearing connecting block 3-9, the connecting shaft III 3-7 is in sliding connection with a connecting plate I2-19, the bearing connecting block 3-9 is hinged with a hinged plate a3-10, the hinged plate a3-10 is hinged with a hinged plate b3-11, the hinged plate b3-11 is in friction connection with a friction wheel b3-14, the hinged plate b3-11 is connected with a handle 3-12, the hinged plate b3-11 is in sliding connection with a hinged plate limiting groove 3-13, the hinged plate limiting groove 3-13 is connected with the connecting plate I2-19, the friction wheel b3-14 is connected with a connecting shaft IV 3-15, the connecting shaft IV 3-15 is connected with a friction wheel c3-16, the connecting shaft IV 3-15 is in bearing connection with a connecting plate b1-8, the connecting shaft IV 3-15 is in bearing connection with the connecting plate I2-19, the friction wheels c3-16 are in friction connection with the friction wheels d3-17, the friction wheels d3-17 are connected with the connecting shafts five 3-18, the connecting shafts five 3-18 are connected with the friction wheels e3-19, the connecting shafts five 3-18 are in bearing connection with the connecting plates b1-8, the connecting shafts five 3-18 are in bearing connection with the connecting plates one 2-19, the friction wheels e3-19 are in friction connection with the brake plates 3-20, the brake plates 3-20 are in sliding connection with the brake limiting plates 3-21, the friction wheels e3-19 are in sliding connection with the connecting plates a1-7, the brake limiting plates 3-21 are connected with the connecting plates b1-8, the equipment can automatically rotate the unlighted lamp which is powered out of the power connection seat, when the lamp 1-13 is conveyed to the hole space above the connecting plates a1-7, if the lamp 1-13 is not bright after the power supply of the electric connection seat 1-14 is switched on, the handle 3-12 is pushed at the moment, the handle 3-12 moves to drive the hinged plate b3-11 to move towards the center of the equipment under the limitation of the hinged plate limiting groove 3-13, the hinged plate b3-11 moves to press the bearing connecting block 3-9 downwards through the hinged plate a3-10, the bearing connecting block 3-9 presses the rotating sponge b3-8 downwards through the connecting shaft III 3-7, the connecting shaft I3-2 is driven to rotate through the belt I3-1 when the connecting shaft b2-4 rotates, the connecting shaft I3-2 rotates to drive the connecting shaft II 3-5 to rotate through the bevel gear I3-3 and the bevel gear II 3-4, the connecting shaft II 3-5 rotates to drive the friction wheel a3-6 to rotate, and the friction wheel a3-6; the rotating sponge b3-8 is driven to rotate by the rotation of the connecting shaft III 3-7, and the lamp 1-13 can be rotated out of the power connection base 1-14 when the rotating sponge b3-8 rotates and moves downwards.

