CN204879577U - Take cooling structure's xenon lamp system - Google Patents

Abstract

The utility model discloses a take cooling structure's xenon lamp system includes xenon lamp pipe, first electrode and second electrode at least, the first electrode with the one end of second electrode set up respectively in the xenon lamp is intraductal, still including being used for the cooling a cooling circuit of xenon lamp pipe, be used for the cooling the 2nd cooling circuit of first electrode and be used for the cooling the 3rd cooling circuit of second electrode, a cooling circuit the 2nd cooling circuit with the 3rd cooling circuit is independent setting separately. The utility model discloses owing to be provided with three independent cooling circuit, cool off xenon lamp pipe, first electrode and second electrode simultaneously, cooling efficiency is high, and cooling rate is fast. Simultaneously, because three cooling circuit independent setting, the mutually noninterfere is provided convenience for installation, maintenance and the debugging in later stage, has improved the convenience of using.

Description

With the xenon lamp systems of cooling structure

Technical field

The present invention relates to technical field of lighting fixtures, particularly relate to a kind of xenon lamp systems with cooling structure.

Background technology

Xenon lamp is with xenon gaseous discharge and the electric light source of luminescence.Xenon is the element (namely heavier element) that inert gas Atom ordinal number is larger, atomic radius is larger, when arc discharge, because the energy of electronics and gas generation elastic collision loss is inversely proportional to the atomic weight of gas, so loss is less when comparing xenon arc discharge with other inert gases, luminous efficiency is high.Meanwhile, the ionization potential of xenon is lower, and during electric discharge, the voltage drop of ate electrode is little, and the service life of electrode is longer.

Xenon lamp due to above-mentioned good characteristic be widely used in daily life and produce in.But because the power of xenon lamp is comparatively large, flow through xenon lamp power supply conductor electric current comparatively large, conductor temp .-elevating amount is also very large, and in order to high power xenon lamp conductor can be made to dispel the heat and work long-term and stably, the research of setting up cooling system outside xenon lamp is also just arisen at the historic moment.

As, CN103175183A discloses a kind of cooling xenon lamp device, comprise xenon lamp pipe 100, housing, be set in the protective cover 200 outside xenon lamp pipe, air deflector 400, described housing comprises the first housing 301, second housing 302, described first housing 301, second housing 302 all has the opening 306 communicated with protective cover 200, described protective cover two ends respectively with the first housing 301, the opening of the second housing 302 matches, described first housing 301, second housing 302 is respectively equipped with air intake vent 303, air outlet 304, described first housing 301, second housing 302 is equipped with wiring hole 305, described wiring hole 305 is for the wire through connection xenon lamp pipe 100 two ends, cold wind enters from the air intake vent the first housing 301, go out from the air outlet of the second housing 302, thus realize cooling the xenon lamp pipe in protective cover.This air cooling mode can realize the cooling to xenon lamp pipe, but owing to adopting air cooling way to cool, operation inconvenience, and the stability of cooling procedure is bad, and efficiency is lower.

Therefore, those skilled in the art need the xenon lamp systems of high, the easy to operate band cooling structure of research a kind of good stability, cooling effectiveness badly.

Utility model content

Because the above-mentioned defect of prior art, technical problem to be solved in the utility model is to provide the xenon lamp systems of high, the easy to operate band cooling structure of a kind of good stability, cooling effectiveness.

For achieving the above object, the utility model provides a kind of xenon lamp systems with cooling structure, at least comprise xenon lamp pipe, the first electrode and the second electrode, one end of described first electrode, one end of described second electrode are arranged in described xenon lamp pipe respectively, also comprise the first cooling circuit for cooling described xenon lamp pipe, for cooling the second cooling circuit of described first electrode and the 3rd cooling circuit for cooling described second electrode, described first cooling circuit, described second cooling circuit and described 3rd cooling circuit are independently arranged separately.

In some embodiments, described first cooling circuit is the loop be made up of the xenon lamp pipe-in-pipe be arranged at outside described xenon lamp pipe, described xenon lamp pipe and the first connector be arranged between described xenon lamp pipe and described xenon lamp pipe-in-pipe and the second connector; Described xenon lamp pipe-in-pipe is provided with the first cooling circuit water inlet and the first cooling circuit delivery port.

In some embodiments, described second cooling circuit is by described first electrode, is arranged at the first metal sleeve structure be connected outside described first electrode and with the described xenon lamp seal of tube and the loop formed for the first electrode nut of fixing described first electrode, described first metal sleeve structure is provided with the second cooling circuit water inlet and the second cooling circuit delivery port.

In some embodiments, described 3rd cooling circuit is by described second electrode, is arranged at the second metal sleeve structure be connected outside described second electrode and with the described xenon lamp seal of tube and the loop formed for the second electrode nut of fixing described second electrode, described second metal sleeve structure is provided with the 3rd cooling circuit water inlet and the 3rd cooling circuit delivery port.

In some embodiments, described first metal sleeve structure and described second metal sleeve structure all adopt copper product.

In some embodiments, described first connector is the first cork; Described second connector is the second cork.

