CN201785486U - Novel spray header device of MOCVD equipment - Google Patents

Abstract

The utility model discloses a novel spray header device of MOCVD (Metal Organic Chemical Vapor Deposition) equipment. The device comprises a gas distribution unit and a jet chamber, which are encircled to form a closed space; the gas distribution unit comprises a gas inlet end surface and a plurality of gas inlet grouping baffle plates; the gas inlet end surface comprises a plurality of gas passing areas and a plurality of gas blocking areas; the gas inlet grouping baffle plates separate the gas inlet end surface according to different gas inlet groups; the jet chamber comprises a gas outlet end surface and a plurality of gas outlet baffle plates; a plurality of through gas outlet holes are formed on the gas outlet end surface; the gas outlet baffle plates separate the jet chamber; the gas passing areas of the gas distribution unit and the gas outlet holes of the jet chamber form a plurality of vertically separated gas circuit units; and a plurality of vertically separated gas circuit units in the same gas inlet grouping baffle plate form a group of vertically separated gas circuits. The device adopts a design idea of vertically separating the gas circuits, so that after gas flow is separated, different gases enter the device alternately at intervals through respective channels, thereby achieving the purpose that different gases are transported in an isolated manner and finally mixed evenly in the same space.

Description

A kind of MOCVD equipment novel spray header device

Technical field

The utility model relates to a kind of metal organic chemical vapor deposition equipment, especially a kind of MOCVD equipment novel spray header device.

Background technology

Metal organic chemical vapor deposition equipment (Metal Organic Chemical VaporDeposition is called for short MOCVD) is the key processing equipment of thin-film devices such as preparation high brightness LED, high power laser and High Electron Mobility Transistor.Component is even, thickness is even, the interface is precipitous is the basic demand of film growth, and the homogeneity that improves film growth is the core missions of MOCVD reactor Continual Improvement.A kind of rectilinear reactor of main flow adopts spray header closely to spray to reach the raising homogeneity, the purpose of multi-disc growth.Improving an inhomogeneity main method is exactly the structure of improving spray header, independently supplies gas to realize multicomponent gas, near thorough mixing before the substrate, reduces the purpose of the high temperature parasitic deposition on parasitic reaction and the spray header simultaneously to greatest extent.

One denomination of invention is " the big area pectination spray header that is used for metal organic chemical vapor deposition equipment " (Chinese application number: CN200710035447.2A, open day: on February 13rd, 2008), introduced a kind of spray header of big area pectination form, can realize that III family and group V source gas independently supplies gas from spray header one-piece construction both sides respectively, and above the reaction chamber substrate, evenly spray, the method of its realization: adopt house steward 1,4 air inlets, arm is supplied gas, two class source of the gas arms 3 are staggered, and in the even spray apertures of arranging of homonymy processing, this class device can adopt the rectangle one-piece construction, also can adopt circular one-piece construction, as shown in Figure 1.The advantage of this invention is: realized sending into two source gas substantially and it was isolated before spraying into reaction chamber mutually, mixed when arriving on the substrate side reactor; Its shortcoming is: (1) is although above invention realizes independently supplying gas, but arriving each arm end from the house steward joint, gas may have the pressure inequality, make from the flow velocity inequality of each arm aperture ejection gas, finally cause the uneven extension effect that influences of substrate surface air-flow.(2) spray header requirement gas emission direction must be perpendicular to substrate surface, and foregoing invention only is difficult to guarantee to accomplish this point by the structure of tube wall boring.(3) although be two-way gas partitions air inlet remix on current all MOCVD spray header one-piece constructions, not getting rid of to need to increase the third even more kinds of independent air inlet gas circuit under some particular form, and foregoing invention is not obviously supported this situation.

