CN2528114Y - Lamp string device - Google Patents

Abstract

A light string device comprises at least two wires which are arranged in sequence, and a gap is arranged between two adjacent ends of the two wires; at least one insulating part, the center of which is provided with a through hole, the insulating part is arranged on two adjacent ends of the two wires, and the two adjacent ends are fixed on the insulating part and exposed out of the through hole of the insulating part; and at least one light-emitting component which is provided with two electrode ends and is respectively connected with the two adjacent ends of the two leads by the two electrode ends and is exposed out of the through hole of the insulating component. The utility model discloses a lamp cluster device can be produced by mechanical automation mode, can save the material manpower and improve production efficiency.

Description

Lamp string devices

[technical field]

The utility model relates to a kind of lamp string devices.

[background technology]

As shown in Figure 1, it is a kind of tradition ornamental lamp string 1 on celebrating or Christmas Day, this lamp string 1 all is to make the light-emitting component 10 of finished product generally, bulb 2 for example shown in Figure 2, light-emitting diode perhaps shown in Figure 3 (LED) 3, directly be plugged on the long lead 11 with manual type, no matter and because be bulb 2 or LED 3, all be provided with the positive and negative two ends that a conduction seat or lead frame are connected its illuminating part (tungsten filament and LED wafer) when it is made into, and electrically connected by pin and other devices of this conduction seat or lead frame.Therefore, consider the project organization problem of above-mentioned single light-emitting component, in the manufacturing of conventional lights string, must be plugged on the default socket 12 of lead 11 with artificial one one of mode with winding, this is because single light-emitting component is not taken into account on lead during fabrication directly along stretching the needs of many illuminating parts with direct connection bunchiness, so that when needing to connect bunchiness, all to do connection in the artificial mode again.Right this one with manual will single light-emitting component 10 one by one winding on lead 11 to form the manufacture of lamp string, not only waste encapsulating material but also suitable labor intensive.

[utility model content]

The purpose of this utility model is to provide a kind of lamp string devices of can the machinery automation processing manufacturing producing, and can save the material manpower and enhances productivity.

In order to achieve the above object, the utility model provides a kind of lamp string devices, it is characterized in that: this lamp string devices includes:

Article at least two, the lead of arranging in regular turn, and be separated with a gap between the adjacent both ends of two leads;

At least one insulating part, its center have a saturating emptying aperture, and this insulating part is provided in a side of on the adjacent both ends of above-mentioned this two lead, and this adjacent both ends is fixed on this insulating part and exposes to the saturating emptying aperture place of this insulating part; And at least one illuminating part, it has two electrode tips, and this illuminating part connects the adjacent both ends of above-mentioned this two lead respectively with this two electrode tip and exposes to the saturating emptying aperture place of this insulating part.

Described lamp string devices is characterized in that: it is to stagger mutually and be arranged in parallel overlappingly that the adjacent both ends of this two lead has the part line segment, and in this two overlapping and parallel this gap of the intersegmental formation of partial line.

Described lamp string devices, it is characterized in that: the part line segment at the saturating emptying aperture place that is arranged in this insulating part of this two lead is parallelly in the opposite direction to penetrate this insulating part and pass emptying aperture and insert the opposite side of emptying aperture inner edge, is separately fixed at the two ends with the part line segment of this two lead on the opposite side of saturating emptying aperture of this insulating part.

Described lamp string devices is characterized in that: this illuminating part can be a LED crystal particle.

Described lamp string devices is characterized in that: this illuminating part also can be a tungsten filament.

This lamp string devices can comprise that also one covers at the clear glass envelope body of this insulating part periphery, and this clear glass envelope body inside is vacuum state.

