Filament promotes lamp device
Technical field
The utility model relates to filament and divides optical arena, and particularly a kind of filament promotes lamp device.
Background technology
In recent years, the luminescent device encapsulated in filament mode is rapid with its distinctive superiority development.After sheet filament is separated into single filament, needs to send into integrating sphere carries out light splitting screening, carry out category filter, then braid according to the different wave length of filament light-emitting, light intensity, current/voltage.Filament being sent into the traditional approach that integrating sphere lights is air cylinder lifting structure, and this mechanism runs steady, and speed is slow, and efficiency is low, and volume is large, the defects such as noise pollution.
Utility model content
The filament that the utility model provides a kind of stable movement, noise is little, speed is fast, volume is little, production efficiency is high promotes lamp device.
For solving the problem, as an aspect of the present utility model, providing a kind of filament and promoting lamp device, comprising: the first Synchronous lifting portion, is arranged vertically; Second Synchronous lifting portion, the first Synchronous lifting portion that is parallel to is arranged vertically; First probe, is connected with the upper end in the first Synchronous lifting portion; Second probe, is connected with the upper end in the second Synchronous lifting portion; First filament delivery portion, is connected with the first Synchronous lifting portion; Second filament delivery portion, be connected with the second Synchronous lifting portion, form the carrying space for delivering filament to be tested between first filament delivery portion and the second filament delivery portion, the filament being positioned at carrying space vertically upwards transports by the first filament delivery portion and the second filament delivery portion until filament and the first probe and the second probe electrical contact are to test.
Preferably, filament promotes lamp device and also comprises probe clamp, and the first probe is arranged on the upper end in the first Synchronous lifting portion by a probe clamp, and the second probe is arranged on the upper end in the second Synchronous lifting portion by another probe clamp.
Preferably, filament lifting lamp device also comprises the drive division for driving the first Synchronous lifting portion and the second Synchronous lifting portion.
Preferably, drive division is servomotor.
Preferably, the first Synchronous lifting portion and the second Synchronous lifting portion include riser and are arranged on the tape handler on riser, and the driving wheel of the below of two tape handlers coaxially connects.
Preferably, filament lifting lamp device also comprises the sliding-rail sliding assembly for leading, first filament delivery portion is connected with a sliding-rail sliding assembly be arranged in the first Synchronous lifting portion, and the second filament delivery portion is connected with another sliding-rail sliding assembly be arranged in the second Synchronous lifting portion.
Preferably, the probe aperture that first filament delivery portion and the free end in the second filament delivery portion are formed with delivery groove and are communicated with delivery groove, the end of filament rides over and delivers on groove and stretch in probe aperture, and the first probe or the second probe insert the end electrical contact with filament in corresponding probe aperture.
Owing to have employed technique scheme, the utility model patent solves filament light splitting machine of the prior art to be needed filament to be sent into the problem that integrating sphere carries out brightness detection one by one, improve the practicality of automation equipment, and promote that to light speed fast, steadily, fiduciary level is high, has stable movement, noise is little, speed is fast, volume is little, feature that production efficiency is high, reduces filament production cost.
Accompanying drawing explanation
Fig. 1 schematically shows structural representation of the present utility model.
Reference numeral in figure: 1, the first Synchronous lifting portion; 2, the second Synchronous lifting portion; 3, the first probe; 4, the second probe; 5, the first filament delivery portion; 6, the second filament delivery portion; 7, filament; 8, probe clamp; 9, drive division; 10, riser; 11, tape handler; 12, sliding-rail sliding assembly.
Embodiment
Below in conjunction with accompanying drawing, embodiment of the present utility model is described in detail, but the multitude of different ways that the utility model can be defined by the claims and cover is implemented.
Please refer to Fig. 1, the utility model provides a kind of filament and promotes lamp device, comprising: the first Synchronous lifting portion 1, is arranged vertically; Second Synchronous lifting portion 2, the first Synchronous lifting portion 1 that is parallel to is arranged vertically; First probe 3, is connected with the upper end in the first Synchronous lifting portion 1; Second probe 4, is connected with the upper end in the second Synchronous lifting portion 2; First filament delivery portion 5, is connected with the first Synchronous lifting portion 1; Second filament delivery portion 6, be connected with the second Synchronous lifting portion 2, form the carrying space for delivering filament 7 to be tested between first filament delivery portion 5 and the second filament delivery portion 6, the filament 7 being positioned at carrying space vertically upwards transports by the first filament delivery portion 5 and the second filament delivery portion 6 until filament 7 and the first probe 3 and the second probe 4 electrical contact are to test.
When filament is transported to position to be detected, under the driving in the first Synchronous lifting portion 1 and the second Synchronous lifting portion 2, one end of filament rides in the first filament delivery portion 5, the other end rides in the second filament delivery portion 6, so the first filament delivery portion 5 and the second filament delivery portion 6 hold up filament from bottom, and filament is upwards promoted to contacts with the second probe 4 with the first probe 3, to light filament.After detection completes, the first filament delivery portion 5 and the second filament delivery portion 6 decline, and replaced by filament, filament transports forward, then starts to promote next filament, promotes detection one by one successively.
Owing to have employed technique scheme, the utility model patent solves filament light splitting machine of the prior art to be needed filament to be sent into the problem that integrating sphere carries out brightness detection one by one, improve the practicality of automation equipment, and promote that to light speed fast, steadily, fiduciary level is high, has stable movement, noise is little, speed is fast, volume is little, feature that production efficiency is high, reduces filament production cost.
Preferably, filament promotes lamp device and also comprises probe clamp 8, first probe 3 is arranged on the first Synchronous lifting portion 1 upper end by a probe clamp 8, and the second probe 4 is arranged on the upper end in the second Synchronous lifting portion 2 by another probe clamp 8.
Preferably, filament lifting lamp device also comprises the drive division 9 for driving the first Synchronous lifting portion 1 and the second Synchronous lifting portion 2.Preferably, drive division 9 is servomotor.
Preferably, the driving wheel that the first Synchronous lifting portion 1 and the second Synchronous lifting portion 2 include riser 10 and the below that is arranged on tape handler 11, two tape handlers 11 on riser 10 coaxially connects.Like this, both sides synchronization lifting can be realized.
Preferably, filament lifting lamp device also comprises the sliding-rail sliding assembly 12 for leading, first filament delivery portion 5 is connected with a sliding-rail sliding assembly 12 be arranged in the first Synchronous lifting portion 1, and the second filament delivery portion 6 is connected with another sliding-rail sliding assembly 12 be arranged in the second Synchronous lifting portion 2.Sliding-rail sliding assembly 12 play the guiding role, and makes lifting more steady.
Preferably, the probe aperture that first filament delivery portion 5 and the free end in the second filament delivery portion 6 are formed with delivery groove and are communicated with delivery groove, the end of filament 7 rides over and delivers on groove and stretch in probe aperture, and the first probe 3 or the second probe 4 insert the end electrical contact with filament 7 in corresponding probe aperture.
The foregoing is only preferred embodiment of the present utility model, be not limited to the utility model, for a person skilled in the art, the utility model can have various modifications and variations.All within spirit of the present utility model and principle, any amendment done, equivalent replacement, improvement etc., all should be included within protection domain of the present utility model.