Another piece denomination of invention is the United States Patent (USP) (application number: US2009/0098276A1 of " Multi-GAS Straight Channel Showerhead ", open day: on April 16th, 2009) be the most general spray header form of present MOCVD equipment, Fig. 2 has expressed its constructional feature, III family and group V source gas enter the first air inlet overall channel 144 and the second air inlet overall channel 145 of spray header device 104 respectively from inlet mouth 131 and 132, by first bypass passage 142 and second bypass passage 143, finally enter hybrid channel 150, spray to substrate the back of giving vent to anger.This apparatus features is: (1) gas distribution channel is the horizontal stratification straight channel, is connected with the jet chamber to adopt the metal hollow pipe, and welding is adopted in the junction of open tube and induction trunk, guarantees independently transporting of two-way reactant gases; (2) alternate between the gas channels in the jet chamber have a parallel with it water-cooling channel, in order to cool air injection gas, improves temperature homogeneity.(3) the staggered dense arrangement of the alternate water-cooling channel of jet hole of spray equipment bottom mentions in its scheme that at close reaction wall place, jet hole adopts macropore or intensive hole to prevent boundary current field instability, influences the sedimentary quality of peripheral substrate.(4) this patent also proposes when the spray equipment bear subregion and finishes, and promptly only finishes a kind of injection of gas in zone, and the method that the zone is divided can adopt radially to be cut apart or concentric-ring pattern is cut apart.More than Fa Ming relative merits are: advantage: realized sending into two source gas substantially and it was isolated before spraying into reaction chamber mutually, mixed when arriving on the substrate side reactor; Shortcoming: (1) device is subjected to the restriction of horizontal stratified charge passage, connection between the passage can only be adopted the metal hollow sealing of tube, but the aperture of jet chamber is thousands of, and quantity increases sharply with the area increase, require the point of poling welding too many, too intensive, existing weldprocedure is difficult to guarantee that it is indeformable and air tight.In case gas leakage integral body is arranged just scraps.(2) water-cooling channel and gas passage are parallel to each other, certainly will occupying device perpendicular to the injection useful area of air flow line, reduced the homogeneity that whole regional gas stream sprays.(3) utilize the flow velocity that improves jet flow stream near the macropore or the intensive hole at reaction wall place, this part gas includes reactant gases, certainly will cause the reactant gases air consumption to increase, and simultaneously alternate water-cooling channel is difficult to guarantee the stability and the homogeneity in peripheral flow field.

The utility model content

At the problems referred to above, the utility model adopts the vertical design philosophy of separating of gas circuit, gas with various was by passage alternate intervals air inlet separately after the air-flow separation was finished, realized the isolation conveying of gas with various and finally realized uniform mixing at the same space, avoid thousands of intensive metal hollow pipes of welding, adopted simple complete processing to realize.

In order to realize above-mentioned utility model purpose, the utility model has adopted following technical scheme:

A kind of MOCVD equipment novel spray header device is characterized in that, described spray header device comprises that a gas distribution member and a jet chamber enclose formation one enclosed space, wherein:

Described gas distribution member comprises an air inlet end face and some air inlets grouping dividing plate, and described inlet end face comprises some gases by district and some gas barriers district, and described air inlet grouping dividing plate cuts off described air inlet end face mutually according to the various inlet group;

Described jet chamber comprises give vent to anger end face and some dividing plates of giving vent to anger, and offers some perforation production wells on the described end face of giving vent to anger, and the described dividing plate of giving vent to anger is separated described jet chamber;

Wherein, the gas of described gas distribution member constitutes some vertical separation gas circuits unit by the district with the production well of described jet chamber, and the some vertical separation gas circuit unit in the described same air inlet grouping dividing plate constitutes one group and vertically separates gas circuit.

Reasonablely be, described gas distribution member and described jet chamber comprise first ring part and second ring part that periphery is closed respectively, and described air inlet end face, the end face of giving vent to anger are respectively a Closed End of described first, second ring part.

Reasonablely be, the some openings of alternative are arranged on the described air inlet end face, described opening portion forms described gas by the district, and described not opening portion forms described gas barrier district, and described air inlet grouping dividing plate and the described dividing plate of giving vent to anger are straight plate.

Reasonablely be, to divide some annular regions in described air inlet end face central point some fan sections that are the center of circle, the some openings of alternative are arranged in described annular region, described opening portion forms described gas by the district, described not opening portion forms described gas barrier district, described air inlet division plate is for being the toroidal membrane in the center of circle with air inlet end face central point, and the described dividing plate of giving vent to anger is for being the radially dividing plate in the center of circle with the described end face central point of giving vent to anger.

