CN220891909U - Fluorescent glow lamp - Google Patents

Abstract

The utility model discloses a fluorescent glow lamp, which comprises a glow lamp base, wherein a detachable integrated glass shell is arranged on the glow lamp base, the integrated glass shell comprises two circular glass shells, the two circular glass shells are correspondingly communicated to form an integrated glass shell, two corresponding fluorescent electrodes are respectively arranged in the two circular glass shells, the four fluorescent electrodes are coated with an electronic powder coating, the inner side surface of the integrated glass shell is correspondingly provided with a fluorescent powder coating, and the glow lamp base is correspondingly provided with a lead-out wire of the fluorescent electrode. The inside of the semicircle glass bulb of this device both sides all is provided with electron electrode, all corresponds in every circular glass bulb and sets up two electrodes that correspond, and the distance of two electrodes in the same circular glass bulb is good, then after filling inert gas to the glass bulb in, the electrode that corresponds can correspond luminous to two sets of electrodes in the integral type glass bulb all can give out light to can effectual increase fluorescent lamp's luminous efficacy and luminance, structural design is ingenious.

Description

Fluorescent glow lamp

Technical Field

The utility model relates to the field of LED welding packaging in lamp technology, in particular to a fluorescent glow lamp.

Background

In the prior art, the fluorescent glow lamp is a lamp with better luminous efficiency and more colors, and can be matched with programs such as electronic control and the like to perform color conversion and the like.

The structure of the fluorescent glow lamp in the prior art is generally provided with a base and an external envelope, inside which a light emitting electrode is provided, and then an inert gas is filled into the inside of the envelope so that the electrode emits light.

In the prior art, two corresponding light-emitting electrodes in a fluorescent glow lamp are arranged, and a proper distance is arranged between the two electrodes, so that light can be emitted; however, in the technical scheme that only two electrodes are arranged in each glass bulb, the light-emitting brightness of the lamp is actually general, and sometimes the brightness is slightly insufficient.

In addition, in the prior art, the inside of the glass bulb is only filled with inert gas, internal lamplight directly penetrates through the glass bulb, the penetrability of the lamplight is too single, and the glass bulb has no better ornamental value.

Therefore, in order to solve the above problems, a fluorescent glow lamp with reasonable structural design, brighter light and better ornamental value is needed.

Disclosure of utility model

The utility model aims at overcoming the defects in the prior art and providing a fluorescent glow lamp; the technical scheme is as follows:

The utility model provides a fluorescent glow lamp, includes the glow lamp base, installs detachable integral type glass envelope on this glow lamp base, integral type glass envelope include two circular glass envelopes, form integral type glass envelope after two circular glass envelopes correspond the intercommunication, and respectively install two fluorescent electrodes that correspond in two circular glass envelopes, and all scribble the electron powder coating on four fluorescent electrodes, and the medial surface of integral type glass envelope then corresponds and is provided with the fluorescent powder coating, the glow lamp base on correspond again and be provided with the lead-out wire of fluorescent electrode.

And the position department between two circular glass shells still is provided with the cross light-transmitting plate that the shape is the cross, just the lower tip of cross light-transmitting plate still is provided with a installation axle, and glow lamp base on then be provided with the mounting groove that corresponds with the installation axle, the installation axle correspond and set up in the mounting groove to set up cross light-transmitting plate in the glass shell of integral type.

Further, three cross-shaped light-transmitting plates are arranged in total, and the three cross-shaped light-transmitting plates are uniformly arranged at intervals; the cross light-transmitting plate in this device can be provided with a plurality ofly, and this device sets up threely, and the interval evenly sets up, and is more reasonable in structure.

Further, three cross-shaped light-transmitting plates are arranged at the middle position of the integrated glass shell, and the cross-shaped light-transmitting plates are arranged at the junction of the two circular glass shells; because the integral glass shell of the device is synthesized by two semicircular glass shells, the cross-shaped light-transmitting plate can be arranged at the junction of the two semicircular glass shells, so that light sources on two sides can be reflected on the cross-shaped light-transmitting plate.

Further, the cross-shaped light-transmitting plate is made of glass; in order to increase the light transmission effect, the reflection effect, the ornamental effect and the like, the cross-shaped light transmission plate can be made of glass.

Further, the mounting shaft is arranged to be of a T-shaped shaft body structure, the mounting groove is arranged to be of a T-shaped groove body structure, and the mounting shaft is correspondingly embedded in the mounting groove and can rotate in the mounting groove.

