CN212925225U - Water cooling ring for single crystal furnace and heat conduction system at upper part of single crystal furnace - Google Patents

Abstract

The utility model discloses a water-cooling ring and single crystal growing furnace upper portion heat conduction system for single crystal growing furnace. The water cooling ring for the single crystal furnace comprises a water inlet pipe, a water outlet pipe and an annular body; the water inlet pipe and the water outlet pipe are arranged above the annular body in a left-right opposite mode; a flow guide channel for cooling water path is arranged in the annular body, one end of the flow guide channel is in butt joint conduction with the water inlet pipe, and the other end of the flow guide channel is in butt joint conduction with the water outlet pipe; the bottom of the annular body is provided with a mounting piece for mounting the heat shield. This patent compares the structure of current double-deck water-cooling axle, has increased water-cooling coverage, more is of value to the assurance to the cooling effect of single crystal growing furnace inner chamber. The installation part is convenient for realizing the relative fixation between the heat shield and the heat shield.

Description

Water cooling ring for single crystal furnace and heat conduction system at upper part of single crystal furnace

Technical Field

The utility model relates to the technical field of material manufacturing equipment, in particular to a water cooling mechanism and a heat conduction system of a single crystal furnace.

Background

The crystal pulling process of the large-size silicon part single crystal furnace has high requirements, and a high-yield and high-quality crystal bar is difficult to obtain due to low crystal growing speed.

CN201010112343.9 discloses a single crystal furnace apparatus, which comprises a heat shield disposed above a quartz crucible and surrounding a crystal ingot, wherein the diameter of the lower part of the heat shield is smaller than that of the upper part of the heat shield, and the heat shield uses a heat insulation material at least for reducing power consumption and a reflecting plate for improving the cooling effect of the crystal ingot and the crystal pulling speed, thereby improving the crystal pulling speed, further achieving the effect of shortening the crystal pulling time and improving the production efficiency.

The defect of the patent lies in that the crystal bar is cooled only by the heat shield, the cooling effect is poor, and the crystal pulling quality is further influenced.

CN201821001993.4 discloses a heat shield lifting device of a semiconductor single crystal furnace, which comprises a mounting seat, a lifting seat and a lifting seat, wherein the mounting seat is arranged on a furnace cover of the single crystal furnace; the lower end part of the water-cooling sealing mechanism penetrates through the mounting seat and the furnace cover to be connected with the heat shield, and the upper end part of the water-cooling sealing mechanism is provided with a lifting seat; and the two lifting mechanisms are arranged on the mounting seat and are symmetrically arranged at two ends of the water-cooling sealing mechanism. The water-cooling sealing mechanism comprises a double-layer water-cooling shaft penetrating through the furnace cover, the mounting seat and the lifting seat and a sealing pipe hermetically connected to the outer wall of the double-layer water-cooling shaft. The upper end of the double-layer water-cooling shaft is provided with a water inlet and a water outlet.

The defect of this patent lies in, and water-cooling sealing mechanism is double-deck water-cooling axle, and water inlet and delivery port all are located double-deck water-cooling axle's top, and the water-cooling is regional limited, is not convenient for realize the cooling effect of single crystal growing furnace inner chamber, and then influences the crystal pulling quality.

SUMMERY OF THE UTILITY MODEL

To the problems existing in the prior art, the utility model provides a water cooling ring for single crystal growing furnace to solve above at least one technical problem.

The utility model provides a heat conduction system on the upper part of a single crystal furnace, which solves at least one technical problem.

In order to achieve the aim, the utility model provides a water cooling ring for a single crystal furnace, which is characterized by comprising a water inlet pipe, a water outlet pipe and an annular body;

the water inlet pipe and the water outlet pipe are arranged above the annular body in a left-right opposite mode;

a flow guide channel for cooling water is arranged in the annular body, one end of the flow guide channel is in butt joint conduction with the water inlet pipe, and the other end of the flow guide channel is in butt joint conduction with the water outlet pipe;

and the bottom of the annular body is provided with a mounting piece for mounting the heat shield.

This patent compares the structure of current double-deck water-cooling axle, has increased water-cooling coverage, more is of value to the assurance to the cooling effect of single crystal growing furnace inner chamber. The installation part is convenient for realizing the relative fixation between the heat shield and the heat shield.

Further preferably, the flow guide channel comprises at least three sub-annular channels which are sequentially arranged from inside to outside, and the adjacent sub-annular channels are communicated with each other;

the sub-annular channel positioned at the innermost side in all the sub-annular channels is in butt joint conduction with the water inlet pipe;

and the sub-annular channel positioned at the outermost side in all the sub-annular channels is in butt joint conduction with the water outlet pipe.

