CN110223906A - A kind of comprehensive mercury lamp radiator structure - Google Patents

Abstract

The invention discloses a kind of comprehensive mercury lamp radiator structures, including base device, lamp box shell and lamp bracket, the bottom of lamp bracket to be equipped with mercury lamp；The two sides of lamp bracket are respectively equipped with the first cavity and the second cavity, and base device is equipped with the water inlet being connected to the first cavity and the water outlet being connected to the second cavity, and the first cavity is connected to the second cavity；The two sides of lamp box shell are respectively equipped with the third cavity and the 4th cavity that one end is connected, and the first cavity is connected to the other end of third cavity, and the second cavity is connected to the other end of the 4th cavity；Cooling fin and blower are equipped at the top of lamp bracket, blower is connected to space where mercury lamp.Water cooling part in the comprehensive mercury lamp radiator structure can efficiently reduce lamp box kernel and skin temperature, the internally air-cooled part of auxiliary can also be quickly cooled down the temperature of mercury lamp simultaneously, be conducive to improve the service life of mercury lamp, it is mainly helped out due to air-cooled, it is smaller compared to full air cooling way power, therefore can also eliminate dust, noise pollution.

Description

A kind of comprehensive mercury lamp radiator structure

Technical field

The present invention relates to ultraviolet curing heat abstractor technical fields, more particularly to a kind of comprehensive mercury lamp heat dissipation knot Structure.

Background technique

Mercury lamp ultraviolet curing equipment can generate a large amount of heat in use, it is necessary to right in time by radiator structure Interior fittings radiate, and otherwise will affect the normal work of mercury lamp, or even seriously affect the service life of mercury lamp.

Existing mercury lamp radiator structure is usually to use the pure air-cooled or cold pure water type of cooling.Using pure air-cooled cold Although but cost is relatively low for mode, noise and dust pollution are larger, and the temperature of lamp box and the object that is cured is all higher；It is cold using pure water Type of cooling lamp box temperature is lower, noiseless and without dust pollution, but since lamp box kernel can only be cooled down using water-cooling pattern Then can only be cooling by air around the metal part of water flowing, mercury lamp and mercury lamp, efficiency is lower, and mercury lamp works long hours Lead to the lost of life at high temperature, especially in powerful situation, since mercury lamp calorific value is big and mercury lamp surrounding space gas Mobility it is bad and cause mercury lamp temperature excessively high, the phenomenon that causing mercury lamp deformation, bulge, rupture etc. to damage.

Therefore, cooling efficiency and service life inside mercury lamp how to be improved, and reduce dust, noise is those skilled in the art The important technological problems that member needs to solve at present.

Summary of the invention

In order to solve the problems in above-mentioned background technique, the present invention provides a kind of comprehensive mercury lamp radiator structure, energy The cooling efficiency inside mercury lamp is enough improved, is conducive to the service life for improving mercury lamp, but also dust, noise pollution can be eliminated.

Based on this, the present invention provides a kind of comprehensive mercury lamp radiator structures comprising base device is connected to the bottom On the base device and lamp box shell of sealed set and the lamp bracket for being installed on the lamp box interior of shell, the bottom of the lamp bracket is installed There is mercury lamp；The two sides of the lamp bracket along its length on be respectively equipped with the first cavity and the second cavity, on the base device Equipped with the water inlet being connected to the first end of first cavity and the water outlet being connected to the first end of second cavity, institute The second end for stating the first cavity is connected to the second end of second cavity；

The two sides of the lamp box shell are respectively equipped with the third cavity and the 4th cavity that one end is connected, first cavity It is connected to the other end of the third cavity, second cavity is connected to the other end of the 4th cavity；

Cooling fin and blower are equipped at the top of the lamp bracket, the blower is connected to space where the mercury lamp.

Preferably, the base device includes the bottom plate of the guide rail being oppositely arranged and the connection guide rail, described Lamp box shell is slidably connected between two guide rails.