Reasonablely be, with described air inlet end face central point is in the some same circle ring area in the center of circle, opening portion and opening portion are not arranged respectively, described opening portion forms described gas by the district, described not opening portion forms the gas barrier district, and the described dividing plate of giving vent to anger is for being the toroidal membrane in the center of circle with the described end face central point of giving vent to anger.

Reasonablely be, the end face center of giving vent to anger of described jet chamber is provided with one the 3rd ring part, and the described dividing plate of giving vent to anger is the inwall to described second ring part from the 3rd ring part periphery wall radial extension.

Reasonablely be, the described dividing plate of giving vent to anger comprises straight plate, serration plate or wavy plate.

Reasonablely be, described jet chamber comprises a shirt rim gas curtain, and described shirt rim gas curtain is embedded the hole, some shirt rims between the outside in described second ring part.

Reasonable is that the described production well of described jet chamber is provided with a water-cooling channel between any two.

Description of drawings

Below, with reference to accompanying drawing, for those skilled in the art that, to the detailed description of the present utility model, above-mentioned and other purposes of the present utility model, feature and advantage will be apparent.

Fig. 1 is the structural representation of a Chinese invention patent application case in the prior art;

Fig. 2 is the structural representation of U.S. application for a patent for invention case in the prior art;

Fig. 3 a～3c is the utility model spray header device first example structure synoptic diagram, and wherein 3a is the substructure synoptic diagram of its gas distribution member, and Fig. 3 b is the structure iron of jet chamber, and Fig. 3 c is the spray header device synoptic diagram after Fig. 3 a, the 3b combination;

Fig. 4 a～4c is the utility model spray header device second example structure synoptic diagram, and wherein Fig. 4 a is the substructure synoptic diagram of gas distribution member, and Fig. 4 b is the structure iron of jet chamber, and Fig. 4 c is the spray header device synoptic diagram after Fig. 4 a, the 4b combination;

Fig. 5 a～5b is aforementioned second embodiment is gone into gas when being applied in two kinds of different occasions by gas distribution member a synoptic diagram;

Fig. 6 a～6c is a kind of deformed configurations of Fig. 5 a and 5b, and wherein, Fig. 6 c is a kind of distressed structure of Fig. 4 b, and Fig. 6 a and 6b are that the gas distribution member of this structure applications when two kinds of different occasions gone into the gas synoptic diagram;

Fig. 7 a～7b is the structural representation of the utility model spray header device the 3rd embodiment;

Fig. 8 is a kind of distressed structure synoptic diagram of Fig. 3 b;

Fig. 9 is a kind of distressed structure synoptic diagram of Fig. 6 c;

Figure 10 is the A-A sectional view of Fig. 3 b;

Figure 11 is the another kind of A-A sectional view of Fig. 3 b;

Figure 12 is with the external structure synoptic diagram after gas distribution member and the jet chamber's combination;

Figure 13 is the jet chamber's structural representation that has shirt rim gas curtain structure;

Figure 14 is the B-B cross-sectional schematic of Figure 13;

Figure 15 is the synoptic diagram at interval of the concentric-ring pattern shown in Fig. 7 a and the 7b;

Figure 16 is a kind of distressed structure of gas distribution member among Fig. 3 c;

Figure 17 (a) is the spray header longitudinal sectional view that has added water-cooling structure;

Figure 17 (b) is the A-A sectional view of Figure 17 (a);

Figure 18 is the sectional view of the utility model spray header device.

Embodiment

In this embodiment part, the applicant has introduced three kinds of main embodiment form and distressed structures thereof, need to prove, Figure 18 has reflected the sectional structure chart of the spray header device under the various embodiment situations, all can be when each embodiment is introduced with reference to this figure (for simplicity, the applicant has adopted the label of first embodiment to Figure 18).

