CN109436524B - G6, G7 and G8 polycrystalline silicon ingot universal ingot turning device and fixing method thereof - Google Patents

Abstract

The invention discloses a general ingot turning device for G6, G7 and G8 polycrystalline silicon ingots and a fixing method thereof, and relates to the technical field of polycrystalline silicon ingot turning devices. According to the scheme, the size of the polycrystalline silicon ingots can be adjusted at will according to the sizes of the polycrystalline silicon ingots with different specifications, only one set of turnover device facilities is needed, all relevant links such as turnover operation, installation, placement, transition transportation and the like are relatively easy and convenient, equipment facilities and sites are saved, and therefore production efficiency and economic benefit are remarkably improved.

Description

G6, G7 and G8 polycrystalline silicon ingot universal ingot turning device and fixing method thereof

Technical Field

The invention relates to the technical field of polycrystalline silicon ingot turning devices, in particular to a general type G6, G7 and G8 polycrystalline silicon ingot turning device and a fixing method thereof.

Background

The existing polycrystalline silicon ingot turning device is special, namely the G6 big ingot turning device can only turn the G6 big ingot, the G7 big ingot turning device can only turn the G7 big ingot, the G8 big ingot turning device can only turn the G8 big ingot, and the big ingot turning device is pit digging installation equipment and facilities, is more limited by space and places, and can not realize that one set of device can not consider all under the condition that the G6, G7 and G8 big ingots all need turning operation, and can not carry out centralized treatment when the polycrystalline big ingot turning operation of each type is time-consuming and labor-consuming, and the polycrystalline big ingot of each type must correspond to the turning device of corresponding type, thereby increasing the operation complexity of the procedure and the equipment and facility cost investment.

Disclosure of Invention

The invention aims to solve the technical problems that the existing polycrystalline silicon ingot turning device is special, the large ingot turning device is pit digging installation equipment, the space and the site are more limited, and the problem that one set of device can not take all the polycrystalline large ingots in all types into consideration and cannot be intensively processed during turning operation is solved.

In order to solve the technical problems, the invention provides a general ingot turning device for G6, G7 and G8 polycrystalline silicon ingots, which comprises a turning motor and a turning frame, wherein the turning frame is provided with a vertical limiting device for limiting the polycrystalline silicon ingots in the vertical direction and an adjustable horizontal limiting device for limiting the polycrystalline silicon ingots in the horizontal direction;

The vertical stop device is including setting up the backup pad in the upset frame both sides, the both ends of bracing piece all outwards extend has the cardboard, and both sides correspond all can dismantle between the cardboard and be connected with the limiting plate, equal threaded connection has vertical stop screw on the limiting plate.

The technical effects are as follows: according to the scheme, the limiting plates are detachably connected between the clamping plates corresponding to the two sides, when the polycrystalline silicon ingots are placed in the overturning frame, the limiting plates on one side can be detached, the limiting plates are completely installed on the clamping plates after the polycrystalline silicon ingots are placed in the clamping plates, the vertical limiting screws are rotated to abut against the polycrystalline silicon ingots, the vertical limiting of the polycrystalline silicon ingots is achieved, the horizontal limiting of the polycrystalline silicon ingots can be achieved through the horizontal limiting devices, the comprehensive limiting of the polycrystalline silicon ingots is achieved, the vertical limiting screws and the horizontal limiting devices can be used for adjusting the limiting positions, therefore the method can adapt to the limiting of the polycrystalline silicon ingots of various types of G6, G7 and G8 polycrystalline silicon ingots, the size of the novel G6, G7 and G8 polycrystalline silicon ingot universal type overturning devices is adjusted at will according to the sizes of the polycrystalline silicon ingots of different specifications, and the novel vertical hollow limiting structures and the horizontal limiting screws can only be specially used when the polycrystalline silicon ingots are turned over from the prior large ingot overturning operation, namely, three overturning devices are needed to be changed into G6, G7 and G8 type universal type overturning devices, the method is convenient to put in various places, the production and the method is convenient, the method is convenient to put in various places, and the production and the method is more convenient.

The technical scheme of the invention is as follows: a plurality of clamping grooves are uniformly formed in the clamping plate, and clamping edges used for being embedded in the clamping grooves are arranged at two ends of the limiting plate.

Further, the support plates are arranged on two sides along the length direction of the turnover frame, and each side is provided with at least two support plates.

The general ingot turning device for the G6, G7 and G8 polycrystalline silicon ingots comprises horizontal limiting pieces arranged at four corners of a turning frame.

The general type ingot turning device for the G6, G7 and G8 polycrystalline silicon ingots comprises a support which is positioned inside the turning frame and fixedly connected with the turning frame, wherein a horizontal limit screw is connected to the support in a threaded manner, the movement direction of the horizontal limit screw is perpendicular to the movement direction of a vertical limit screw, and the horizontal limit screw is parallel to the length of the turning frame.

The general type ingot turning device for the G6, G7 and G8 polycrystalline silicon ingots comprises a horizontal L-shaped frame, wherein the upper end and the lower end of the horizontal L-shaped frame are fixedly connected with a turning frame, the inner side of the L-shaped frame is far away from the inside of the turning frame, a connecting rod is fixedly connected between the L-shaped frames, and the horizontal limiting screw is in threaded connection with the connecting rod.