As shown in the above description, the utility model lamp string devices 4,5 owing to be to utilize encapsulated LED crystal grain 45 not or tungsten filament to be arranged on this insulating part 44 that exposes to by the adjacent both ends of the many leads that are in series, 54 saturating emptying aperture 441, part line segment 412 in 451,421 (or 422,431) and 512,521 (or 522,531) go up and make, and these leads 41,42,43 (or 51,52,53), insulating part 44,54 and LED crystal grain 45 or the tungsten filament appropriate location of all can the mechanical automation mode putting board, therefore, can make this lamp string devices of production by the mode of mechanical automation.Its production procedure is very simple, at first, the length of decision lamp string, then with the automation mode with an amount of lead in regular turn bunchiness be placed on the platform, and the part line segment of the adjacent both ends of two adjacent leads is interlaced out and parallel overlappingly putting.Then, stamp an insulating part with the saturating emptying aperture in a center respectively at the part line segment place of the adjacent both ends of these leads, with the saturating emptying aperture place, center that is fixed on these part line segments on this insulating part and makes these part line segments expose to this insulating part.Then, two electrode tips with these illuminating parts (LED crystal grain or tungsten filament) are connected with these part line segments respectively with consistent closure.If this illuminating part is tungsten filament, then be covered with clear glass envelope body again in these insulating part peripheries and vacuumize, so promptly can mechanical automation finish the production procedure of a lamp string devices.

Therefore, because the utility model lamp string devices 4,5 can be produced by the automation mode, not only can save manpower greatly, enhance productivity, and, the illuminating part that is adopted in the utility model (LED crystal grain and tungsten filament) is owing to being the element of un-encapsulated all, so can save expending of encapsulating material.

[description of drawings]

Below by Cui embodiment and accompanying drawing the utility model lamp string devices is elaborated, in the accompanying drawing:

Fig. 1 is a kind of in the past lamp string schematic diagram.

Fig. 2 is a kind of in the past bulb structural map.

Fig. 3 is a kind of structural map of light-emitting diode in the past.

Fig. 4 is first structure cutaway view than Cui embodiment of the utility model lamp string devices.

Fig. 5 is the structural map of LED crystal particle of the present utility model.

Fig. 6 is second structure cutaway view than Cui embodiment of the utility model lamp string devices.

[embodiment]

At first consult shown in Figure 4, be the utility model lamp string devices first than Cui embodiment, this lamp string devices 4 mainly includes plurality of wires (in the present embodiment with three leads 41,42,43 as explanation), the illuminating part 45 of most insulating parts 44 and most and these insulating part 44 quantity identical (or twice quantity).

These leads 41,42,43 are to be arranged in a linearity in regular turn in the present embodiment, and the adjacent both ends of two adjacent leads 41,42 (or 42,43) has part line segment 412,421 (or 422,431) to be staggered mutually and overlap the to each other to be arranged in parallel, and has a gap 40 between this two parts line segment 412,421 (or 422,431).

These insulating parts 44 are one to have the torus of certain wall thickness in the present embodiment, its center has a saturating emptying aperture 441, and these insulating parts 44 are to be located at these leads 41 respectively, 42, the part line segment 412 of 43 adjacent both ends, 421 (or 422,431) on, make these part line segments 412,421 (or 422,431) parallelly in the opposite direction penetrate the sidewall of this insulating part 44 and pass emptying aperture 441 and in the opposing sidewalls of emptying aperture 441 inner edges that arrive, and with these part line segments 412,421 (or 422,431) two ends (free end) are separately fixed on the opposite side of saturating emptying aperture 441 inner edges of insulating part 44, make these part line segments 412,421 (or 422,431) can be fixed on the insulating part 44 abreast and expose to saturating emptying aperture 441 places, center of this insulating part 44 and do not contact.

