CN216988460U - Optimized UV lamp - Google Patents

Abstract

The utility model relates to the technical field of UV lamps, and provides an optimized UV lamp which comprises a lamp tube and an insulating tube, wherein the lamp tube is provided with a lamp core, an upper lamp cap is arranged at one end of the lamp tube, a lower lamp cap is arranged at the other end of the lamp tube, two ends of the insulating tube are respectively connected to the upper lamp cap and the lower lamp cap, and a lower lamp cap connecting wire is arranged in the insulating tube in a penetrating manner. Through above-mentioned technical scheme, the insulating safety problem of UV lamp among the prior art has been solved.

Description

Optimized UV lamp

Technical Field

The utility model relates to the technical field of UV lamps, in particular to an optimized UV lamp.

Background

The UV lamp is gas discharge lamp, and gas discharge lamp divide into arc discharge and glow discharge, and the UV lamp is arc discharge lamp commonly used in the UV solidification, and its theory of operation is: high purity mercury (mercury) is dosed into a vacuum quartz tube, and by applying a voltage difference (voltage drop) across the electrodes, an ionic discharge is generated, which generates ultraviolet radiation. The low-pressure UV lamp tube, namely the germicidal lamp, is mainly used for sterilization, and the UV-B is also mainly used for ultraviolet inspection, medical treatment and the like. The high-pressure mercury lamp for strong ultraviolet rays is made of high-quality pure quartz tubes, ultraviolet rays can penetrate through the high-pressure mercury lamp to a high degree and a large amount, the arc length/luminous length of the high-pressure mercury lamp can be different from 5 cm to 300 cm, the common power is 30W to 200W per cm, the ultra-high-power UV lamp generally operates at 200W per cm or above, the effective range of a lamp spectrum is 350-450nm, the dominant peak is 365nm, the high-power mercury lamp is more than 700 types, and the power is 100W-25 kw. UV curing is a photochemical reaction in which a liquid UV radiation curable material is printed or coated on the surface of a substrate or work piece, and curing is achieved by irradiation with UV light, and is similar to a conventional drying process, but in a different principle, the conventional drying process generally forms curing by volatilization of a solvent in the coating material, and UV curing crosslinking is free of solvent volatilization.

The pharmaceutical chemical industry utilizes ultraviolet illumination technology to carry out photocatalysis, photopolymerization, photolysis fission, chlorination reaction, bromination reaction, fluorination reaction, water treatment and the like, and finally extracts pharmaceutical intermediates and raw materials. The existing UV lamp power supply connecting wires are distributed on lamp caps at two ends and need to be respectively led out from two ends of the lamp caps, the bottom connecting wires are easy to age in the using process, the connecting wires are blown or damaged, the UV lamp needs to be frequently replaced, and the connecting wires are easy to damage, so that the insulation safety problem can be further caused.

SUMMERY OF THE UTILITY MODEL

The utility model provides an optimized UV lamp, which solves the insulation safety problem of the UV lamp in the related technology.

The technical scheme of the utility model is as follows:

an optimized UV lamp comprises a lamp tube with a lamp core, an upper lamp cap arranged at one end of the lamp tube, a lower lamp cap arranged at the other end of the lamp tube, and a lamp holder

And two ends of the insulating tube are respectively connected to the upper lamp cap and the lower lamp cap, and the lower lamp cap connecting wire is arranged in the insulating tube in a penetrating manner.

As a further technical scheme, the lower lamp cap is made of conductive materials, the lamp wick is connected with the lower lamp cap, and the connecting wire is connected to the lower lamp cap.

As a further technical proposal, the method also comprises

A first lamp holder flange plate arranged on the upper lamp holder,

and the second lamp holder flange plate is arranged on the lower lamp holder, and two ends of the insulating tube are arranged on the upper lamp holder and the lower lamp holder through the first lamp holder flange plate and the second lamp holder flange plate respectively.

As a further technical proposal, the method also comprises

A plurality of first through holes arranged on the first lamp holder flange plate,

and the second through holes are provided with a plurality of second through holes and are arranged on the second lamp holder flange plate.

As a further technical solution, it is proposed that,

the insulating tube is made of transparent quartz.

As a further technical proposal, the method also comprises

And the through groove is arranged on the first lamp cap flange plate and is used for penetrating through the cooling pipe.

