CN103000476B - Improved structure of production device burning lamp filaments in glass bulb - Google Patents

Abstract

An improved structure of a production device burning lamp filaments in a glass bulb comprises a framework, a rotating plate, a power mechanism, a plurality of lamp filament and glass tube fixing devices, an upper feed workstation, a filament feeding workstation, a burning workstation and a discharging workstation, wherein each lamp filament and glass tube fixing device comprises a glass bulb clamp, and a lamp filament clamp/lamp filament lifting device assembly. The improved structure is characterized by being provided with a base, each lamp filament clamp/filament lifting device assembly and each glass bulb clamp are arranged on the base, each glass bulb clamp is provided with a protection gas lead-in port which is slidably arranged on the base via a secondary guide column, a main wheel is arranged at the lower end of a primary guide column, a secondary wheel is arranged at the lower end of the secondary guide column, and a boss with a guide slope is arranged on a framework of the upper feeding workstation, the filament feeding workstation and the discharging workstation of the production device burning lamp filaments in glass bulb. Compared with the prior art, the improved structure has the advantages that power types at the discharging workstation are few and automatic glass bulb feeding can be conveniently realized.

Description

A kind of modified node method filament being fired the process units in glass bulb

Technical field:

The present invention relates to a kind of lamp bulb production device.

Background technology:

Disclosed in patent 200720053654.6, the process units fired in glass bulb by filament in existing bulb production process comprises frame, be arranged on the rotating disk in frame, drive the actuating unit of dial rotation, be fixed on the several filaments on rotating disk, glass tube fixture, be arranged on the filament on rotating disk side, glass tube positional stations, filament, the control circuit of station and finished product blanking station and control device action fired by glass tube, filament, glass tube fixture is by glass tube clamper (glass bulb clamper), be positioned at the filament below glass tube clamper, glass tube lifting device (or filament lifting device), be positioned at filament, the filament clamper with trigger mechanism in glass tube lifting device is formed, filament, glass tube positional stations is by operating desk, be arranged on the dial rotation control button on operating desk, be arranged on the filament clamper trigger equipment on filament clamper side, be positioned at filament, propulsion power mechanism below glass tube lifting device is formed.The glass bulb of this kind of device needs artificial placement; the extraction of discharge station place finished product needs the device for opening of the device for opening of the glass tube clamper of a set of complexity, filament clamper to coordinate extraction element to complete; and; after unit protection gas introduction port, a set of power hoisting device is also needed to promote protective gas introducing port, to extract finished product; multiple power concentration is at discharge station place; bring very large difficulty both to the design of device, and, also for continuous prodution bulb causes obstacle.

Summary of the invention:

Goal of the invention of the present invention is to provide modified node method filament being fired the process units in glass bulb that a kind of power kind of discharge station place is few, can realize automatically going up glass bulb easily.

The present invention is achieved in that and comprises frame, be arranged on the rotating disk in frame, drive the actuating unit of dial rotation, be fixed on the several filaments on rotating disk, glass tube fixture, upper feeding station, upper filament station, filament is fixed on and in glass bulb, fires station, blanking station, filament, glass tube fixture comprises glass bulb clamper, be positioned at filament clamper below glass bulb clamper filament lifting device assembly, its special feature be rotating disk is provided with filament clamper pedestal corresponding to filament lifting device assembly, filament clamper filament lifting device assembly be arranged on pedestal, glass bulb clamper is slidably arranged on pedestal by leading post, protective gas introducing port is provided with above glass bulb clamper, protective gas introducing port is slidably arranged on pedestal by time guide pillar, leading post lower end is provided with main roller, time roller is provided with, corresponding feeding station filament being fired the process units in glass bulb in secondary guide pillar lower end, the frame of upper filament station and blanking station is provided with the boss with guiding slope.The boss of blanking station, feeding station, upper filament station is other is provided with platform.The effect of boss is lifting protective gas introducing port; successfully to place cell-shell; after leaving boss afterwards; to be filled with protective gas in the process baking filament afterwards on the thin glass tube that protective gas introducing port is buckled in cell-shell; protect filament, in order to avoid filament is at high temperature oxidized, simultaneously; boss also can lifting glass bulb clamper to a certain extent, operates to facilitate material loading.Platform the effect of discharge station be by promote glass bulb clamper by the glass bulb of band filament from filament clamper take out filament lifting device assembly, the effect of platform in upper filament station conveniently places filament.