These illuminating parts 45 are a LED crystal particle (to call LED crystal grain 45 in the following text) in the present embodiment, and it is constructed as shown in Figure 5, has a p utmost point 451 and a n utmost point 452, and are provided with a metal gasket 453 that supplies routing to use on the n utmost point 452 surfaces.Therefore, as shown in Figure 4, in the mode that is connected in series in regular turn end to end, these LED crystal grain 45 are placed on the part line segment 412 of lead 41 and the part line segment 422 and its electrical contact of lead 42 down with the p utmost point 451 respectively, then, draw a metal wire 454 to the part line segment 421 of lead 42 and the part line segment 431 of lead 43 by the metal gasket 453 on the n utmost point 452 of this LED crystal grain 45 respectively, these LED crystal grain 45 are fixed between these part line segments 412,421 (or 422,431) in the mode of being connected in series, make 45 of these LED crystal grain in the saturating emptying aperture 441 of this insulating part 44.Therefore, by said method, after an amount of lead can being connected with above-mentioned series system and fix with insulating part 44 respectively, on the part line segment in the saturating emptying aperture 441 that exposes to this insulating part 44 of these leads a LED crystal grain 45 is set respectively, can finishes the lamp string devices of a regular length.

So, connect the anode of a direct current power supply when a free end 411 of these leads 41,42,43 that are in series, another free end 432 connects the negative terminal of this DC power supply, and then these leads 41,42,43 can make these LED crystal grain 45 because of forward conducting is luminous because of forward switching on.

In addition, above-mentioned insulating part 44 around these LED crystal grain 45, it can be a transparent insulation material, an or opaque insulation material, and when this insulating part 44 is a transparent materials, can design a reflecting surface at its saturating emptying aperture inner edge, in order to the lighting angle of control LED crystal grain 45 or improve its luminosity.

Consult shown in Figure 6 again, be the utility model lamp string devices second than Cui embodiment, this lamp string devices 5 also includes most leads (with 51,52,53 representatives of three leads), most insulating parts 54 reach the illuminating part 55 with these insulating part 54 numbers identical (or twice number), and the structure of the ornaments mode of these leads 51,52,53 and insulating part 54 is identical with above-mentioned first embodiment.And itself and the above-mentioned first embodiment difference are, these illuminating parts 55 are to adopt a tungsten filament in the present embodiment, and the two ends of these tungsten filaments are separately fixed on these part line segments 512,521 (or 522,531) in the saturating emptying aperture 541 that is fixed on this insulating part 54 respectively of these leads 51,52,53.In addition, more be covered with clear glass envelope body 56 in the periphery of these insulating parts 54, and this clear glass envelope body 56 inside are vacuumized, then these tungsten filaments, insulating part 54 and clear glass envelope body 56 promptly form this lamp string devices 5 with these lead 51,52,53 whole being fixed together.

Claims (6)

1, a kind of lamp string devices is characterized in that: this lamp string devices includes:

Article at least two, the lead of arranging in regular turn, and be separated with a gap between the adjacent both ends of two leads;

At least one insulating part, its center have a saturating emptying aperture, and this insulating part is provided in a side of on the adjacent both ends of above-mentioned this two lead, and this adjacent both ends is fixed on this insulating part and exposes to the saturating emptying aperture place of this insulating part; And

At least one illuminating part, it has two electrode tips, and this illuminating part connects the adjacent both ends of above-mentioned this two lead respectively with this two electrode tip and exposes to the saturating emptying aperture place of this insulating part.

2, lamp string devices as claimed in claim 1 is characterized in that: it is to stagger mutually and be arranged in parallel overlappingly that the adjacent both ends of this two lead has the part line segment, and in this two overlapping and parallel this gap of the intersegmental formation of partial line.

3, lamp string devices as claimed in claim 2, it is characterized in that: the part line segment at the saturating emptying aperture place that is arranged in this insulating part of this two lead is parallelly in the opposite direction to penetrate this insulating part and pass emptying aperture and insert the opposite side of emptying aperture inner edge, is separately fixed at the two ends with the part line segment of this two lead on the opposite side of saturating emptying aperture of this insulating part.

4, lamp string devices as claimed in claim 1 is characterized in that: this illuminating part is a LED crystal particle.

5, lamp string devices as claimed in claim 1 is characterized in that: this illuminating part is a tungsten filament.

6, lamp string devices as claimed in claim 5 is characterized in that: this lamp string devices comprises that more one covers at the clear glass envelope body of this insulating part periphery, and this clear glass envelope body inside is vacuum state.

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