The working principle and the beneficial effects of the utility model are as follows:

in the present embodiment, an insulating tube is disposed between the upper lamp cap and the lower lamp cap, and the lower lamp cap connection line passes through the insulating tube. Among the prior art, the UV lamp connecting wire is drawn forth from two lamp holders respectively, connects on the power, and bottom connecting wire is ageing easily in the use, causes connecting wire to blow or damage to the UV lamp needs frequent change, because the connecting wire is damaged easily and can further cause insulating safety problem. The method for solving the problem is that the lower lamp holder connecting wire is led out from the upper lamp holder through the insulating tube.

Specifically, the upper lamp cap and the lower lamp cap are arranged at two ends of the lamp tube, two ends of the insulating tube are respectively connected to the upper lamp cap and the lower lamp cap, the lower lamp cap connecting wire penetrates through the insulating tube and is led out from the side of the upper lamp cap, and the insulating tube can protect the lower lamp cap connecting wire from being damaged; the lower lamp holder connecting wire passes through the insulating tube and is led out from the upper lamp holder, and when the UV lamp is replaced, the insulating tube protects the lower lamp holder connecting wire from being damaged, and the lower lamp holder connecting wire cannot be damaged due to burning and frequently replaced, damaged and leaked electricity.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a partial schematic view of a first lamphead flange;

FIG. 3 is a partial schematic view of a second lamphead flange;

in the figure: 1. the lamp comprises a lamp tube, 2, a lamp wick, 3, an upper lamp cap, 4, a lower lamp cap, 5, an insulating tube, 6, a first lamp cap flange, 7, a second lamp cap flange, 8, a first through hole, 9, a second through hole, 10 and a through groove.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any inventive step, are intended to be within the scope of the present invention.

An optimized UV lamp comprises a lamp tube 1 with a lamp core 2, an upper lamp holder 3 arranged at one end of the lamp tube 1, a lower lamp holder 4 arranged at the other end of the lamp tube 1, and further comprises

And two ends of the insulating tube 5 are respectively connected to the upper lamp cap 3 and the lower lamp cap 4, and a connecting wire of the lower lamp cap 4 is arranged in the insulating tube 5 in a penetrating manner.

In the present embodiment, an insulating tube 5 is provided between the upper cap 3 and the lower cap 4, and the connection wire of the lower cap 4 passes through the insulating tube 5. Among the prior art, the UV lamp connecting wire is drawn forth from two lamp holders respectively, connects on the power, and bottom connecting wire is ageing easily in the use, causes connecting wire to blow or damage to the UV lamp needs frequent change, because the connecting wire is damaged easily and can further cause insulating safety problem. The solution of the application is that the lower lamp holder connecting wire is led out from the upper lamp holder 3 through the insulating tube 5.

Specifically, the upper lamp cap 3 and the lower lamp cap 4 are arranged at two ends of the lamp tube 1, two ends of the insulating tube 5 are respectively connected to the upper lamp cap 3 and the lower lamp cap 4, a connecting wire of the lower lamp cap 4 penetrates through the insulating tube 5 and is led out from the side of the upper lamp cap 3, and the insulating tube 5 can protect the connecting wire of the lower lamp cap 4 from being damaged; the connecting wire of the lower lamp holder 4 penetrates through the insulating tube 5 and is led out from the upper lamp holder 3, when the UV lamp is replaced, the insulating tube 5 protects the lower lamp holder connecting wire from being damaged, and the lower lamp holder connecting wire cannot be damaged due to burning and frequent replacement, and is damaged and leaked electricity.

Further, lower lamp holder 4 is electrically conductive material, and wick 2 is connected with lower lamp holder 4, and the connecting wire is connected on lower lamp holder 4.

In this embodiment, lower lamp holder 4 is electrically conductive material, and wick 2 is direct to be connected with lower lamp holder 4, and the connecting wire welding is on lamp holder 4 down, and connecting wire and wick 2 are connected through lamp holder 4 down, and further lamp holder 4 can be the metal material down, and on lamp holder 4 was down connected to 2 line lug connection of wick, the connecting wire lug connection was on lamp holder 4 down, and connecting wire and wick 2 are connected through metal material's lower lamp holder 4.