Further, an L-shaped detachable clamping groove which is concave towards the inner side is formed in the bottom of the glow lamp base; and the edge position of the lower end part of the integrated glass shell is provided with an L-shaped detachable clamping block corresponding to the detachable clamping groove.

Further, the upper end of the integrated glass bulb is of a planar structure, and the thickness of the fluorescent powder coating inside the integrated glass bulb is set to be 1-2mm.

Further, the outgoing line is set as a copper wire outgoing line; after the outgoing line is set to be a copper wire, the electric conduction effect is better.

The beneficial effects are that: the utility model has the following beneficial effects:

1) The glass bulb of the device is an integrated glass bulb composed of two circular glass bulbs, the insides of the semicircular glass bulbs on two sides are respectively provided with an electronic electrode, two corresponding electrodes are correspondingly arranged in each circular glass bulb, the distance between the two electrodes in the same circular glass bulb is good, then inert gas is filled in the glass bulbs, the corresponding electrodes can correspondingly emit light, and the two groups of electrodes in the integrated glass bulb can emit light, so that the luminous efficiency and the luminous brightness of the fluorescent lamp can be effectively improved, the structural design is ingenious, and the fluorescent lamp has better luminous quality;

2) In the device, the integral integrated glass shell is formed by combining two semicircular glass shells, so that a cross-shaped light-transmitting plate can be arranged at the junction position of the two semicircular glass shells, and can transmit, reflect and the like light emitted by the electrodes at two sides, so that the transmission diversity of the light emitted by the electrodes at two sides can be increased, the light can be reflected, diverged and the like after passing through the cross-shaped light-transmitting plate, and the luminous efficiency and the ornamental value of the integral lamp are increased;

3) The cross-shaped light-transmitting plates are correspondingly arranged in the device, the three cross-shaped light-transmitting plates are uniformly arranged at intervals, and the corresponding glass material is light-transmitting, so that the light-transmitting plates are convenient to disperse, reflect and the like; and glow lamp base and integral type glass bulb are demountable installation in this device, set up the back like this, middle cross light-transmitting plate also can be changed, structural design is more reasonable.

Drawings

FIG. 1 is a block diagram of the present utility model;

FIG. 2 is a cross-sectional view A-A of FIG. 1;

Fig. 3 is a sectional view of B-B in fig. 1.

Detailed Description

The utility model will be further illustrated by the following drawings and specific examples, which are carried out on the basis of the technical solutions of the utility model, it being understood that these examples are only intended to illustrate the utility model and are not intended to limit the scope of the utility model.

As shown in fig. 1, 2 and 3, a fluorescent glow lamp comprises a glow lamp base 1, wherein a detachable integrated glass bulb 2 is installed on the glow lamp base 1, the integrated glass bulb 2 comprises two circular glass bulbs 21, the two circular glass bulbs 21 are correspondingly communicated to form an integrated glass bulb 2, two corresponding fluorescent electrodes 3 are respectively installed in the two circular glass bulbs 21, the four fluorescent electrodes 3 are coated with an electronic powder coating 4, the inner side surface of the integrated glass bulb 2 is correspondingly provided with a fluorescent powder coating 5, and the glow lamp base 1 is correspondingly provided with lead wires 6 of the fluorescent electrodes 3.

The glass bulb of this device sets up to the integral type glass bulb of constituteing by two circular glass bulbs, and the inside of the semicircle glass bulb of both sides all is provided with electron electrode, all correspond in every circular glass bulb and set up two electrodes that correspond, the distance of two electrodes in the same circular glass bulb is good, then after filling inert gas to the glass bulb, the electrode that corresponds can correspond luminous, two sets of electrodes in the integral type glass bulb all can give out light, thereby luminous efficiency and luminous luminance that can effectual increase fluorescent lamp, structural design is ingenious, have better luminous quality.

And the position department between two circular glass shells 21 still is provided with the cross light-transmitting plate 7 that is the shape of cross, and the lower tip of cross light-transmitting plate 7 still is provided with a installation axle 8, and is provided with the mounting groove 9 that corresponds with installation axle 8 on the glow lamp base 1, and installation axle 8 corresponds to be set up in mounting groove 9 to set up cross light-transmitting plate 7 in integral type glass shell 2.

In this device, because holistic integral type glass envelope is formed through two semicircle glass envelopes combination, consequently can set up cross light-transmitting plate in the juncture of two semicircle glass envelopes, cross light-transmitting plate can be with the luminous transmission of the electrode of both sides and reflection etc. therefore can increase the luminous transmission diversity of electrode of both sides, and light can reflect and diverge etc. after the cross light-transmitting plate, increases luminous efficacy and sight of whole lamps and lanterns.

