CN102321877A

CN102321877A - Electrode introduction device

Info

Publication number: CN102321877A
Application number: CN201110261064A
Authority: CN
Inventors: 郑建宇; 宋晓彬; 王广明; 桂晓波; 杨光; 唐亚非
Original assignee: Beijing Sevenstar Electronics Co Ltd
Current assignee: Beijing Si Yuan Electrical electronic technology limited liability company
Priority date: 2011-09-05
Filing date: 2011-09-05
Publication date: 2012-01-18
Anticipated expiration: 2031-09-05
Also published as: CN102321877B

Abstract

The invention relates to plasma enhanced chemical vapor deposition equipment, and discloses an electrode introduction device, which comprises two parallel electrodes brackets, wherein one end of each electrode bracket is connected with a furnace door electrode, and the other end of the electrode bracket is a metal contact and is connected with an electrode block on a graphite boat. The electrode introduction device also comprises a connecting rod penetrating through a furnace door, wherein one end of the connecting rod extending into the inner side of the furnace door is connected with a graphite boat supporting rod, and the graphite boat supporting rod is at least two parallel silicon carbide rods. In the invention, the electrode introduction device adopts a lapped joint mode, the metal contacts are directly connected with the furnace door electrodes through the graphite boat supporting rods, two graphite pads on the graphite boat act as the two electrode blocks, and a bulge is arranged on each metal contact at the position contacted with a groove on the electrode block, accordingly, the contact is good, and the degree of automation is high; the silicon carbide dual rods can withstand the temperature of over 1000 DEG C and are not easily deformed, so the stability of electrode contact is improved; and a mechanical mechanism is simple, the cost is low, and the assembly difficulty is reduced.

Description

The electrode introducing device

Technical field

The present invention relates to plasma enhanced chemical vapor deposition equipment, particularly relate to a kind of electrode introducing device.

Background technology

Four pipe horizontal plasmas strengthen chemical vapour deposition, and (Plasma Enhanced Chemical Vapor Deposition, PECVD) function of equipment is, in the quartzy cavity of high vacuum, utilizes high-frequency electric field to excite, decomposition technique gas SiH ₄, NH ₃, at the formation of deposits Si of sample surfaces ₃N ₄Film.Deposit Si ₃N ₄The time, Si does not only grow ₃N ₄As antireflective coating, generated a large amount of Wasserstoffatomss simultaneously, these Wasserstoffatomss not only have the surface passivation effect; Dislocation, surperficial dangling bonds in simultaneously can well passivation silicon; Thereby carrier mobility in the raising silicon chip has the effect of body passivation, improves battery sheet efficiency of conversion greatly.This automation degree of equipment is high, is one of equipment of most critical on the manufacture of solar cells line.

Among the horizontal PECVD of four pipes, it is the key part of equipment that electrode is introduced.Electrode is introduced stability and the safety that directly influences apparatus and process.The electrode introducing device that tradition is used adopts joint form, and the electrode contact of fire door is connected to the contact base on the insulcrete firmly, and the electrode contact of metal material leans on the deadweight of graphite boat closely to contact with contact base, accomplishes the electrode connection; When getting boat, only need to lift graphite boat gently, electrode contact is and contact base is thrown off voluntarily.The kind electrode mode of connection only is applicable to manually puts boat, is not suitable for mechanical manipulator and gets boat automatically, can not satisfy the requirement of large-scale production.

And among the horizontal PECVD of four pipes, the cantilever fire door is the feeding drawing mechanism of equipment; Be one of most important structure that guarantees technology, the cantilever door structure that tradition is used is the mechanism of two bar scoops; Graphite boat drops on the metal scoop, and the metal scoop carries out thin-film deposition along with graphite boat gets into reaction chamber jointly, because deposition process temperature is higher; The stainless steel scoop heats in reaction chamber for a long time, easy deformation, and also the metal scoop is heavier; Structure is complicated, and difficulty of processing is big, and the distortion of stainless steel scoop directly has influence on device interior and introduces the electrode stability in contact.

Summary of the invention

The technical problem that (one) will solve

The technical problem that the present invention will solve is how to realize among the horizontal PECVD of four pipes cooperating consistence and raising electrode stability in contact between electrode introducing device and the mechanical manipulator automatic clamping and placing graphite boat.

(2) technical scheme

In order to solve the problems of the technologies described above, the present invention provides a kind of electrode introducing device, and it comprises: two electrode suppors that are set up in parallel; One end of each electrode suppor links to each other with a fire door electrode, and the other end is a metal contact, links to each other with electrode block on the graphite boat.

Wherein, said electrode block has two, lays respectively at the graphite boat both sides, and has groove on every cube electrode piece.

Wherein, on said each metal contact, be provided with convexity with the position of electrode block contact grooves.

Wherein, the direction of said groove depression is identical with the direction of said protruding protrusion.