The present invention is owing to have employed guide pillar and boss; like this; the rotational power of rotating disk just can be utilized to be elevated glass bulb clamper, protective gas introducing port and to extract the cell-shell of band filament; thus need not the power set of complexity of prior art; therefore, the present invention has the advantage that the power kind at discharge station place is few, can realize automatically going up glass bulb easily.

Accompanying drawing illustrates:

Fig. 1 is structural representation of the present invention;

Fig. 2 is the structural representation at discharge station place;

Fig. 3 be filament clamper the structural representation of filament lifting device assembly;

Filament is fired the process chart in glass bulb by Fig. 4.

Embodiment:

Now in conjunction with the accompanying drawings and embodiments the present invention is described in further detail:

As shown in the figure, frame 1 of the present invention, be arranged on the rotating disk 2 in frame 1, drive the actuating unit that rotating disk 2 rotates, be fixed on the several filaments on rotating disk 2, glass tube fixture 3, feeding station 4, upper filament station 5, filament is fixed on and in glass bulb, fires station 6, blanking station 7, filament, glass tube fixture 3 comprises the glass bulb clamper 8 with handle 8a, be positioned at filament clamper below glass bulb clamper 8 filament lifting device assembly 9, filament clamper filament lifting device in filament lifting device assembly 9 comprise upgrade block 9b with filament clamper 9a, the top be slidably arranged in upgrade block 9b is the lifting arm 9c of filament hook, lifting arm locator 9d(lower end is with the shell fragment of supporting bracket), lifting arm 9c obliquely, filament clamper 9a is provided with the trigger mechanism 9a1(button passing upgrade block 9b), to be opened by the clamp port of trigger mechanism by filament clamper 9a, put filament foot into, the top moving to the lifting arm 9c of highest point is positioned on the center line A of glass tube clamper 9a, filament is fixed in glass bulb fire station 6 include burn filament hook station 10, to manufacture a peg 12 in glass bulb 11, the filament 13 of being mentioned by lifting arm 9c tangles, like this, lifting arm 9c just can fall, filament foot 14 is sintered in glass bulb 11 in operation afterwards, thus filament 13 is fixed in glass bulb 11, its special feature be rotating disk 2 is provided with filament clamper pedestal 15 corresponding to filament lifting device assembly 9, filament clamper filament lifting device assembly 9 be arranged on pedestal 15, glass bulb clamper 9a is slidably arranged on pedestal 15 by leading post 16, protective gas introducing port 17 is provided with above glass bulb clamper 9a, protective gas introducing port 17 is slidably arranged on pedestal 15 by time guide pillar 18, leading post 16 lower end is provided with main roller 19, time roller 20 is provided with in secondary guide pillar 18 lower end, the corresponding feeding station 4 filament being fired the process units in glass bulb, the frame 1 of upper filament station 5 and blanking station 7 is provided with the boss 21 with guiding slope.

With power push-rod 22 and blanking grabber 23 blanking station 7, material grabber can be mixed with power push-rod 25(in automatically producing) feeding station 4, upper filament station 5 boss 21 be otherly provided with platform 24.

Claims (1)

1. filament is fired a modified node method for the process units in glass bulb, comprise frame, be arranged on the rotating disk in frame, drive the actuating unit of dial rotation, be fixed on the several filaments on rotating disk, glass tube fixture, feeding station, upper filament station, filament is fixed on and in glass bulb, fires station, blanking station, filament, glass tube fixture comprises glass bulb clamper, be positioned at filament clamper below glass bulb clamper filament lifting device assembly, it is characterized in that rotating disk is provided with filament clamper pedestal corresponding to filament lifting device assembly, filament clamper filament lifting device assembly be arranged on pedestal, glass bulb clamper is slidably arranged on pedestal by leading post, protective gas introducing port is provided with above glass bulb clamper, protective gas introducing port is slidably arranged on pedestal by time guide pillar, leading post lower end is provided with main roller, time roller is provided with, corresponding feeding station filament being fired the process units in glass bulb in secondary guide pillar lower end, the frame of upper filament station and blanking station is provided with the boss with guiding slope.

2. modified node method filament being fired the process units in glass bulb according to claim 1, is characterized in that blanking station, feeding station, the boss of upper filament station other is provided with platform.