The fifth concrete implementation mode:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, and fig. 16, and the embodiment further describes the embodiment, where the printing mechanism 4 includes a linkage belt 4-1, a friction strip 4-2, a transmission shaft a4-3, a friction wheel one 4-4, a material injection column 4-5, a printing sponge 4-6, a reset connection groove 4-7, a reset limit shaft 4-8, a reset spring 4-9, a shaped friction wheel v4-10, a transmission shaft b4-11, a mounting plate a4-12, a mounting plate b4-13, a spring 4-14, an injection plate 4-15, an injection barrel 4-16, a sealing plate 4-17, a water pipe 4-18, a water pipe limiting plate 4-19, and a water tank 4-20, one end of a linkage belt 4-1 is in frictional connection with a connecting shaft I3-2, the other end of the linkage belt 4-1 is in frictional connection with a transmission shaft a4-3, the linkage belt 4-1 is connected with a friction strip 4-2, the friction strip 4-2 is in frictional connection with a friction wheel I4-4, the transmission shaft a4-3 is connected with a special-shaped friction wheel V4-10, the transmission shaft a4-3 is connected with a connecting plate A1-7 bearing, the friction wheel I4-4 is in threaded connection with a material injection column 4-5, the friction wheel I4-4 is connected with a connecting plate I2-19 bearing, the material injection column 4-5 is connected with a printing sponge 4-6, the material injection column 4-5 is in sliding connection with a reset connecting groove 4-7, the printing sponge 4-6 is connected with a reset limiting shaft 4-8, a reset connecting groove 4-7 is connected with a reset limiting shaft 4-8 in a sliding manner, the reset connecting groove 4-7 is connected with a connecting plate I2-19, a reset limiting shaft 4-8 is connected with a connecting plate I2-19 in a sliding manner, a reset spring 4-9 is sleeved on a material injection column 4-5 and limited on a friction wheel I4-4 and a reset connecting groove 4-7, a special-shaped friction wheel v4-10 is connected with a transmission shaft b4-11 in a friction manner, a transmission shaft b4-11 is connected with a mounting plate a4-12, a transmission shaft b4-11 is connected with a mounting plate b4-13, a sealing plate 4-15 is connected with an injection barrel 4-16 in a sliding manner, an injection barrel 4-16 is connected with a sealing plate 4-17, an injection barrel 4-16 is connected with a water tank 4-20, a sealing plate 4-17 is connected with a water injection tube 4-18 and communicated with a water injection barrel 4-16, an injection tube 4-19 is connected with a sponge printing device 4-19, a sponge printing device is connected with a water injection tube 4-19 through a rotating inspection device, a water tank 4-19, a sponge printing device 4-19 is connected with a sponge printing device 4-19, the linkage belt 4-1 also drives the friction strip 4-2 to move when moving, the friction strip 4-2 intermittently drives the friction wheel 4-4 to rotate when moving, the friction wheel 4-4 rotates to drive the material injection column 4-5 to ascend or descend, the material injection column 4-5 can automatically reset under the action of the reset spring 4-9, the special-shaped friction wheel v4-10 is driven to rotate when the transmission shaft a4-3 rotates, the transmission shaft b4-11 is driven to move towards the direction of the sealing plate 4-17 when the special-shaped friction wheel v4-10 rotates, the transmission shaft b4-11 can automatically reset under the action of the spring 4-14 when the special-shaped friction wheel v4-10 is not in contact with the transmission shaft b4-11, namely the transmission shaft b4-11 transversely reciprocates, the injection plate 4-15 is driven to slide in the injection barrel 4-16 when the transmission shaft b4-11 moves, in the process, the coating in the water tank 4-20 can be injected into the water pipe 4-19 through the injection barrel 4-16, the coating in the water pipe 4-19 can be injected into the sponge 4-6 through the printing plate 4-6, and the patterns on the lower portion of the sponge 4-6 can be printed on the sponge 4-6.