Preferably, the first end of the guide rail is connected with connector mounting plate, the water inlet and the water outlet It is all set on the connector mounting plate.

Preferably, the third cavity and the 4th cavity are arranged along the length direction of the lamp box shell； Water swivel is connected between the lamp bracket and the lamp box shell, the inside of the water swivel has the first pipeline and the second pipe The first end of road, the first end of first cavity and the third cavity passes through first pipeline connection, second chamber The first end of body and the first end of the 4th cavity pass through second pipeline connection.

Preferably, the mutual parts of water flow, the third chamber are connected between the second end of lamp box shell two sides The second end of body is connected to the second end of the 4th cavity by the mutual parts of the water flow.

Preferably, the top of the lamp box shell is covered by top cover, and the length of the lamp bracket is less than the lamp The length of box enclosure, and the ventilation being connected with space where the mercury lamp is formed in the second end close to the lamp box shell Space.

Preferably, the first end of lamp box shell two sides is connected with patch bay, the water inlet and institute It states and is mounted on water pipe female connector on water outlet, set opposite with two water pipe female connectors is installed on the patch bay The water pipe pin end set.

Preferably, it is connected between the patch bay and the lamp bracket into water cover plate, two water pipes Pin end enters water cover plate described in and is connected to respectively with first cavity and second cavity.

Preferably, the lamp box is envelope filled inert gas.

Preferably, the cross section of the lamp bracket is domed, and the mercury lamp is installed on the inside arc of the lamp bracket The bottom in face；The bottom cover of the lamp box shell has flat glass.

Compared to the prior art, the beneficial effects of the present invention are:

Comprehensive mercury lamp radiator structure of the invention including base device, is connected on base device and sealed set Lamp box shell and the lamp bracket for being installed on lamp box interior of shell, the bottom of lamp bracket are equipped with mercury lamp, and usual lamp bracket is made of aluminium, Convenient for quickly absorbing the infrared heat of mercury lamp generation.By the two sides of lamp bracket along its length on be respectively equipped with the first cavity With the second cavity, the water inlet being connected to the first end of the first cavity and the first end with the second cavity are equipped on base device The water outlet of connection, and it is connected to the second end of the first cavity and the second end of the second cavity, while by outside lamp box The two sides of shell are respectively equipped with the third cavity and the 4th cavity that one end is connected, and connect the other end of the first cavity and third cavity Logical and the second cavity is connected to the other end of the 4th cavity, to form water-cooling pattern, specific water circulation direction is, from The ice water that water inlet flows into after freezing, which quickly reaches, to be needed cooling lamp box inner core region and is divided into two branches, all the way Followed by the first cavity and the second cavity inside lamp bracket, the heat that the mercury lamp for being absorbed to lamp bracket generates carries out hot friendship It changes, thus to cooling down around mercury lamp；Another way successively flows to the third cavity and the 4th cavity of lamp box interior of shell, is used for Cool down to lamp box shell, the hot water stream that two-way passes through after heat exchange is brought together finally flow to external system via water outlet In cooling system, utilized to further circularly cooling.Since the efficiency of water-cooling pattern cooling is very high, can efficiently reduce The temperature of mercury lamp core part and lamp box shell avoids the high temperature due to lamp box from causing the high temperature deformation of stock；Moreover, also It can achieve the purpose that efficiently cooling, noiseless pollution, without dust pollution, lamp box temperature is low, stock temperature is low；