The utility model first embodiment shown in accompanying drawing 3a～3c is the board-like spray header jet apparatus of a kind of straight parallel, concrete shape and being configured to:

This jet apparatus by gas distribution member 30 and jet chamber about in the of 31 two portions form, wherein gas distribution member 30 is shown in Fig. 3 a, this unit has the first closed ring part 300 of periphery, the one end face sealing of this first ring part 300 forms inlet end face 310, offer some parallel open on this air inlet end face 310, opening portion is not with alternately arrangement formation of opening portion gas barrier district 3021 and gas pass through district 3022.In the opposite side of air inlet end face 310, some air inlet grouping dividing plates are divided into some air inlet groups with first ring part 300, by air inlet grouping dividing plate 308,309 air inlet end face 310 is divided into three air inlet groups 301 as present embodiment, 302,303, like this in every air inlet group 301,302, in 303, there are some gas barriers district 3021 and gas to distribute respectively by the parallel interval in district 3022.

With the structure of the jet chamber 31 of this gas distribution member 30 combinations shown in Fig. 3 b, comprise second ring part 310 that equates in fact with aforementioned first ring part 300, be that effective jet face mapping equates, the one end face sealing of second ring part 310 forms outlet side face 320, on the end face 320 of giving vent to anger, evenly offer some production wells 321 of perforation, the equal dividing plate 311 of giving vent to anger of spacing in twos is set in the opposite side of end face 320 of giving vent to anger, and some dividing plates 311 of giving vent to anger will be divided into some parallel spaces in second ring part 310.The dividing plate 311 of giving vent to anger in the present embodiment is board-like for straight parallel, but can be other geometrical shapies, includes but not limited to shapes such as arc, zig-zag.

Provided synoptic diagram after Fig. 3 a and the 3b combination as Fig. 3 c, gas in the gas distribution member 30 is formed vertical separation gas circuit unit 314 by district 3022 with corresponding jet chamber's 31 interior production wells that connect 321, and the vertical separation gas circuit unit 314 in the same air inlet group constitutes one group and vertically separates gas circuit 313.In use, gas distribution member 30 and jet chamber 31 are combined into the structure of Figure 12, wherein, three air inlet groups 301,302,303 respectively corresponding three admission pieces 3011,3031 and 3041, enter the vertical separation gas circuit unit 314 of gas distribution member 30 and jet chamber 31 combinations by admission piece, because air inlet grouping dividing plate 308,309 separation, so the vertical separation gas circuit unit 314 shown in Fig. 3 c constitutes three groups and vertically separates gas circuit 313, specifically, be respectively to organize the gas of gas on the air inlet end face 301 of allocation units 30 by distinguishing 3022 dividing plate 311 zones at interval of giving vent to anger that enter jet chamber 31, again by production well 321 ejections that connect on the end face 320 of giving vent to anger in the jet chamber 31.In addition, also illustrate water-in 3051 and water outlet 3061.

In the present embodiment, because being divided into 3 groups by two board-like air inlets separation dividing plates 308,309 of straight parallel, air inlet end face 310 vertically separates gas circuit 313, so present embodiment is applicable to 2 kinds of gas air inlet blended situations.For example, a kind of is NH3, and a kind of is H2 or the N2 that carries TMGa, and wherein air inlet group 301 feeds gas of the same race with 303 liang of vertical separation gas circuits of group, and certain, this scheme can be further designed to 3 tunnel 3 kinds of gases, even more kinds of gases of multichannel more.

In addition, it is the situation of circular arc plate that Figure 16 has provided air inlet separation dividing plate 308,309, has realized vertical separation gas circuit equally.

The circle that first, second ring part cross section of gas distribution member 30 in the present embodiment and jet chamber 31 is a standard is not limited thereto, and also can be other shapes that comprise ellipse, the sealing of square uniform cross section.

Second embodiment of the utility model shown in accompanying drawing 4a～4c is a kind of structural representation of radial separations formula spray header jet apparatus.Be than the first embodiment something in common, first ring part 400 that remains by an air inlet end face 401 sealings constitutes gas distribution member 40, constitute jet chamber 41 by second ring part 410 of giving vent to anger end face 411 sealings, offer the production well 412 of some perforations on the end face 411 of giving vent to anger.And difference is, vertically separates the unitary separation of gas circuit and distinguishes to some extent.Specifically, be that the center of circle is divided into some fan sections with the end face central point on the air inlet end face 401 of gas distribution member 40.Thereby still to be the center of circle with the central point be provided with two different air inlets grouping toroidal membranes 408 and 409 of radius at the opposite side of the end face 411 of giving vent to anger is divided into some annular regions.Described before fan section is at the inner opening that divides of these annular regions, and part is opening not, and the open annular district constitutes gas barrier district 4012 thereby make not, and the open annular district constitutes gas by district 4011.Gas barrier district 4012 of Xing Chenging and gas radially and are circumferentially alternately being arranged by distinguishing 4011 thus.Corresponding therewith, in second ring part 410 of jet chamber 41, on the end face 411 of giving vent to anger, be that the center of circle radially is provided with some dividing plates 413 with the end face central point.