Further, also comprises

A first lamp holder flange 6 arranged on the upper lamp holder 3,

and the second lamp holder flange 7 is arranged on the lower lamp holder 4, and two ends of the insulating tube 5 are respectively arranged on the upper lamp holder 3 and the lower lamp holder 4 through the first lamp holder flange 6 and the second lamp holder flange 7.

In this embodiment, the first lamp holder flange 6 and the second lamp holder flange 7 are used for being in interference fit with the cooling sleeve, and the UV lamp is fixed in the cooling sleeve, so that the UV lamp is convenient and quick to replace. The two ends of the insulating tube 5 are arranged on the upper lamp cap and the lower lamp cap through a first lamp cap flange plate 6 and a second lamp cap flange plate 7, the second lamp cap flange plate 7 is the same as the lower lamp cap 4 and can be made of metal, the lamp wick is connected to the lower lamp cap 4, the second lamp cap flange plate 7 is arranged on the lower lamp cap 4, the connecting wire is connected with the lower lamp cap 4 and the lamp wick 2 through the second lamp cap flange plate 7, and the power supply is connected with the lamp wick through the connecting wire, the second lamp cap flange plate 7 and the lower lamp cap 4.

Further, also comprises

A plurality of first through holes 8 are arranged on the first lamp holder flange 6,

and a plurality of second through holes 9 are arranged on the second lamp holder flange plate 7.

In this embodiment, in order to solve the problem that the UV lamp can adapt to different mounting structures, the solution is to provide through holes on the flange plate, specifically, the first through hole 8 is provided on the first lamp holder flange plate 6, the second through hole 9 is provided on the second lamp holder flange plate 8, and the fixing member fixes the UV lamp on the fixing frame through the first through hole 8 and the second through hole 9.

Further, in the present invention,

the insulating tube 5 is made of transparent quartz.

In this embodiment, in order to prevent the insulating tube 5 from blocking the ultraviolet rays of the UV lamp, the insulating tube 5 is transparent, and specifically, the insulating tube 5 is made of transparent quartz, so that the ultraviolet rays of the UV lamp are guaranteed to be scattered, and the connecting line of the lower lamp cap 4 can be effectively protected.

Further, also comprises

And the through groove 10 is arranged on the first lamp cap flange plate 6 and is used for penetrating through the cooling pipe.

In this embodiment, in order to solve the problem of cooling the UV lamp in the cooling sleeve, the solution is to provide a through groove 10 on the first lamp holder flange 6, specifically, the through groove 10 is provided on the first lamp holder flange 9, and the cooling air duct can pass through the through groove 10 and enter the cooling sleeve.

The present invention is not limited to the above preferred embodiments, and any modifications, equivalent substitutions, improvements, etc. within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. An optimized UV lamp comprises a lamp tube (1) provided with a lamp wick (2), an upper lamp holder (3) arranged at one end of the lamp tube (1), and a lower lamp holder (4) arranged at the other end of the lamp tube (1), and is characterized by further comprising

And two ends of the insulating tube (5) are connected to the upper lamp cap (3) and the lower lamp cap (4) respectively, and a connecting wire of the lower lamp cap (4) is arranged in the insulating tube (5) in a penetrating manner.

2. An optimized UV lamp as claimed in claim 1, wherein the lower lamp base (4) is made of an electrically conductive material, the lamp wick (2) is connected to the lower lamp base (4), and a connecting wire is connected to the lower lamp base (4).

3. The optimized UV lamp of claim 1, further comprising

A first lamp cap flange plate (6) arranged on the upper lamp cap (3),

and the second lamp cap flange plate (7) is arranged on the lower lamp cap (4), and two ends of the insulating tube (5) are arranged on the upper lamp cap (3) and the lower lamp cap (4) through the first lamp cap flange plate (6) and the second lamp cap flange plate (7) respectively.

4. An optimized UV lamp as claimed in claim 3, further comprising

A plurality of first through holes (8) are arranged on the first lamp holder flange plate (6),

and the second through holes (9) are provided with a plurality of second through holes and are arranged on the second lamp holder flange plate (7).

5. An optimized UV lamp according to claim 1,

the insulating tube (5) is made of transparent quartz.

6. An optimized UV lamp as claimed in claim 3, further comprising

And the through groove (10) is arranged on the first lamp holder flange plate (6) and is used for penetrating through the cooling pipe.

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