Meanwhile it being additionally provided with air-cooled aided cooling mode with what water-cooling pattern cooperated, by being equipped with heat dissipation at the top of lamp bracket Piece and blower, and blower is connected to the space where mercury lamp, generates sealing and circulating in the inside of lamp box shell by blower as a result, On the one hand air-flow, the circulating current directly come into full contact with mercury lamp, take away the heat of mercury lamp and mercury lamp surrounding air, another party Cooling fin of the face also with lamp bracket back comes into full contact with, and by cooling fin by after heat absorption entrained in circulating current, then leads to It crosses the good lamp bracket of heating conduction and quickly passes to cooling water flow inside lamp bracket, to be discharged outside lamp box, then by external refrigeration Cooling system recycles, which does not have external air cooling equipment, can eliminate dust and noise pollution.Pass through as a result, Water-cooling pattern simultaneously combines air-cooled supplementary mode, the advantages of can playing two kinds of types of cooling simultaneously, can reach raising cooling efficiency, The purpose of noise and dust pollution is eliminated, and makes full use of air-cooled supplementary mode, good heat radiating is realized to mercury lamp, is conducive to The service life of mercury lamp is improved, and plays complementation, is avoided individually using noise and dust pollution caused by air-cooled cooling Larger, lamp box and the higher problem of object temperature that is cured also avoid individually using mercury lamp temperature caused by cooling by water excessively high The problem of causing mercury lamp bulge to damage has preferable cooling effect.

Detailed description of the invention

Fig. 1 is a kind of configuration schematic diagram of comprehensive mercury lamp radiator structure provided in an embodiment of the present invention；

Fig. 2 is the schematic perspective view of lamp bracket provided in an embodiment of the present invention；

Fig. 3 is the schematic perspective view of the water swivel of the embodiment of the present invention；

Fig. 4 is the water flow circuits schematic diagram of water-cooling pattern provided in an embodiment of the present invention；

Fig. 5 is the inside circulation schematic diagram of air cooling way provided in an embodiment of the present invention.

Wherein, 10, base device；11, water inlet；12, water outlet；13, guide rail；14, bottom plate；15, connector mounting plate； 16, water pipe female connector；20, lamp box shell；21, third cavity；22, the 4th cavity；23, the mutual parts of water flow；24, plug is installed Plate；25, water pipe pin end；26, enter water cover plate；27, sliding rail；30, lamp bracket；31, the first cavity；32, the second cavity；40, water connects Head；41, the first pipeline；42, the second pipeline；50, top cover；60, cooling fin；70, blower；100, lamp box shell water circulation road Line；200, lamp bracket water circulation route；300, internally air-cooled circulation route.

Specific embodiment

With reference to the accompanying drawings and examples, specific embodiments of the present invention will be described in further detail.Obviously, it is retouched The embodiment stated is only a part of the embodiment of the present invention, instead of all the embodiments.Based on the embodiments of the present invention, originally Field those of ordinary skill every other embodiment obtained without making creative work, belongs to the present invention The range of protection.

In the description of the present invention, it should be noted that term " center ", " longitudinal direction ", " transverse direction ", "upper", "lower", The orientation or positional relationship of the instructions such as "left", "right", "front", "rear", "vertical", "horizontal", "top", "bottom" "inner", "outside" is It is based on the orientation or positional relationship shown in the drawings, is merely for convenience of description of the present invention and simplification of the description, rather than instruction or dark Show that signified device or element must have a particular orientation, be constructed and operated in a specific orientation, therefore should not be understood as pair Limitation of the invention.It should be understood that term " first ", " second " etc. are used for description purposes only, being used to will be same type of Information is distinguished from each other out, and is not understood to indicate or imply relative importance.