In some embodiments, described xenon lamp pipe-in-pipe adopts glass material one-body molded.

The beneficial effects of the utility model:

The utility model is owing to adopting said structure design, be respectively arranged with the first cooling circuit for cooling xenon lamp pipe, for cooling the second cooling circuit of described first electrode and the 3rd cooling circuit for cooling described second electrode, by three independently cooling circuits, cool the xenon lamp pipe of heat, the first electrode and the second electrode can be produced simultaneously, cooling effectiveness is high, and cooling velocity is fast.Meanwhile, because three cooling circuits are independently arranged, non-interference, for the installation in later stage, maintenance and debugging are provided convenience, improve the convenience of use.

In above-mentioned structural design, xenon lamp pipe-in-pipe is had in the arranged outside of xenon lamp pipe, xenon lamp pipe-in-pipe is provided with cooling circuit water inlet and cooling circuit delivery port, and this xenon lamp pipe-in-pipe adopts glass material to be made, while playing printing opacity effect, also be the building block of the first cooling circuit, decrease required parts, reduce cost.

Because the first cooling circuit is connected by cork with between the second cooling circuit with the second cooling circuit and the 3rd cooling circuit, cork has elasticity, a certain amount of compression can be carried out, error between attaching parts can be balanced out by the change of self during installation, reduce the requirement to component quality of fit, reduce the difficulty of processing of product.

In said structure design, connector adopts copper product, and the intensity of copper is higher, and heat transfer rate is fast, while guarantee meets working strength, further increases radiating efficiency, effectively extends the service life of xenon lamp guard system.

Be described further below with reference to the technique effect of accompanying drawing to design of the present utility model, concrete structure and generation, to understand the purpose of this utility model, characteristic sum effect fully.

Accompanying drawing explanation

Fig. 1 is a kind of structural representation cooling xenon lamp device, cooling xenon lamp systems in prior art.

Fig. 2 is the structural representation of the utility model one detailed description of the invention.

In figure: xenon lamp pipe 11, first cooling circuit water inlet 12, first cooling circuit delivery port 13, xenon lamp pipe-in-pipe 14, first electrode 21, second cooling circuit water inlet 22, second cooling circuit delivery port 23, first metal sleeve structure 24, first electrode nut 25, second electrode the 31, three cooling circuit water inlet the 32, three cooling circuit delivery port 33, second metal sleeve structure 34, first cork 41, second cork 42, second electrode nut 35.

Detailed description of the invention

As shown in Figure 2, present embodiments provide a kind of xenon lamp systems with cooling structure, the one end comprising xenon lamp pipe 11, first electrode 21 and the second electrode 31, first electrode 21 and the second electrode 31 is arranged in xenon lamp pipe 11 respectively.

As shown in Figure 2, this xenon lamp systems also comprises three cooling circuits, namely for cool xenon lamp pipe the first cooling circuit, for cooling the second cooling circuit of the first electrode and the 3rd cooling circuit for cooling the second electrode.First cooling circuit, the second cooling circuit and the 3rd cooling circuit are independently arranged separately.

Because xenon lamp systems is respectively arranged with the first cooling circuit for cooling xenon lamp pipe, for cooling the second cooling circuit of described first electrode and the 3rd cooling circuit for cooling described second electrode, by three independently loops, cool producing the xenon lamp pipe of heat, the first electrode and the second electrode simultaneously, cooling effectiveness is high, and cooling velocity is fast.Meanwhile, because three cooling circuits are independently arranged, non-interference, for the installation in later stage, maintenance and debugging are provided convenience, improve the convenience of use.

Particularly, first cooling circuit is by xenon lamp pipe 11, the first cork 41 being arranged at the xenon lamp pipe-in-pipe 14 outside xenon lamp pipe and being used as the first connector and the loop formed as the second cork 42 of the second connector, have certain gap between xenon lamp pipe 11 and xenon lamp pipe-in-pipe 14, the first cork 41, second cork 42 is arranged in the gap between xenon lamp pipe 11 and xenon lamp pipe-in-pipe 14.First cork 41, second cork 42 and being tightly connected between xenon lamp pipe 11 and xenon lamp pipe-in-pipe 14.

First cooling circuit and the second cooling circuit and the cork be provided with between the 3rd cooling circuit and the second cooling circuit as connector, because cork has elasticity, a certain amount of compression can be carried out, error between attaching parts can be balanced out by the change of self during installation, the requirement of the quality of fit between reducing component, reduces the difficulty of processing of product.

As shown in Figure 2, xenon lamp pipe-in-pipe 14 is provided with the first cooling circuit water inlet 12 and the first cooling circuit delivery port 13.

During concrete use, open the first cooling circuit, cooling water enters xenon lamp pipe from the first cooling circuit water inlet 12, the other end is flow to from one end of xenon lamp pipe, then flow out from the first cooling circuit delivery port 13 being arranged at the xenon lamp pipe other end, the heat that xenon lamp pipe produces passes to cooling water by heat exchange method, reaches the object of cooling xenon lamp pipe.