A kind of variant embodiment of jet chamber 41 is, cancellation give vent to anger end face 411 and on production well 412, the spatial channel ejection that gas is directly cut apart from dividing plate 413.

Fig. 4 c has provided the synoptic diagram of grouped element 40 and jet chamber's 41 combinations, and air inlet end face 401 is corresponding with the fanned partition on the end face 411 of giving vent to anger.Thus, the gas in the gas distribution member 40 is formed vertical separation gas circuit unit by district 4011 with corresponding jet chamber's 41 interior production wells that connect 412, and the vertical separation gas circuit unit in the same air inlet group constitutes one group and vertically separates gas circuit.

Fig. 5 a and 5b are respectively that jet chamber shown in Fig. 4 b is applied to two kinds of principle schematic under the various inlet.The former is the air inlet synoptic diagram that two kinds of gases of NH3, TMGa are separated by the carrier gas of H2 or N2, because carrier gas is arranged separates, make other two kinds of gases in the gas passage can not take place to mix and make NH3, two kinds of gases of TMGa do not mix behind the ejection jet chamber, (Atomic LayerEpitaxy is called for short ALE, is also referred to as ald sometimes to form atomic layer epitaxy, be Atomic Layer Depostion, be called for short ALD) crystal growth mode.The latter is the air inlet synoptic diagram that two kinds of air inlets of NH3, TMGa do not have carrier gas to separate, and can be used for general CVD and includes but not limited to MOCVD (Metal Organic ChemicalVapor Deposition), PECVD (P1asma Enhanced Chemical Vapor Deposition), HVPE (Hydride Vapor Phase Epitaxy) etc.

Fig. 6 c is the another kind of variant embodiment structural representation of Fig. 4 b, and Fig. 6 a, 6b are applied to the principle schematic under two kinds of various inlet of jet chamber shown in Fig. 6 c.Fig. 6 c is that than the difference of Fig. 4 b 41 central vertical of giving vent to anger end face are provided with one the 3rd ring part 405 in the jet chamber, and radially some dividing plates 413 of She Zhiing are from the inwall 414 of periphery wall radial extension to the second ring part 410 of the 3rd ring part 405.The zone of vertical separation gas circuit cell distribution between the 3rd ring part 405 and second ring part 410 of Xing Chenging thus, and can pass to carrier gas in the 3rd ring part 405 or be used to place surveying instrument or as outlet passageway.

The 3rd embodiment of the utility model shown in accompanying drawing 7a～7b is a kind of structural representation of concentric-ring pattern spray header jet apparatus, be than the first embodiment something in common, comprise and remain the gas distribution member 70 that first ring part 700 by an air inlet end face 701 sealing constitutes, jet chamber 71 by second ring part 710 of giving vent to anger end face 711 sealings constitutes offers the production well 712 of some perforations on the end face 711 of giving vent to anger.Being than the first embodiment difference, is that some annulus are divided in the center of circle with its central point on the air inlet end face 701.By the dividing plate of vertically laying is set the donut on the air inlet end face 701 is radially divided, not open area formation gas barrier district 7012 is arranged on the donut, the open area forms gas by district 7011.Above air inlet end face 701.Corresponding therewith, in second ring part 710 of jet chamber 71, be that the center of circle is provided with some toroidal membranes 713 with the central point of the end face 711 of giving vent to anger.Thus, the gas in the gas distribution member 70 is formed vertical separation gas circuit unit by district 7011 with corresponding jet chamber's 71 interior production wells that connect 712, and the vertical separation gas circuit unit in the same air inlet group constitutes one group and vertically separates gas circuit.