Refer to attached drawing 1, it is schematically shown that comprehensive mercury lamp radiator structure of the invention refers to attached drawing 1 and attached Fig. 2, it is schematically shown that comprehensive mercury lamp radiator structure of the invention, including base device 10, lamp box shell 20 and lamp bracket 30.Wherein, lamp box shell 20 is sealed set and is connected on base device 10 that lamp bracket 30 is installed on inside lamp box shell 20, The bottom of lamp bracket 30 is equipped with mercury lamp (not shown), and in the present embodiment, lamp bracket 30 is made of aluminium, convenient for quickly inhaling Receive the infrared heat that mercury lamp generates.Importantly, the two sides of lamp bracket 30 along its length on be respectively equipped with the first cavity 31 With the second cavity 32, it is provided with water inlet 11 and water outlet 12 on base device 10, the first of water inlet 11 and the first cavity 31 (attached left end shown in fig. 1) connection is held, water outlet 12 is connected to the first end of the second cavity 32, the first cavity 31 and the second cavity 32 second end (attached right end shown in fig. 1) connection, two lamp box shells 20 are respectively equipped with the third cavity 21 that one end is connected With the 4th cavity 22, the first cavity 31 is connected to the other end of third cavity 21, and the second cavity 32 is another with the 4th cavity 22 End connection, (such as attached drawing 1 is connected to the first end that attached drawing 4 shows the first cavity 31 with the first end of third cavity 21, second The first end of cavity 32 is connected to the first end of the 4th cavity 22, the second end of the second end of third cavity 21 and the 4th cavity 22 The specific embodiment of connection).In this way, as shown in Fig. 4, external water flow is divided into two after entering radiator structure from water inlet 11 Road is all the way 30 water circulation route 200 of lamp bracket, into the first end of the first cavity 31, using the second of the first cavity 31 End flows into the second end of the second cavity 32, then then flows into the first end of the second cavity 32, in the process water flow and lamp bracket 30 Carry out heat exchange, take away the heat that the mercury lamp that lamp bracket 30 absorbed generates, be embodied as the cooling of lamp bracket 30, thus to around mercury lamp into Row cooling；Another way is 20 water circulation route 100 of lamp box shell, into wherein one end of third cavity 21, using third The second end of cavity 21 flows into the second end of the 4th cavity 22, then then flows into the first end of the 4th cavity 22, in the process Water flow and lamp box shell 20 carry out heat exchange, take away the heat of lamp box shell 20, are embodied as the cooling of lamp box shell 20.From the second chamber The first end of body 32 and the two-way water flow of the first end of the 4th cavity 22 outflow are brought together, and are then discharged to from water outlet 12 outer Portion utilizes after external refrigeration system is cooling to further circularly cooling.Moreover, being equipped with heat dissipation at the top of the lamp bracket 30 Piece 60 and blower 70, and the blower 70 is connected to space where the mercury lamp, by blower 70 in the inside of lamp box shell 20 Sealing and circulating air-flow is generated, on the one hand which directly comes into full contact with mercury lamp, take away mercury lamp and mercury lamp surrounding air Heat, on the other hand cooling fin 60 also with 30 back of lamp bracket comes into full contact with, and will be taken in circulating current by cooling fin 60 After the heat absorption of band, then pass through the good lamp bracket 30 of heating conduction and quickly pass to the cooling water flow inside lamp bracket 30, is discharged Outside lamp box, cool down to realize to mercury lamp ambient enviroment.

Comprehensive mercury lamp radiator structure based on above-mentioned technical characteristic, passes through.Water inlet 11, the first cavity 31, the second chamber Body 32, third cavity 21, the 4th cavity 22, water outlet 12 form two water stream channels (30 water circulation route 200 of lamp bracket and lamps 20 water circulation route 100 of box enclosure), the cold water being externally entering in the flow process of two water stream channels, respectively with lamp Frame 30 and lamp box shell 20 persistently carry out heat exchange, and the heat on lamp bracket 30 and lamp box shell 20 is taken away, and play as lamp bracket 30 The effect to cool down with lamp box shell 20.Since the efficiency of water-cooling pattern cooling is very high, mercury lamp core can be efficiently reduced The temperature of accessory and lamp box shell 20 avoids the high temperature due to lamp box from causing the high temperature deformation of stock.It can also sufficiently The advantages of playing cooling by water, reaches that efficiently cooling, noiseless pollution, without dust pollution, lamp box temperature is low, stock temperature is low Purpose.Meanwhile internal gas flow circulation canal is formed (referring to 5 institute of attached drawing by space where blower 70, cooling fin 60 and mercury lamp The internally air-cooled circulation route 300 shown), which does not have external air cooling equipment, can eliminate dust and noise pollution.By This can be reached as it can be seen that the advantages of passing through water-cooling pattern and combining air-cooled aided cooling mode, can play two kinds of types of cooling simultaneously To cooling efficiency is improved, the purpose of noise and dust pollution is eliminated, and makes full use of air-cooled supplementary mode, mercury lamp is realized Good heat radiating is conducive to the service life for improving mercury lamp, and plays complementation, avoids individually using caused by air-cooled cooling Noise and dust pollution is larger, lamp box and the higher problem of object temperature that is cured, also avoids individually causing using cooling by water Mercury lamp temperature it is excessively high cause mercury lamp bulge damage the problem of, have preferable cooling effect.