The working principle of the device is as follows: the equipment can convey a lamp to the other end of the equipment, the stepping motor a1-1 works to drive the motor shaft a1-2 to intermittently rotate, the motor shaft a1-2 rotates to drive the connecting shaft a1-4 to rotate through the belt a1-3, the connecting shaft a1-4 rotates to drive the conveying column 1-5 to rotate, the conveying column 1-5 rotates to drive the other conveying column 1-5 to rotate under the limitation of the connecting shaft a1-4 through the conveying belt 1-6, the conveying belt 1-6 rotates to drive the connecting plate c1-9 and the electric socket 1-14 to move, the lamp 1-13 is placed in two guide grooves 1-11, the lamp 1-13 is extruded by the guide grooves 1-11 when rotating into the electric socket 1-14 under the action of the compression spring 1-12, and the equipment can rotate the lamp into the electric socket, when the stepping motor b2-1 rotates intermittently, the stepping motor b2-1 drives the motor shaft b2-2 to move, the motor shaft b2-2 drives the connecting shaft b2-4 to rotate through the belt b2-3, the connecting shaft b2-4 rotates to drive the poking wheel 2-5 to rotate, the poking wheel 2-5 rotates to press the reset triangle 2-6 downwards, the reset triangle 2-6 reciprocates up and down under the guide of the guide plate 2-7, the reset triangle 2-6 can automatically reset under the action of the support spring 2-10, the reset triangle 2-6 moves through the connecting shaft c2-8 to drive the rotating sponge a2-9 to press the lamp 1-13 downwards first and then to reset the rotating sponge a2-9, and when the connecting shaft b2-4 rotates, the bevel gear a2-11 and the bevel gear b2-12 drive the rotating sponge a2-9 to rotate The connecting shafts d2-13 rotate, the connecting shafts d2-13 rotate to drive the special-shaped friction wheels a2-14 to rotate, the special-shaped friction wheels a2-14 rotate to drive the connecting shafts e2-15 to rotate, when the special-shaped friction wheels a2-14 are not in contact with the connecting shafts e2-15, the connecting shafts e2-15 rotate in the forward direction and then rotate in the reverse direction at a high speed under the action of the torsion springs 2-18, the connecting shafts e2-15 move to drive the reverse connecting plates a2-16 to rotate, the connecting shafts c2-8 which move to the lowest points rotate at a high speed when the reverse connecting plates a2-16 rotate at a high speed, the connecting shafts c2-8 move to drive the rotating sponges a2-9 to rotate, and the rotating sponges a2-9 are transmitted to the lamps 1-13 under the rotating sponges a2-9 to rotate into the electric connection seats 1-14 when the rotating sponges a2-9 rotate at a high speed, when the lamps 1-13 are conveyed into the hole space above the connecting plate a1-7, if the lamps 1-13 are not bright after the power is connected to the power-on base 1-14, the pull handle 3-12 is pushed, the pull handle 3-12 moves to drive the hinged plate b3-11 to move towards the center of the equipment under the limitation of the hinged plate limiting groove 3-13, the hinged plate b3-11 moves to press the bearing connecting block 3-9 downwards through the hinged plate a3-10, the bearing connecting block 3-9 presses the rotating sponge b3-8 downwards through the connecting shaft III 3-7, and the connecting shaft B2-4 rotates to drive the connecting shaft I3-2 to rotate through the belt I3-1, the first connecting shaft 3-2 rotates, the second connecting shaft 3-5 is driven to rotate through the first bevel gear 3-3 and the second bevel gear 3-4, the second connecting shaft 3-5 rotates to drive the friction wheel a3-6 to rotate, and the friction wheel a3-6 rotates; the rotating sponge b3-8 is driven to rotate by the rotation of the connecting shaft III 3-7, when the rotating sponge b3-8 rotates and moves downwards, the lamp 1-13 can be rotated out of the connecting seat 1-14, the equipment can automatically inject printing coatings into the printing sponge, the equipment can print quality inspection prints on the qualified lamps, the transmission shaft a4-3 is driven to rotate by the linkage belt 4-1 when the connecting shaft I3-2 rotates, the friction strip 4-2 is also driven to move when the linkage belt 4-1 moves, the friction strip 4-2 intermittently drives the friction wheel I4-4 to rotate when the friction strip 4-2 moves, the friction wheel I4-4 rotates to drive the injection column 4-5 to ascend or descend, and the injection column 4-5 can automatically reset under the action of the reset spring 4-9, the special-shaped friction wheel v4-10 is driven to rotate when the transmission shaft a4-3 rotates, the transmission shaft b4-11 is driven to move towards the direction of the sealing plate 4-17 when the special-shaped friction wheel v4-10 rotates, the transmission shaft b4-11 can automatically reset under the action of the spring 4-14 when the special-shaped friction wheel v4-10 is not in contact with the transmission shaft b4-11, namely the transmission shaft b4-11 generates transverse reciprocating motion, the injection plate 4-15 is driven to slide in the injection barrel 4-16 when the transmission shaft b4-11 moves, the coating in the water tank 4-20 can be injected to the water pipe limiting plate 4-19 in a reciprocating mode through the injection barrel 4-16 in the process, the coating in the water pipe limiting plate 4-19 is injected into the printing sponge 4-6 through the injection column 4-5, the printing sponges 4-6 can now print the coating on the lamps 1-13 through the pores of the lower printing pattern.

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 (1)

1. The utility model provides a lamps and lanterns quality testing is with light check out test set, includes transport mechanism (1), rotatory lamps and lanterns mechanism (2), lamps and lanterns excision mechanism (3), printing mechanism (4), its characterized in that: the lamp removing mechanism (2) is connected with the printing mechanism (4), the rotary lamp mechanism (2) is connected with the lamp removing mechanism (3), the lamp removing mechanism (3) is connected with the conveying mechanism (1), the printing mechanism (4) is connected with the conveying mechanism (1), the rotary lamp mechanism (2) is connected with the printing mechanism (4), and the lamp removing mechanism (3) is connected with the printing mechanism (4);

the conveying mechanism (1) comprises a stepping motor a (1-1), a motor shaft a (1-2), a belt a (1-3), a connecting shaft a (1-4), a conveying column (1-5), a conveying belt (1-6), a connecting plate a (1-7), a connecting plate b (1-8), a connecting plate c (1-9), a pressing shaft (1-10), a guide groove (1-11), a pressing spring (1-12), a lamp (1-13) and a connecting base (1-14), wherein the stepping motor a (1-1) is connected with the motor shaft a (1-2), the stepping motor a (1-1) is connected with the connecting plate a (1-7), the motor shaft a (1-2) is in friction connection with the belt a (1-3), the belt a (1-3) is in friction connection with the connecting shaft a (1-4), the connecting shaft a (1-4) is connected with the conveying column (1-5), the connecting shaft a (1-4) is connected with the connecting plate a (1-7) through a bearing, the conveying column (1-5) is connected with the conveying belt (1-6) and the connecting base (1-6) and the conveying belt (1-6), the connecting plate a (1-7) is connected with the connecting plate b (1-8), the connecting plate c (1-9) is in sliding connection with the pressing shaft (1-10), the pressing shaft (1-10) is connected with the guide groove (1-11), the guide groove (1-11) is in sliding connection with the electric connection seat (1-14), and the pressing spring (1-12) is sleeved on the pressing shaft (1-10) and limited on the connecting plate c (1-9) and the guide groove (1-11);