The circumferential water cooling uniformity is convenient to realize.

Further preferably, the flow guide channel further comprises a communicating section, and the water inlet pipe is in butt joint with the innermost sub-annular channel in all the sub-annular channels through the communicating section;

the water inlet pipe and the water outlet pipe mirror are arranged above the annular body in mirror symmetry by taking the central axis of the annular body as a central line.

The mirror symmetry setting of inlet tube and outlet pipe is convenient for.

Further preferably, the annular body comprises a hollow ring, and a partition plate for partitioning an inner cavity of the hollow ring to form the flow guide channel is mounted in the hollow ring.

The adjustment of the diversion direction is convenient to realize through the partition plate.

Further preferably, the number of the partition plates is at least three, and the at least three partition plates comprise a notch annular partition plate, a first spoon-shaped partition plate and a second spoon-shaped partition plate which are arranged in a front-back mirror symmetry manner;

the first spoon-shaped partition plate and the second spoon-shaped partition plate comprise a straight plate part and an arc plate part which are sequentially connected;

the notch annular partition plate is arranged at the periphery of the arc-shaped plate parts of the first spoon-shaped partition plate and the second spoon-shaped partition plate, and a flow guide gap is reserved between the arc-shaped plate parts of the first spoon-shaped partition plate and the second spoon-shaped partition plate;

and flow guide gaps are reserved between two ends of the annular gap partition plate and the straight plate parts of the first spoon-shaped partition plate and the second spoon-shaped partition plate respectively.

The annular flow guide from inside to outside is convenient to realize.

Further preferably, the bottom of the water inlet pipe is located in the area between the straight plate portions of the first and second scoop-shaped partition plates.

The introduction of cooling water is convenient to realize.

More preferably, the material of the water cooling ring for the single crystal furnace is SUS 316L.

Further preferably, the mounting member is a nut or a screw fixed to the bottom of the annular body by welding. Other mounts are of course possible.

The upper part heat conduction system of the single crystal furnace is characterized by comprising a water cooling ring for the single crystal furnace;

the lifting mechanism drives the water cooling ring for the single crystal furnace to move up and down, and is in transmission connection with the water cooling ring for the single crystal furnace;

the heat shield is detachably connected with the water cooling ring for the single crystal furnace.

The crystal pulling rate is effectively improved and the crystal bar growth time is shortened through the heat conduction system at the upper part of the single crystal furnace. After the upper heat conducting system is added, the average drawing speed of the isometric growth of the 15-18 inch single crystal rod is improved to 0.3-0.5mm/min, and a high-yield and high-quality crystal ingot can be obtained.

Further preferably, the water inlet pipe is communicated with a main water inlet pipeline, and a water flow regulating valve is arranged between the main water inlet pipeline and the water inlet pipe;

the water outlet pipe is communicated with a main water outlet pipeline, and a water flow regulating valve, a temperature sensor and a flow sensor are arranged between the main water outlet pipeline and the water outlet pipe.

The flow sensor and the temperature sensor are matched, so that the flow and the temperature of the cooling water can be monitored in real time, accidents are avoided, and the safety is high.

Further preferably, the heat shield comprises an inner heat insulation layer made of graphite, an intermediate heat insulation layer made of carbon felt and an outer heat insulation layer made of graphite;

the middle heat insulation layer is clamped in a space surrounded by the inner heat insulation layer and the outer heat insulation layer.

Further preferably, the top parts of the water inlet pipe and the water outlet pipe are respectively provided with a lifting seat;

the lifting mechanism comprises two lifting components arranged on two sides of a furnace cover of the single crystal furnace, each lifting component comprises a mounting seat, a gear box, a first coupler and a linear module, and the gear boxes, the first couplers and the linear modules are arranged on the mounting seats from bottom to top;

the slide blocks of the linear modules of the two lifting components are respectively and fixedly connected with the water inlet pipe and a lifting seat arranged on the water outlet pipe;

the lifting mechanism further comprises a driving mechanism, and the driving mechanism is in transmission connection with the lifting assembly;

two mounting flanges which are respectively used for penetrating through the water inlet pipe and the water outlet pipe are arranged on the furnace cover, and the mounting flanges are connected with the mounting base;

the inlet tube with the peripheral cover of outlet pipe is equipped with the bellows, just the inlet tube with the top of outlet pipe and the top fixed connection of bellows, the bottom of bellows with mounting flange fixed connection.

The synchronous lifting of the water inlet pipe and the water outlet pipe is convenient to realize.