It should be noted that the first end of the first cavity 31 can also be with the second of third cavity 21 in above-described embodiment End connection, the first end of the second cavity 32 are connected to the first end of the 4th cavity 22, the first end of third cavity 21 and the 4th chamber The second end of body 22 is connected to, and above-mentioned technical effect also may be implemented in this water-cooling pattern for intersecting connection, and details are not described herein.

Mercury lamp is nearby easy to generate ozone after being irradiated by ultraviolet light there are oxygen, pollutes environment, and oxygen can also hinder The transmission of ultraviolet light weakens the solidification effect of ultraviolet light.Due to the inner sealing of lamp box shell 20, it is preferable that in lamp box shell Filled with inert gas, such as nitrogen in 20, filled into lamp box shell 20 plus nitrogen after can drive away internal oxygen, due to not having On the one hand ozone pollution environment will not be generated by having the presence of oxygen, on the other hand due to the obstruction without oxygen to ultraviolet light, So that being more efficiently irradiated on stock by the ultraviolet energy that mercury lamp generates, solidification effect is more preferably.In this way, both sufficiently sharp It is efficient, environmentally friendly with water-cooling, the air-cooled good heat radiating to mercury lamp is also taken full advantage of, ensure that mercury lamp uses the longevity Life.

As a preferred option, base device 10 includes the bottom plate 14 of the guide rail 13 being oppositely arranged and connection guide rail 13, lamp Box enclosure 20 is slidably connected between two guide rails 13, is equipped with the sliding rail being slidably matched with guide rail 13 in the side wall of lamp box shell 20 27, it is matched by sliding rail 27 and guide rail 13, is easily installed repair demolition.

Specifically, referring to figure 1, the first end of guide rail 13 is connected with connector mounting plate 15, water inlet 11, water outlet 12 and air outlet be all set on connector mounting plate 15, this integrated design can reduce number of parts, improve assembly effect Rate.

As preferred embodiment, as shown in Fig. 3, the length of third cavity 21 and the 4th cavity 22 along lamp box shell 20 Direction setting is spent, water swivel 40 is connected between lamp bracket 30 and lamp box shell 20, the inside of water swivel 40 has the first pipeline 41 It is connected to the first end of third cavity 21 by the first pipeline 41 with the first end of the second pipeline 42, the first cavity 31, the second chamber The first end of body 32 is connected to the first end of the 4th cavity 22 by the second pipeline 42.Further, lamp box shell 20 two sides The mutual parts 23 of water flow are connected between second end, the second end of third cavity 21 and the second end of the 4th cavity 22 are mutual by water flow Parts 23 are connected to.In this way, external water stream is introduced into the first end to the first cavity 31, wherein one after the entrance of water inlet 11 Point water flow enters the first end of third cavity 21 by the first pipeline 41, then passes through water flow from the second end of third cavity 21 Mutual parts 23 flow into the second end of the 4th cavity 22, flow to the first end of the 4th cavity 22, finally enter again from the second pipeline 42 Second cavity 32 cools down for lamp box shell 20.Another part water flow flows to the first cavity from the first end of the first cavity 31 31 second end enters the second cavity 32 from the second end of the first cavity 31, cools down for lamp bracket 30, two parts water flow exists The first end of second cavity 32 is converged, and is finally discharged from water outlet 12.