The cross light-transmitting plates 7 are three in number, and the three cross light-transmitting plates 7 are uniformly arranged at intervals.

Three cross light-transmitting plates 7 are provided at the intermediate position of the integrated envelope 2, and the cross light-transmitting plates 7 are provided at the junction of the two circular envelopes 21.

The cross-shaped light-transmitting plate 7 is made of glass; the installation axle 8 sets up to T type axis body structure, and mounting groove 9 sets up to T type cell body structure, and installation axle 8 corresponds to inlay and installs in mounting groove 9, and can rotate in mounting groove 9.

The bottom of the glow lamp base 1 is provided with an L-shaped detachable clamping groove 10 which is concave inwards; and the lower end edge of the integrated glass bulb 2 is provided with an L-shaped detachable clamping block 11 corresponding to the detachable clamping groove 10 in shape.

The upper end of the integrated glass bulb 2 is of a planar structure, and the thickness of the fluorescent powder coating 5 in the integrated glass bulb 2 is 1-2mm; the outgoing line 6 is provided as a copper wire outgoing line.

The cross-shaped light-transmitting plates are correspondingly arranged in the device, the three cross-shaped light-transmitting plates are uniformly arranged at intervals, and the corresponding glass material is light-transmitting, so that the light-transmitting plates are convenient to disperse, reflect and the like; and glow lamp base and integral type glass bulb are demountable installation in this device, set up the back like this, middle cross light-transmitting plate also can be changed, structural design is more reasonable.

The above detailed description is only a preferred embodiment of the present utility model and is not intended to limit the scope of the claims, but all equivalent changes and modifications that can be made according to the protection scope of the claims are included in the scope of the claims.

Claims (8)

1. A fluorescent glow lamp, characterized by: the glow lamp comprises a glow lamp base (1), wherein a detachable integrated glass shell (2) is arranged on the glow lamp base (1), the integrated glass shell (2) comprises two circular glass shells (21), the two circular glass shells (21) are correspondingly communicated to form the integrated glass shell (2), two corresponding fluorescent electrodes (3) are respectively arranged in the two circular glass shells (21), the four fluorescent electrodes (3) are coated with an electronic powder coating (4), the inner side surface of the integrated glass shell (2) is correspondingly provided with a fluorescent powder coating (5), and the glow lamp base (1) is correspondingly provided with outgoing lines (6) of the fluorescent electrodes (3);

and the position department between two circular glass shells (21) still is provided with cross printing opacity board (7) that the shape is the cross, just the lower tip of cross printing opacity board (7) still is provided with a installation axle (8), glow lamp base (1) on then be provided with mounting groove (9) that correspond with installation axle (8), installation axle (8) correspond and set up in mounting groove (9) to set up cross printing opacity board (7) in integral type glass shell (2).

2. A fluorescent glow lamp according to claim 1 wherein: the three cross-shaped light-transmitting plates (7) are uniformly arranged at intervals.

3. A fluorescent glow lamp according to claim 2 wherein: three cross light-transmitting plates (7) are arranged at the middle position of the integrated glass bulb (2), and the cross light-transmitting plates (7) are arranged at the junction of the two circular glass bulbs (21).

4. A fluorescent glow lamp according to claim 1 wherein: the cross-shaped light-transmitting plate (7) is made of glass.

5. A fluorescent glow lamp according to claim 1 wherein: the installation shaft (8) is of a T-shaped shaft body structure, the installation groove (9) is of a T-shaped groove body structure, and the installation shaft (8) is correspondingly embedded in the installation groove (9) and can rotate in the installation groove (9).

6. A fluorescent glow lamp according to claim 1 wherein: the bottom of the glow lamp base (1) is provided with an L-shaped detachable clamping groove (10) which is concave inwards; and the edge position of the lower end part of the integrated glass bulb (2) is provided with an L-shaped detachable clamping block (11) corresponding to the detachable clamping groove (10).

7. A fluorescent glow lamp according to claim 1 wherein: the upper end of the integrated glass bulb (2) is of a planar structure, and the thickness of the fluorescent powder coating (5) inside the integrated glass bulb (2) is set to be 1-2mm.

8. A fluorescent glow lamp according to claim 1 wherein: the outgoing line (6) is a copper wire outgoing line.