Illustrated the concentric-ring pattern spray header jet apparatus of Fig. 7 a, 7b to pass to jet chamber's situation schematic diagram of gas A, B, C by the different annular district in conjunction with Figure 15.Usually, III family or V family gas enter from the top of these donut clearance spaces, flow out from the below.Generally speaking, two adjacent donuts pass through III family or V family gas at interval respectively, but also can arrange the gas of the donut clearance space of specific quantity and specific position by particular types according to actual needs.Wherein a kind of arrangement is under certain conditions for avoiding the pre-reaction of III family and V family gas, in the carrier gas (as H2 or N2) that is used at interval circulate of each III family and V family channel interval intermediary, but and it is nonessential.

A kind of distortion example of jet chamber 71 is the spatial channel ejection that the production well 712 that cancellation is given vent to anger end face 711 and upward arranged, gas are directly separated from dividing plate 713.

Fig. 8 is based on a kind of distressed structure of Fig. 3 b, specifically is that the dividing plate 811 that forms in the end face 320 of giving vent to anger is zigzag fashion or wavy (but being not limited to these shapes).

Fig. 9 is the vertical view of the distressed structure of jet chamber 91 shown in Fig. 6 c.The central zone of this jet chamber 91 is provided with the 3rd ring part 914, and zig-zag or waviness dividing plate 913 are from the internal perisporium of periphery wall radial extension to the second ring part 910 of the 3rd ring part 914.Cooperate the band center cellular type jet apparatus that forms thus, the center can pass to carrier gas or be used to place surveying instrument or be used as outlet passageway.

Figure 11 provides is the A-A sectional view of end face of giving vent to anger in the jet chamber among Fig. 3 b, and wherein the 321 some parallel outlet passageways that dividing plate 311 forms of giving vent to anger of serving as reasons wherein have production well 321 in the example of Figure 11, and production well 321 diameters are less than the spacing of parallel channels.Generally speaking, aperture is matrix distribution equalizing structure or radiation distribution equalizing structure, but and nonessential.

Figure 10 then is a kind of section of simplifying modification structures of Figure 11, in this modification, cancelled give vent to anger end face and on the production well arranged, spray in the passage that gas is directly formed by the dividing plate 311 of giving vent to anger.

What Figure 12 provided is the external structure of combination back spray header device.Introduce in conjunction with aforementioned first embodiment is existing.

Figure 13 and Figure 14 have provided based on Fig. 4 b and have radially improved structure in the jet chamber of partition type spray header, difference is the structure that has adopted a band shirt rim gas curtain, specifically be, on second ring part 410, be embedded hole, some shirt rims 416, realized the effect that shirt rim gas curtain (using carrier gas H2 or N2 usually) sprays by this hole, shirt rim 416.

Figure 17 (a) and (b) in, illustrated the production well 171 of 17 lower ends to adopt the synoptic diagram of water-cooling channel 172 vertical alternate layouts between any two, wherein among Figure 17 (a) in the jet chamber

The symbolic representation posticum, another symbolic representation prosopyle.

In sum, the utility model is compared with spray header design in the past, has following innovative point:

(1) gas distribution member adopts vertical the separation (promptly in a plane it to be divided into some unit, these unit are along extending perpendicular to this planar direction, air flow line is identical with unitary bearing of trend), gas with various was by passage alternate intervals air inlet separately after the air-flow separation was finished, realized the isolation conveying of gas with various and finally realized uniform mixing at the same space, avoid thousands of intensive metal hollow pipes of welding, adopted simple complete processing to realize.Division plate shape in the gas distribution member can be multiple shapes such as straight-plate-type, circular arc type, zigzag system without limits;

(2) jet chamber can adopt multiple modes such as spaced radial separation, concentric-ring pattern separation, board-like separation to the separation of induction trunk, and to the shape of division plate without limits, can be multiple shapes such as straight-plate-type, circular arc type, zigzag system;

(3) the utility model proposes water-cooling project with the vertical alternate layout of air-flow, under the prerequisite that keeps the temperature control stability, uniformity, increased spray area, before avoiding in the document water-cooling channel occupy the shortcoming of spray area, increase substantially homogeneity, realized the aperture all standing of spray equipment bottom, and uniform fully;

(4) increase carrier gas H2 or N2 autonomous channel near the reaction wall place, passage is arranged along excircle, forms shirt rim gas curtain structure, has improved the distribution in flow field, edge greatly, improves the sedimentary quality of edge substrate.