Preferably, it being covered at the top of lamp box shell 20 by top cover 50, the length of lamp bracket 30 is less than the length of lamp box shell 20, And it is formed with the airspace being connected to space where mercury lamp in the second end close to lamp box shell 20, which is located at lamp Between the second end of box enclosure 20 and the second end of lamp bracket 30, as shown in figure 5, comprehensive mercury lamp radiator structure blower 70 is in lamp box The inside of shell 20 generates sealing and circulating air-flow, and the ventilation that the air-flow of flowing enters the second end close to lamp box shell 20 is empty Between, since space where mercury lamp is connected to airspace, internal gas flow flow to mercury lamp place space, directly with mercury lamp Ambient enviroment carries out heat exchange, cools down to mercury lamp, while the gas recycled after heating is contacted with cooling fin 60 again, passes through cooling fin 60 by after heat absorption entrained in circulating current, then is quickly passed in lamp bracket 30 by the good lamp bracket 30 of heating conduction The cooling water flow in portion to be discharged outside lamp box, then is utilized by external refrigeration system refrigeration cycle, and the circulation passage of gas almost passes through Entire comprehensive mercury lamp radiator structure is worn, can farthest be cooled down using the air-cooled type of cooling to mercury lamp, improve cooling effect Fruit prevents mercury lamp from working long hours in excessively high temperature, improves the service life of mercury lamp, and the air-cooled structure does not have external wind Device for cooling can eliminate dust and noise pollution.

More specifically, the first end of 20 two sides of lamp box shell is connected with patch bay 24, water inlet 11 and the water outlet It is mounted on water pipe female connector 16 on mouth 12, the water being oppositely arranged with two water pipe female connectors 16 is installed on patch bay 24 Pipe pin end 25.It is further preferred that water pipe female connector 16 and water pipe pin end 25 are all made of self-sealing quick coupling, when use Water pipe pin end 25 is inserted on water pipe female connector 16, water flow can automatic switching on, by water pipe pin end 25 once from water pipe mother After being detached from connector 16, water pipe pin end 25 and water pipe female connector 16 live water flow with regard to respective self-closed, avoid extra water flow Out, to improve switching efficiency.

It is further preferred that being connected between mounting plate and lamp bracket 30 into water cover plate 26, two water pipe pin ends 25 pass through Enter water cover plate 26 to be connected to first cavity 31 and the second cavity 32 respectively, while entering water cover plate 26 prevented also from the first cavity 31 and the second water in cavity 32 leaked out between lamp bracket 30 and patch bay 24, realize close communication.

As preferred embodiment, the cross section of the lamp bracket 30 in above-described embodiment is domed, and mercury lamp is installed on lamp bracket The bottom of 30 inside arcwall face, so that most of ultraviolet light that mercury lamp issues is focused by the reflection of cambered surface, to form high-energy close The ultraviolet light of degree is irradiated on stock for rapid curing.The bottom cover of lamp box shell 20 has flat glass (quilt in figure Block), for the bottom of packaged lamp box enclosure 20, and for placing stock, realize the solidification to stock.

It should also be noted that, in the description of the present invention unless specifically defined or limited otherwise, term " installation ", " connected ", " connection " shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or integrally connect It connects；It can be mechanical connection, be also possible to be electrically connected；It can be directly connected, can also indirectly connected through an intermediary, it can To be the connection inside two elements.For the ordinary skill in the art, above-mentioned term can be understood with concrete condition Concrete meaning in the present invention.

In conclusion comprehensive mercury lamp radiator structure provided by the invention passes through water inlet 11, the first cavity 31, the second chamber Body 32, third cavity 21, the 4th cavity 22, water outlet 12 form two water stream channels, respectively with lamp bracket 30 and lamp box shell 20 Heat exchange is persistently carried out, plays the role of cooling down for lamp bracket 30 and lamp box shell 20, meanwhile, by blower 70 in lamp box shell 20 Inside generate sealing and circulating air-flow, directly for mercury lamp cool down, and pass through cooling fin 60 transfer heat on lamp bracket 30, then It is passed by water cooling carrier, good to the cooling effect of mercury lamp, two kinds of types of cooling are used cooperatively, and can achieve efficiently cold But, noiseless pollution, the purpose that without dust pollution, lamp box temperature is low, stock temperature is low, also can be avoided exclusive use water cooling The problem that the type of cooling causes mercury lamp cooling effect bad, application and popularization value with higher.