Second cooling circuit is by the first electrode 21, is arranged at outside the first electrode 21 and the first metal sleeve structure 24 be tightly connected with xenon lamp pipe 11, and the loop that the first electrode nut 25 for fixing the first electrode is formed.

First metal sleeve structure 24 is provided with the second cooling circuit water inlet 22 and the second cooling circuit delivery port 23.One end of the outlet pipe at the second cooling circuit delivery port 23 place is arranged on the inner side of the second electrode 21.During embody rule, cooling water enters from the second cooling circuit water inlet 22, flows into inside the first electrode 21, then flowed out by the second cooling circuit delivery port 23 by the gap between the first metal sleeve structure 24 and the first electrode 21.In the flow process of cooling water, cooling water takes away the heat that the first electrode 21 produces, thus reaches the object of cooling first electrode 21.

3rd cooling circuit is by the second electrode 31, is arranged at outside the second electrode 31 and the second metal sleeve structure 34 be tightly connected with xenon lamp pipe 11, and the loop that the second electrode nut 35 for fixing the second electrode 31 is formed.

The one end second metal sleeve structure 34 being provided with the outlet pipe at the 3rd cooling circuit water inlet 32 and the 3rd cooling circuit delivery port the 33, three cooling circuit delivery port 33 place is arranged on the inner side of the 3rd electrode 31.During embody rule, cooling water enters from the 3rd cooling circuit water inlet 32, flow in the outlet pipe inside the second electrode 31 by the gap between the second metal sleeve structure 34 and the second electrode 31, then flowed out by the 3rd cooling circuit delivery port 33, in the flow process of cooling water, cooling water takes away the heat that the second electrode 31 produces, thus reaches the object of cooling second electrode 31.

In the present embodiment, in order to meet while quick heat radiating, extend the object in the service life of cooling system, the first metal sleeve structure and the second metal sleeve structure all adopt copper to make.

In order to reduce costs, reduce the assembly needed for xenon lamp systems, xenon lamp pipe-in-pipe adopts glass material one-body molded, water inlet and delivery port is all arranged on xenon lamp sleeve pipe simultaneously.

In other embodiments, the connector be connected between the second cooling circuit and the first cooling circuit and between the 3rd cooling circuit and the first cooling circuit also can adopt other structural design, such as adopt the parts with two parts interference fit to be connected, or adopt other parts that are resilient, that have some strength to connect.

In other embodiments, cooling water also by other material, such as can cool wet goods and substitutes.

More than describe preferred embodiment of the present utility model in detail.Should be appreciated that those of ordinary skill in the art just can make many modifications and variations according to design of the present utility model without the need to creative work.Therefore, all technical staff in the art according to design of the present utility model on the basis of existing technology by the available technical scheme of logical analysis, reasoning, or a limited experiment, all should by the determined protection domain of claims.

Claims (7)

1. the xenon lamp systems with cooling structure, at least comprises xenon lamp pipe, the first electrode and the second electrode, it is characterized in that, one end of described first electrode, one end of described second electrode are arranged in described xenon lamp pipe respectively; The xenon lamp systems of described band cooling structure also comprises the first cooling circuit for cooling described xenon lamp pipe, for cooling the second cooling circuit of described first electrode, and for cooling the 3rd cooling circuit of described second electrode, described first cooling circuit, described second cooling circuit and described 3rd cooling circuit are independently arranged separately.

2. the xenon lamp systems of band cooling structure as claimed in claim 1, it is characterized in that, described first cooling circuit is the loop be made up of the xenon lamp pipe-in-pipe be arranged at outside described xenon lamp pipe, described xenon lamp pipe and the first connector be arranged between described xenon lamp pipe and described xenon lamp pipe-in-pipe and the second connector; Described xenon lamp pipe-in-pipe is provided with the first cooling circuit water inlet and the first cooling circuit delivery port.

3. the xenon lamp systems of band cooling structure as claimed in claim 2, it is characterized in that, described second cooling circuit is by described first electrode, is arranged at the first metal sleeve structure be connected outside described first electrode and with the described xenon lamp seal of tube and the loop formed for the first electrode nut of fixing described first electrode, described first metal sleeve structure is provided with the second cooling circuit water inlet and the second cooling circuit delivery port.

4. the xenon lamp systems of band cooling structure as claimed in claim 3, it is characterized in that, described 3rd cooling circuit is by described second electrode, is arranged at the second metal sleeve structure be connected outside described second electrode and with the described xenon lamp seal of tube and the loop formed for the second electrode nut of fixing described second electrode, described second metal sleeve structure is provided with the 3rd cooling circuit water inlet and the 3rd cooling circuit delivery port.

5. the xenon lamp systems of band cooling structure as claimed in claim 4, it is characterized in that, described first metal sleeve structure and described second metal sleeve structure all adopt copper product.

6. the xenon lamp systems of band cooling structure as claimed in claim 5, it is characterized in that, described first connector is the first cork; Described second connector is the second cork.

7. the xenon lamp systems of band cooling structure as claimed in claim 5, is characterized in that, described xenon lamp pipe-in-pipe adopts glass material one-body molded.