Further preferably, the two lifting assemblies are a first lifting assembly and a second lifting assembly respectively;

the driving mechanism comprises a driving motor, and the driving motor is in transmission connection with a gear box of the first lifting assembly;

the gear box of the first lifting assembly is in transmission connection with the gear box of the second lifting assembly through a flexible shaft.

It is convenient to realize that a motor drives two lifting units simultaneously.

Drawings

FIG. 1 is an axial sectional view of a water cooling ring for a single crystal furnace according to the present invention;

FIG. 2 is a radial sectional view of a water cooling ring for a single crystal furnace according to the present invention;

FIG. 3 is a top view of the heat transfer system at the upper part of the single crystal furnace according to the present invention;

fig. 4 is a cross-sectional view taken along line a-a of fig. 3 according to the present invention.

The heat insulation structure comprises a water inlet pipe 1, a water outlet pipe 2, an annular body 3, a mounting seat 5, a gear box 6, a first coupler 7, a linear module 8, a driving motor 9, a furnace cover 10, a mounting flange 12, a limit switch 13, a bolt 14, a flexible shaft 15, a flexible shaft bracket 16, a second coupler 17, a sealing flange 18, a corrugated pipe 19, an inner heat insulation layer 41, a middle heat insulation layer 42 and an outer heat insulation layer 43.

Detailed Description

The present invention will be further described with reference to the accompanying drawings.

Referring to fig. 1 to 2, the water cooling ring for the single crystal furnace comprises a water inlet pipe 1, a water outlet pipe 2 and a ring body 3; the water inlet pipe 1 and the water outlet pipe 2 are arranged above the annular body 3 in a left-right opposite mode; a flow guide channel for cooling water path is arranged in the annular body 3, one end of the flow guide channel is in butt joint conduction with the water inlet pipe 1, and the other end of the flow guide channel is in butt joint conduction with the water outlet pipe 2; the bottom of the ring-shaped body 3 is provided with a mounting member for mounting the heat shield. This patent compares the structure of current double-deck water-cooling axle, has increased water-cooling coverage, more is of value to the assurance to the cooling effect of single crystal growing furnace inner chamber. The installation part is convenient for realizing the relative fixation between the heat shield and the heat shield.

The flow guide channel comprises at least three sub-annular channels which are sequentially arranged from inside to outside, and the adjacent sub-annular channels are communicated with each other; the sub-annular channel positioned at the innermost side in all the sub-annular channels is in butt joint conduction with the water inlet pipe 1; the sub-annular channel positioned at the outermost side of all the sub-annular channels is in butt joint conduction with the water outlet pipe 2. The circumferential water cooling uniformity is convenient to realize.

The flow guide channel also comprises a communicating section, and the water inlet pipe 1 is in butt joint with the innermost sub-annular channel in all the sub-annular channels through the communicating section; the water inlet pipe 1 and the water outlet pipe 2 are arranged above the annular body 3 in mirror symmetry by taking the central axis of the annular body 3 as a central line. The mirror symmetry of inlet tube 1 and outlet pipe 2 is convenient for set up.

The annular body 3 comprises a hollow ring, and a partition plate for partitioning the inner cavity of the hollow ring to form a flow guide channel is arranged in the hollow ring. The adjustment of the diversion direction is convenient to realize through the partition plate.

The number of the partition plates is at least three, and the at least three partition plates comprise a notch annular partition plate, a first spoon-shaped partition plate and a second spoon-shaped partition plate which are arranged in a mirror symmetry manner from front to back; the first spoon-shaped partition plate and the second spoon-shaped partition plate comprise a straight plate part and an arc plate part which are sequentially connected; the notch annular partition plate is arranged at the periphery of the arc-shaped plate parts of the first spoon-shaped partition plate and the second spoon-shaped partition plate, and a flow guide gap is reserved between the arc-shaped plate parts of the first spoon-shaped partition plate and the second spoon-shaped partition plate; flow guide gaps are reserved between two ends of the annular gap partition plate and the straight plate parts of the first spoon-shaped partition plate and the second spoon-shaped partition plate respectively. The annular flow guide from inside to outside is convenient to realize.

The bottom of the water inlet pipe 1 is positioned in the area between the straight plate parts of the first spoon-shaped partition plate and the second spoon-shaped partition plate. The introduction of cooling water is convenient to realize.

The material of the water cooling ring for the single crystal furnace is SUS316L material.

The mounting piece is a nut or a screw fixed at the bottom of the annular body 3 by welding. Other mounts are of course possible.