The method and apparatus of the not detailed description of the present invention are the prior art, are repeated no more.

The above is only a preferred embodiment of the present invention, it is noted that for the ordinary skill people of the art For member, without departing from the technical principles of the invention, several improvement and replacement can also be made, these are improved and replacement Also it should be regarded as protection scope of the present invention.

Claims (10)

1. a kind of comprehensive mercury lamp radiator structure, which is characterized in that including base device, be connected to it is on the base device and close It seals the lamp box shell of setting and is installed on the lamp bracket of the lamp box interior of shell, the bottom of the lamp bracket is equipped with mercury lamp；It is described The two sides of lamp bracket along its length on be respectively equipped with the first cavity and the second cavity, the base device is equipped with and described the The water inlet of the first end connection of one cavity and the water outlet being connected to the first end of second cavity, first cavity Second end is connected to the second end of second cavity；

The two sides of the lamp box shell are respectively equipped with the third cavity and the 4th cavity that one end is connected, first cavity and institute The other end connection of third cavity is stated, second cavity is connected to the other end of the 4th cavity；

Cooling fin and blower are equipped at the top of the lamp bracket, the blower is connected to space where the mercury lamp.

2. comprehensive mercury lamp radiator structure according to claim 1, which is characterized in that the base device includes opposite sets The bottom plate of the guide rail and the connection guide rail set, the lamp box shell are slidably connected between two guide rails.

3. comprehensive mercury lamp radiator structure according to claim 2, which is characterized in that the first end of the guide rail is connected with Connector mounting plate, the water inlet and the water outlet are all set on the connector mounting plate.

4. comprehensive mercury lamp radiator structure according to claim 1, which is characterized in that the third cavity and the described 4th Cavity is arranged along the length direction of the lamp box shell；It is connected with water swivel between the lamp bracket and the lamp box shell, it is described The inside of water swivel has the first pipeline and the second pipeline, the first end of the first end of first cavity and the third cavity By first pipeline connection, the first end of second cavity and the first end of the 4th cavity are managed by described second Road connection.

5. comprehensive mercury lamp radiator structure according to claim 4, which is characterized in that the second of lamp box shell two sides The mutual parts of water flow are connected between end, the second end of the third cavity and the second end of the 4th cavity pass through the water flow Mutual parts connection.

6. comprehensive mercury lamp radiator structure according to claim 1, which is characterized in that pass through at the top of the lamp box shell Top cover capping, the length of the lamp bracket are less than the length of the lamp box shell, and in the second end shape close to the lamp box shell The airspace that space where mercury lamp described in Cheng Youyu is connected.

7. comprehensive mercury lamp radiator structure according to claim 3, which is characterized in that the first of lamp box shell two sides End is connected with patch bay, and water pipe female connector, the patch bay are mounted on the water inlet and the water outlet On the water pipe pin end being oppositely arranged with two water pipe female connectors is installed.

8. comprehensive mercury lamp radiator structure according to claim 7, which is characterized in that the patch bay and the lamp Be connected between frame into water cover plate, two water pipe pin ends by it is described enter water cover plate respectively with first cavity and institute State the connection of the second cavity.

9. comprehensive mercury lamp radiator structure according to any one of claims 1 to 8, which is characterized in that the lamp box shell It is interior filled with inert gas.

10. comprehensive mercury lamp radiator structure according to any one of claims 1 to 8, which is characterized in that the cross of the lamp bracket Section is domed, and the mercury lamp is installed on the bottom of the inside arcwall face of the lamp bracket；The bottom cover of the lamp box shell has Flat glass.