the rotary lamp mechanism (2) comprises a stepping motor b (2-1), a motor shaft b (2-2), a belt b (2-3), a connecting shaft b (2-4), a poking wheel (2-5), a reset triangle (2-6), a guide plate (2-7), a connecting shaft c (2-8), a rotary sponge a (2-9), a support spring (2-10), a helical gear a (2-11), a helical gear b (2-12), a connecting shaft d (2-13), a special-shaped friction wheel a (2-14), a connecting shaft e (2-15), a reverse connecting plate a (2-16), a reverse connecting plate b (2-17), a torsion spring (2-18) and a connecting plate I (2-19), wherein the stepping motor b (2-1) is connected with the motor shaft b (2-2), the stepping motor b (2-1) is connected with the connecting plate a (1-7), the motor shaft b (2-2) is in friction connection with the belt b (2-3), the belt b (2-3) is connected with the belt b (2-3), the b (2-3) is connected with the belt b (2-4) in friction connection with the connecting shaft b (2-4), and the connecting shaft b (5), a connecting shaft b (2-4) is connected with a connecting plate a (1-7) through a bearing, the connecting shaft b (2-4) is connected with a bevel gear a (2-11), a reset triangle (2-6) is connected with a guide plate (2-7) in a sliding manner, the reset triangle (2-6) is connected with a connecting shaft c (2-8), the guide plate (2-7) is connected with a connecting plate I (2-19), the connecting shaft c (2-8) is connected with a rotating sponge a (2-9), the connecting shaft c (2-8) is connected with a connecting plate I (2-19) in a sliding manner, a supporting spring (2-10) is sleeved on the connecting shaft c (2-8) and limited between the reset triangle (2-6) and the connecting plate I (2-19), the bevel gear a (2-11) is meshed with a bevel gear b (2-12), the bevel gear b (2-12) is connected with a connecting shaft d (2-13), d (2-13) is connected with a reverse friction wheel a (2-14), the connecting shaft d (2-13) is connected with a connecting plate A (2-19), and a connecting plate A) are connected with a friction wheel (15-15), a connecting shaft e (2-15) is connected with a reverse connecting plate b (2-17), the connecting shaft e (2-15) is connected with a first connecting plate (2-19) through a bearing, a torsion spring (2-18) is sleeved on the connecting shaft e (2-15) and limited on the reverse connecting plate b (2-17) and the first connecting plate (2-19), and the first connecting plate (2-19) is connected with a connecting plate a (1-7);