(5) the autonomous channel number can freely dispose, and except that arranging conventional two-way gas passage (as III and V family or II and VI family), also can increase gas passage quantity (as isolating the carrier gas H of usefulness ₂Or N ₂) needs (as the ALE extension) to adapt to special extensional mode;

(6) the plate-like construction spray header of Ti Chuing, spaced radial air inlet spray header, the vertical spray header of concentric circular type, principle is similar, but can widen the application category of this class spray header device according to the kind choose reasonable of the concrete structure and the source of the gas of reactor.

The front provides the description to preferred embodiment, so that any technician in this area can use or utilize the utility model.Various modifications to these embodiment are conspicuous to those skilled in the art, can be applied to other embodiment to total principle described here and not use creativeness.Thereby, the embodiment shown in the utility model will be not limited to here, and the wide region of principle that should disclose and new feature according to meeting here.

Claims (9)

1. a MOCVD equipment novel spray header device is characterized in that, described spray header device comprises that a gas distribution member and a jet chamber enclose formation one enclosed space, wherein:

Described gas distribution member comprises an air inlet end face and some air inlets grouping dividing plate, and described inlet end face comprises some gases by district and some gas barriers district, and described air inlet grouping dividing plate cuts off described air inlet end face mutually according to the various inlet group;

Described jet chamber comprises give vent to anger end face and some dividing plates of giving vent to anger, and offers some perforation production wells on the described end face of giving vent to anger, and the described dividing plate of giving vent to anger is separated described jet chamber;

Wherein, the gas of described gas distribution member constitutes some vertical separation gas circuits unit by the district with the production well of described jet chamber, and the some vertical separation gas circuit unit in the described same air inlet grouping dividing plate constitutes one group and vertically separates gas circuit.

2. MOCVD equipment novel spray header device according to claim 1 is characterized in that,

Described gas distribution member and described jet chamber comprise first ring part and second ring part that periphery is closed respectively, and described air inlet end face, the end face of giving vent to anger are respectively a Closed End of described first, second ring part.

3. MOCVD equipment novel spray header device according to claim 2 is characterized in that,

The some openings of alternative are arranged on the described air inlet end face, and described opening portion forms described gas by the district, and described not opening portion forms described gas barrier district, and described air inlet grouping dividing plate and the described dividing plate of giving vent to anger are straight plate.

4. MOCVD equipment novel spray header device according to claim 2 is characterized in that,

To divide some annular regions in described air inlet end face central point some fan sections that are the center of circle, the some openings of alternative are arranged in described annular region, described opening portion forms described gas by the district, described not opening portion forms described gas barrier district, described air inlet division plate is for being the toroidal membrane in the center of circle with air inlet end face central point, and the described dividing plate of giving vent to anger is for being the radially dividing plate in the center of circle with the described end face central point of giving vent to anger.

5. MOCVD equipment novel spray header device according to claim 2 is characterized in that,

With described air inlet end face central point is in the some same circle ring area in the center of circle, opening portion and opening portion are not arranged respectively, described opening portion forms described gas by the district, described not opening portion forms the gas barrier district, and the described dividing plate of giving vent to anger is for being the toroidal membrane in the center of circle with the described end face central point of giving vent to anger.

6. MOCVD equipment novel spray header device according to claim 3 is characterized in that,

The end face center of giving vent to anger of described jet chamber is provided with one the 3rd ring part, and the described dividing plate of giving vent to anger is the inwall to described second ring part from the 3rd ring part periphery wall radial extension.

7. according to claim 3 or 6 described MOCVD equipment novel spray header devices, it is characterized in that,

The described dividing plate of giving vent to anger comprises straight plate, serration plate or wavy plate.

8. according to claim 3,4,5 or 6 described MOCVD equipment novel spray header devices, it is characterized in that described jet chamber comprises a shirt rim gas curtain, described shirt rim gas curtain comprises the hole, some shirt rims that is embedded in described second ring part between the outside.

9. MOCVD equipment novel spray header device according to claim 8 is characterized in that,

The described production well of described jet chamber is provided with a water-cooling channel between any two.

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