Wherein, said graphite boat is placed on the graphite boat support bar, and said graphite boat support bar links to each other with fire door is inboard, and said graphite boat support bar is at least two Globars arranged side by side.

Wherein, Globar end arranged side by side is provided with the metal contiguous block, so that Globar is fixedly connected.

Wherein, said Globar is provided with at least two bracing frames, in order to support graphite boat.

Wherein, support frame as described above is a metal supporting frames, is provided with insulcrete with the graphite boat position contacting on it; Be arranged with insulation covering on the Globar of at least one side of support frame as described above.

Wherein, two said electrode suppors are kept apart itself and conductive component on every side by the insulation module.

Wherein, said electrode block adopts the graphite cushion block.

(3) beneficial effect

The electrode introducing device that technique scheme provided; On the one hand; Adopt joint form, rely on electrode suppor with metal contact directly and the fire door electrode couple together, two graphite cushion blocks on the graphite boat serve as two electrode blocks; On each metal contact, be provided with convexity with the contacted position of electrode block upper groove.When putting boat, mechanical manipulator falls graphite boat gently, and metal contact closely contacts with two electrode blocks of graphite boat, accomplishes electrode and connects; When getting boat, only need to lift graphite boat gently, metal contact and graphite boat electrode block are thrown off voluntarily, and be simple and reasonable, economical, increased level of automation, and satisfy requirement of massive production; On the other hand, use single pole clamping silit double stick structure, graphite boat is fallen on the double stick, relies on graphite boat bracing frame location, relies on the ceramic plate insulation, because silit double stick heatproof when the PECVD reaction chamber carries out thin-film deposition, is out of shape very little at more than 1000 degree; And single pole clamping silit double stick structure, mechanical mechanism is simple, and cost is low, and assembly difficulty reduces, and the light weight of whole cantilever can prevent the deflection of cantilever to have improved the electrode stability in contact, avoids breaking off because of the contact of cantilever distortion causing electrode.

Description of drawings

Fig. 1 is the structural representation that supports the cantilever fire door of graphite boat in the embodiment of the invention;

Fig. 2 is the structural representation of electrode introducing device in the embodiment of the invention.

Wherein, 1: the metal contiguous block; 2: the ceramic insulation cover; 3: Globar; 4: the ceramic insulation plate; 5: metal supporting frames; 6: grip block; 7: fire door; 8: metal list rod; 9: the first ceramic insulation plates; 10: the first electrode suppors; 11: the first graphite electrode slabs; 12: the second ceramic insulation plates; 13: the second electrode suppors; 14: the metal electrode contact; 15: the second graphite electrode slabs; 16: graphite boat; 17: the first fire door electrodes; 18: the second fire door electrodes.

Embodiment

Below in conjunction with accompanying drawing and embodiment, specific embodiments of the invention describes in further detail.Following examples are used to explain the present invention, but are not used for limiting scope of the present invention.

Fig. 1 shows the structural representation of cantilever fire door of the support graphite boat of the embodiment of the invention, and Fig. 2 shows the structural representation of the electrode introducing device of the embodiment of the invention.

With reference to Fig. 2, this electrode introducing device links to each other with the electrode block of fire door electrode with graphite boat 16, and electric charge is introduced graphite boat 16 by fire door 7 positions.The electrode introducing device specifically comprises first electrode suppor 10 and second electrode suppor 13; One end of two electrode suppors links to each other with the second fire door electrode 18 with the first fire door electrode 17 of fire door electrode respectively; The other end of two electrode suppors is metal electrode contact 14, can the electric charge of fire door electrode be sent to graphite boat 16 through metal electrode contact 14.

First graphite electrode slab 11 and second graphite electrode slab 15 are set respectively in the both sides of graphite boat 16; First graphite electrode slab 11 is a graphite block between the sheet of graphite boat 16; Second graphite electrode slab 15 is the graphite block of protrusion graphite boat 16; Two electrode block belows are respectively arranged with groove, correspondingly, on metal electrode contact 14, convexity are set; The direction of electrode block groove depression is identical with the direction of its electrode in contact contact convexity, and this structure setting can guarantee that electrode block contacts with the close fit of metal electrode contact 14.

In order to guarantee that electrode suppor when conduction can not produce charge affects to conductive component on every side; So adopting the insulation module keeps apart electrode suppor and conductive component; Two blocks of range upon range of ceramic insulation plates of preferred employing; The i.e. first ceramic insulation plate 9 and the second ceramic insulation plate 12 are folded between two blocks of ceramic insulation plates electrode suppor to realize that electrode suppor and external conductive parts keep apart.

The electrode introducing device of present embodiment adopts joint form, rely on electrode suppor with metal contact directly and the fire door electrode couple together, the electrode stability in contact is affected because of the distortion of graphite boat support bar easily.