the lamp removing mechanism (3) comprises a first belt (3-1), a first connecting shaft (3-2), a first bevel gear (3-3), a second bevel gear (3-4), a second connecting shaft (3-5), a friction wheel a (3-6), a third connecting shaft (3-7), a rotating sponge b (3-8), a bearing connecting block (3-9), a hinged plate a (3-10), a hinged plate b (3-11), a handle (3-12), a hinged plate limiting groove (3-13), a friction wheel b (3-14), a fourth connecting shaft (3-15), a friction wheel c (3-16), a friction wheel d (3-17), a fifth connecting shaft (3-18), a friction wheel e (3-19), a brake plate (3-20) and a brake limiting plate (3-21), one end of the first belt (3-1) is in friction connection with the first connecting shaft (3-2), the other end of the first bevel gear (3-2) is in friction connection with the first connecting shaft (3-3), the first connecting shaft (3-2) is connected with the first connecting shaft (3-2), the first connecting shaft (3-7) is meshed with the bevel gear (3-4), the second bevel gear (3-4) is connected with the second connecting shaft (3-5), the second connecting shaft (3-5) is connected with the friction wheel a (3-6), the second connecting shaft (3-5) is connected with the first connecting plate (2-19) through a bearing, the friction wheel a (3-6) is in friction connection with the third connecting shaft (3-7), the third connecting shaft (3-7) is connected with the rotating sponge b (3-8), the third connecting shaft (3-7) is in bearing connection with the bearing connecting block (3-9), the third connecting shaft (3-7) is in sliding connection with the first connecting plate (2-19), the bearing connecting block (3-9) is hinged with the hinged plate a (3-10), the hinged plate a (3-10) is hinged with the hinged plate b (3-11), the hinged plate b (3-11) is in friction connection with the friction wheel b (3-14), the b (3-11) is connected with the handle (3-12), the b (3-11) is in sliding connection with the limiting groove (3-13), the first connecting shaft (3-5) is connected with the friction wheel (3-15), and the fourth connecting plate (3-7) is connected with the friction wheel (3-15), the connecting shaft IV (3-15) is in bearing connection with the connecting plate b (1-8), the connecting shaft IV (3-15) is in bearing connection with the connecting plate I (2-19), the friction wheel c (3-16) is in friction connection with the friction wheel d (3-17), the friction wheel d (3-17) is connected with the connecting shaft V (3-18), the connecting shaft V (3-18) is connected with the friction wheel e (3-19), the connecting shaft V (3-18) is in bearing connection with the connecting plate b (1-8), the connecting shaft V (3-18) is in bearing connection with the connecting plate I (2-19), the friction wheel e (3-19) is in friction connection with the brake plate (3-20), the brake plate (3-20) is in sliding connection with the brake limiting plate (3-21), the friction wheel e (3-19) is in sliding connection with the connecting plate a (1-7), and the brake limiting plate (3-21) is connected with the connecting plate b (1-8);

the printing mechanism (4) comprises a linkage belt (4-1), a friction strip (4-2), a transmission shaft a (4-3), a friction wheel I (4-4), a material injection column (4-5), a printing sponge (4-6), a reset connecting groove (4-7), a reset limiting shaft (4-8), a reset spring (4-9), a special-shaped friction wheel v (4-10), a transmission shaft b (4-11), a mounting plate a (4-12), a mounting plate b (4-13), a spring (4-14), an injection plate (4-15), an injection barrel (4-16), a sealing plate (4-17), a water pipe (4-18), a water pipe limiting plate (4-19) and a water tank (4-20), wherein one end of the linkage belt (4-1) is in friction connection with the connection shaft I (3-2), the other end of the linkage belt (4-1) is in friction connection with the transmission shaft a (4-3), the linkage belt (4-1) is connected with the friction strip (4-2), the friction strip (4-2) is connected with the transmission shaft I (4-4), the transmission shaft a (4-3) is connected with the friction strip (4-7), and a bearing (7), a friction wheel I (4-4) is in threaded connection with a material injection column (4-5), the friction wheel I (4-4) is in bearing connection with a connecting plate I (2-19), the material injection column (4-5) is connected with a printing sponge (4-6), the material injection column (4-5) is in sliding connection with a reset connecting groove (4-7), the printing sponge (4-6) is connected with a reset limiting shaft (4-8), the reset connecting groove (4-7) is in sliding connection with a reset limiting shaft (4-8), the reset connecting groove (4-7) is connected with a connecting plate I (2-19), the reset limiting shaft (4-8) is in sliding connection with the connecting plate I (2-19), a reset spring (4-9) is sleeved on the material injection column (4-5) and limited on the friction wheel I (4-4) and the reset connecting groove (4-7), a special-shaped friction wheel v (4-10) is in friction connection with a transmission shaft b (4-11), the transmission shaft b (4-11) is connected with a mounting plate a (4-12), the transmission shaft b (4-11) is connected with a transmission plate (4-11), the transmission shaft b) is connected with a water tank (4-11), the water tank (4-11) is connected with a water tank (4-11) and a water tank (4-11) is connected with a water tank (4-11), the mounting plate b (4-13) is sleeved on the transmission shaft b (4-11) and limited on the mounting plate b (4-13) and the water tank (4-20), the injection plate (4-15) is connected with the injection barrel (4-16) in a sliding mode, the injection barrel (4-16) is connected with the sealing plate (4-17), the injection barrel (4-16) is connected with the water tank (4-20), the sealing plate (4-17) is connected and communicated with the water pipe (4-18), the water pipe (4-18) is connected with the water pipe limiting plate (4-19), the water pipe (4-18) is inserted into the injection column (4-5) and is connected with the injection column (4-5) in a sliding mode, the water pipe limiting plate (4-19) is connected with the water tank (4-20), and the water tank (4-20) is connected with the first connecting plate (2-19).

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