Referring to fig. 3 and 4, the heat conducting system at the upper part of the single crystal furnace comprises a water cooling ring for the single crystal furnace; the lifting mechanism drives the water cooling ring for the single crystal furnace to move up and down, and is in transmission connection with the water cooling ring for the single crystal furnace; the heat shield is detachably connected with the water cooling ring for the single crystal furnace through bolts 14. The crystal pulling rate is effectively improved and the crystal bar growth time is shortened through the heat conduction system at the upper part of the single crystal furnace. After the upper heat conducting system is added, the average drawing speed of the isometric growth of the 15-18 inch single crystal rod is improved to 0.3-0.5mm/min, and a high-yield and high-quality crystal ingot can be obtained.

The water inlet pipe is communicated with a main water inlet pipeline, and a water flow regulating valve is arranged between the main water inlet pipeline and the water inlet pipe; the water outlet pipe is communicated with a main water outlet pipeline, and a water flow regulating valve, a temperature sensor and a flow sensor are arranged between the main water outlet pipeline and the water outlet pipe. The flow sensor and the temperature sensor are matched, so that the flow and the temperature of the cooling water can be monitored in real time, accidents are avoided, and the safety is high. Furthermore, a water flow regulating valve and a temperature sensor are arranged between the main water inlet pipeline and the water inlet pipe.

The heat shield comprises an inner heat-insulating layer 41 made of graphite, a middle heat-insulating layer 42 made of carbon felt and an outer heat-insulating layer 43 made of graphite; the intermediate heat insulation layer 42 is sandwiched in a space surrounded by the inner heat insulation layer 41 and the outer heat insulation layer 43.

The top parts of the water inlet pipe and the water outlet pipe are respectively provided with a lifting seat; the lifting mechanism comprises two lifting components arranged on two sides of a furnace cover 10 of the single crystal furnace, each lifting component comprises a mounting base 5, a gear box 6, a first coupler 7 and a linear module 8, and the gear boxes 6, the first couplers 7 and the linear modules 8 are arranged on the mounting bases 5 from bottom to top; the slide blocks of the linear modules 8 of the two lifting components are respectively fixedly connected with lifting seats arranged on the water inlet pipe and the water outlet pipe; the lifting mechanism also comprises a driving mechanism, and the driving mechanism is in transmission connection with the lifting assembly; two mounting flanges 12 which are respectively used for penetrating through a water inlet pipe and a water outlet pipe are arranged on the furnace cover, and the mounting flanges 12 are connected with a mounting base 5; the peripheries of the water inlet pipe and the water outlet pipe are sleeved with corrugated pipes 19, the tops of the water inlet pipe and the water outlet pipe are fixedly connected with the tops of the corrugated pipes 19, and the bottoms of the corrugated pipes 19 are fixedly connected with the mounting flange. The synchronous lifting of the water inlet pipe and the water outlet pipe is convenient to realize. Sealing flanges 18 are arranged at the tops of the water inlet pipe and the water outlet pipe, and the sealing flanges 18 are connected with the corrugated pipe. The linear module is provided with a limit switch 13.

The two lifting components are respectively a first lifting component and a second lifting component; the driving mechanism comprises a driving motor 9, and the driving motor 9 is connected with the gear box 6 of the first lifting assembly through a coupler; the gear box 6 of the first lifting component is in transmission connection with the gear box 6 of the second lifting component through a flexible shaft 15. It is convenient to realize that a motor drives two lifting units simultaneously. The gear box 6 of the first lifting assembly comprises a first main shaft, one end of the first main shaft is in transmission connection with the driving motor 9, and the other end of the first main shaft is connected with the flexible shaft through a second coupling 17. The gear box 6 of the second lifting assembly comprises a second main shaft, and one end of the second main shaft is connected with the flexible shaft through a coupler. The first main shaft is in transmission connection with a power output shaft of a gear box 6 of the first lifting assembly. The second main shaft is in transmission connection with a power output shaft of a gear box 6 of the second lifting assembly. The power output shafts of the gear boxes 6 of the first lifting assembly and the second lifting assembly are in transmission connection with the screw rods of the linear module 8 through the first couplers 7. The furnace cover is provided with a flexible shaft bracket 16.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the principle of the present invention, and these improvements and decorations should also be regarded as the protection scope of the present invention.

Claims (10)

1. The water cooling ring for the single crystal furnace is characterized by comprising a water inlet pipe, a water outlet pipe and a ring body;

the water inlet pipe and the water outlet pipe are arranged above the annular body in a left-right opposite mode;

a flow guide channel for cooling water is arranged in the annular body, one end of the flow guide channel is in butt joint conduction with the water inlet pipe, and the other end of the flow guide channel is in butt joint conduction with the water outlet pipe;

and the bottom of the annular body is provided with a mounting piece for mounting the heat shield.