For this reason, be provided with the structure of cantilever fire door in the present embodiment, with reference to Fig. 1; It comprises the union lever that passes fire door 7, and union lever one end is used for being connected with external manipulation mechanism in fire door 7 outsides; The union lever the other end stretches into the fire door inboard, is used to connect the graphite boat support bar.In the present embodiment; The single rod 8 of union lever preferable alloy; The graphite boat support bar is preferably two Globars arranged side by side 3, and Globar 3 firmly is connected with metal list rod 8 through two grip blocks 6, and the end that Globar 3 is not fixed on the metal list rod 8 adopts metal contiguous block 1 to be fixedly connected.In the present embodiment; The quantity of the diameter of Globar 3 and grip block 6 is decided according to the weight of its graphite boat that will accept 16, if graphite boat 16 weight are when big, and diameter that can corresponding increase Globar 3; And the quantity of corresponding increase grip block 6, to improve the weight capacity of Globar 3.

Globar 3 is positioned at fire door 7 inboards, is in the environment that carries out thin film deposition in the reaction chamber.For being placed on, graphite boat 16 do not conduct electricity when carrying out thin film deposition on the Globar 3 with Globar 3; On Globar 3; Be used to place the position of graphite boat 16, two metal supporting frames 5 are set, to support the two ends of graphite boat 16 respectively; Metal supporting frames 5 upper surfaces are provided with ceramic insulation plate 4, make graphite boat 16 and metal supporting frames 5 insulation.The both sides external of metal supporting frames 5 is promptly placed the two ends of graphite boat 16 positions, on Globar 3, is arranged with ceramic insulation cover 2, avoids graphite boat 16 to contact with Globar 3, metal contiguous block 1 or grip block 6 and electric conduction phenomena takes place.

Use the cantilever fire door of present embodiment, when graphite boat 16 need carry out thin film deposition, only need be placed on the metal supporting frames 5 on the Globar 3, Globar 3 is along with the graphite boat 16 common reaction chambers that get into carry out thin film deposition.

Can find out by above embodiment; One aspect of the present invention; Adopt joint form, rely on electrode suppor with metal contact directly and the fire door electrode couple together, two graphite cushion blocks on the graphite boat serve as two electrode blocks; On each metal contact, be provided with convexity with the contacted position of electrode block upper groove.When putting boat, mechanical manipulator falls graphite boat gently, and metal contact closely contacts with two electrode blocks of graphite boat, accomplishes electrode and connects; When getting boat, only need to lift graphite boat gently, metal contact and graphite boat electrode block are thrown off voluntarily, and be simple and reasonable, economical, increased level of automation, and satisfy requirement of massive production; On the other hand, use single pole clamping silit double stick structure, graphite boat is fallen on the double stick, relies on graphite boat bracing frame location, relies on the ceramic plate insulation, because silit double stick heatproof when the PECVD reaction chamber carries out thin-film deposition, is out of shape very little at more than 1000 degree; And single pole clamping silit double stick structure, mechanical mechanism is simple, and cost is low, and assembly difficulty reduces, and the light weight of whole cantilever can prevent the deflection of cantilever to have improved the electrode stability in contact, avoids breaking off because of the contact of cantilever distortion causing electrode.

The above only is a preferred implementation of the present invention; Should be pointed out that for those skilled in the art, under the prerequisite that does not break away from know-why of the present invention; Can also make some improvement and replacement, these improvement and replacement also should be regarded as protection scope of the present invention.

Claims

1. the electrode introducing device is characterized in that, comprising: two electrode suppors that are set up in parallel; One end of each electrode suppor links to each other with a fire door electrode, and the other end is a metal contact, links to each other with electrode block on the graphite boat.

2. electrode introducing device as claimed in claim 1 is characterized in that said electrode block has two, lays respectively at the graphite boat both sides, and has groove on every cube electrode piece.

3. electrode introducing device as claimed in claim 2 is characterized in that, on said each metal contact, is provided with convexity with the position of electrode block contact grooves.

4. electrode introducing device as claimed in claim 3 is characterized in that, the direction of said groove depression is identical with the direction of said protruding protrusion.

5. electrode introducing device as claimed in claim 1 is characterized in that, said graphite boat is placed on the graphite boat support bar, and said graphite boat support bar links to each other with fire door is inboard, and said graphite boat support bar is at least two Globars arranged side by side.

6. electrode introducing device as claimed in claim 5 is characterized in that, Globar end arranged side by side is provided with the metal contiguous block, so that Globar is fixedly connected.

7. electrode introducing device as claimed in claim 5 is characterized in that said Globar is provided with at least two bracing frames, in order to support graphite boat.

8. electrode introducing device as claimed in claim 7 is characterized in that support frame as described above is a metal supporting frames, is provided with insulcrete with the graphite boat position contacting on it; Be arranged with insulation covering on the Globar of at least one side of support frame as described above.

9. electrode introducing device as claimed in claim 1 is characterized in that, two said electrode suppors are kept apart itself and conductive component on every side by the insulation module.

10. electrode introducing device as claimed in claim 1 is characterized in that, said electrode block adopts the graphite cushion block.