2. The water cooling ring for the single crystal furnace according to claim 1, characterized in that: the flow guide channel comprises at least three sub-annular channels which are sequentially arranged from inside to outside, and the adjacent sub-annular channels are communicated with each other;

the sub-annular channel positioned at the innermost side in all the sub-annular channels is in butt joint conduction with the water inlet pipe;

and the sub-annular channel positioned at the outermost side in all the sub-annular channels is in butt joint conduction with the water outlet pipe.

3. The water cooling ring for the single crystal furnace according to claim 2, characterized in that: the flow guide channel also comprises a communicating section, and the water inlet pipe is in butt joint with the innermost sub-annular channel in all the sub-annular channels through the communicating section;

the water inlet pipe and the water outlet pipe are arranged above the annular body in mirror symmetry by taking the central axis of the annular body as a central line.

4. The water cooling ring for the single crystal furnace according to claim 1, characterized in that: the annular body comprises a hollow ring, and a partition plate used for separating the inner cavity of the hollow ring to form the flow guide channel is mounted in the hollow ring.

5. The water cooling ring for the single crystal furnace according to claim 4, wherein: the number of the partition plates is at least three, and the at least three partition plates comprise a notch annular partition plate, a first spoon-shaped partition plate and a second spoon-shaped partition plate which are arranged in a front-back mirror symmetry manner;

the first spoon-shaped partition plate and the second spoon-shaped partition plate comprise a straight plate part and an arc plate part which are sequentially connected;

the notch annular partition plate is arranged at the periphery of the arc-shaped plate parts of the first spoon-shaped partition plate and the second spoon-shaped partition plate, and a flow guide gap is reserved between the arc-shaped plate parts of the first spoon-shaped partition plate and the second spoon-shaped partition plate;

and flow guide gaps are reserved between two ends of the annular gap partition plate and the straight plate parts of the first spoon-shaped partition plate and the second spoon-shaped partition plate respectively.

6. The upper heat conduction system of the single crystal furnace is characterized by comprising a water cooling ring for the single crystal furnace, wherein the water cooling ring is used for the single crystal furnace according to any one of claims 1 to 5;

the lifting mechanism drives the water cooling ring for the single crystal furnace to move up and down, and is in transmission connection with the water cooling ring for the single crystal furnace;

the heat shield is detachably connected with the water cooling ring for the single crystal furnace.

7. The upper heat transfer system of the single crystal furnace of claim 6, wherein: the water inlet pipe is communicated with a main water inlet pipeline, and a water flow regulating valve is arranged between the main water inlet pipeline and the water inlet pipe;

the water outlet pipe is communicated with a main water outlet pipeline, and a water flow regulating valve, a temperature sensor and a flow sensor are arranged between the main water outlet pipeline and the water outlet pipe.

8. The upper heat transfer system of the single crystal furnace of claim 6, wherein: the heat shield comprises an inner heat-insulating layer made of graphite, a middle heat-insulating layer made of carbon felt and an outer heat-insulating layer made of graphite;

the middle heat insulation layer is clamped in a space surrounded by the inner heat insulation layer and the outer heat insulation layer.

9. The upper heat transfer system of the single crystal furnace of claim 6, wherein: the top parts of the water inlet pipe and the water outlet pipe are respectively provided with a lifting seat;

the lifting mechanism comprises two lifting components arranged on two sides of a furnace cover of the single crystal furnace, each lifting component comprises a mounting seat, a gear box, a first coupler and a linear module, and the gear boxes, the first couplers and the linear modules are arranged on the mounting seats from bottom to top;

the slide blocks of the linear modules of the two lifting components are respectively and fixedly connected with the water inlet pipe and a lifting seat arranged on the water outlet pipe;

the lifting mechanism further comprises a driving mechanism, and the driving mechanism is in transmission connection with the lifting assembly;

two mounting flanges which are respectively used for penetrating through the water inlet pipe and the water outlet pipe are arranged on the furnace cover, and the mounting flanges are connected with the mounting base;

the inlet tube with the peripheral cover of outlet pipe is equipped with the bellows, just the inlet tube with the top of outlet pipe and the top fixed connection of bellows, the bottom of bellows with mounting flange fixed connection.

10. The single crystal furnace upper portion heat transfer system of claim 9, wherein: the two lifting components are respectively a first lifting component and a second lifting component;

the driving mechanism comprises a driving motor, and the driving motor is in transmission connection with a gear box of the first lifting assembly;

the gear box of the first lifting assembly is in transmission connection with the gear box of the second lifting assembly through a flexible shaft.

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