The general ingot turning device for the G6, G7 and G8 polycrystalline silicon ingots is characterized in that gaskets are arranged at one ends of the vertical limiting screw and the horizontal limiting screw, which are close to the inside of the turning frame, and a rotating handle is arranged at the other ends of the vertical limiting screw and the horizontal limiting screw.

A fixing method of a general ingot turning device for G6, G7 and G8 polycrystalline silicon ingots comprises the following steps:

a. Firstly, embedding a limiting plate below the turnover frame into a clamping groove by utilizing a clamping edge to be erected on the corresponding clamping edge, and then rotating a corresponding vertical limiting screw rod to enable one end of the limiting plate, which is close to the inside of the turnover frame, to be positioned at a proper position;

b. Placing the polycrystalline silicon ingot in the middle of the overturning frame, and then adjusting the horizontal limiting screw rods to enable the horizontal limiting screw rods to tightly abut against the side walls of the polycrystalline silicon ingot;

c. The limiting plate above the turnover frame is embedded in the clamping groove by utilizing the clamping edge to be erected on the corresponding clamping edge, and then the corresponding vertical limiting screw rod is rotated to enable one end, which is close to the inside of the turnover frame, to tightly abut against the upper side wall of the polycrystalline silicon ingot, so that the limiting of the polycrystalline silicon ingot is completed.

The beneficial effects of the invention are as follows:

(1) The limiting plate is detachably connected with the clamping plate by embedding the clamping edge in the clamping groove, so that the limiting plate is convenient to detach and stable to connect, and in addition, when the limiting plate is connected to the clamping plate, a proper clamping groove can be selected for embedding, so that the rotation amount of the vertical limiting screw is reduced;

(2) According to the horizontal limiting device, the limit of the polycrystalline silicon ingot is realized through rotating four horizontal limiting screws arranged on the bracket, and the horizontal limiting device is convenient to adjust and stable in limit;

(3) The gasket arranged in the invention can reduce the damage of the vertical limit screw and the horizontal limit screw to the polycrystalline silicon ingot, and the arranged rotating handle is convenient for operators to rotate the vertical limit screw and the horizontal limit screw.

Drawings

Fig. 1 is a schematic structural view of the present embodiment for embodying a horizontal stop screw;

Fig. 2 is a schematic structural diagram of the present embodiment for embodying a vertical stop screw.

Wherein: 1. a turnover frame; 2. a support plate; 21. a clamping plate; 211. a clamping groove; 3. a limiting plate; 31. a vertical limit screw; 32. clamping edges; 4. an L-shaped frame; 41. a connecting rod; 411. a horizontal limit screw; 5. a gasket; 51. the handle is turned.

Detailed Description

Examples: the utility model provides a general type ingot turning device of G6, G7, G8 polycrystalline silicon ingot, as shown in FIG. 1, including upset motor and upset frame 1, be equipped with on the upset frame 1 and be used for spacing vertical stop device to polycrystalline silicon ingot vertical direction to and spacing adjustable horizontal stop device to polycrystalline silicon ingot horizontal direction, can be with the stable fixing of polycrystalline silicon ingot in upset frame 1 through vertical stop device and horizontal stop device.

The vertical stop device is including setting up the backup pad 2 in the upset frame 1 both sides, the both ends of bracing piece all outwards extend there is cardboard 21, all can dismantle between the cardboard 21 that both sides correspond and be connected with limiting plate 3, equal threaded connection has vertical stop screw 31 on the limiting plate 3, wherein, a plurality of draw-in grooves 211 have evenly been seted up on the cardboard 21, the both ends of limiting plate 3 all are equipped with the draw-in edge 32 that are used for inlaying to establish in the draw-in groove 211, realize with the cardboard 21 can dismantle the connection, and when connecting, owing to be equipped with a plurality of draw-in groove 211, can select suitable draw-in groove 211 to imbed, thereby reduce the rotation volume of vertical stop screw 31.

The backup pad 2 sets up in the both sides along upset frame 1 length direction, and every side all is equipped with two at least backup pads 2, can guarantee vertical spacing stability.

Vertical limit process:

Firstly, the limiting plate 3 below the turnover frame 1 is embedded in a proper clamping groove 211 by utilizing the clamping edge 32 and is erected on the corresponding clamping edge 32, then the corresponding vertical limiting screw rod 31 is rotated to enable one end, close to the inside of the turnover frame 1, to be located at a proper position, a polycrystalline silicon ingot is placed in the turnover frame 1, the limiting plate 3 above the turnover frame 1 is embedded in the clamping groove 211 by utilizing the clamping edge 32 and is erected on the corresponding clamping edge 32, and then the corresponding vertical limiting screw rod 31 is rotated to enable one end, close to the inside of the turnover frame 1, to be tightly abutted against the upper side wall of the polycrystalline silicon ingot, so that limiting of the polycrystalline silicon ingot in the vertical direction is completed.

The horizontal limiting device comprises horizontal limiting pieces arranged at four corners of the turnover frame 1, the horizontal limiting pieces comprise supports which are located inside the turnover frame 1 and fixedly connected with the turnover frame 1, horizontal limiting screws 411 are connected to the supports in a threaded mode, the movement direction of the horizontal limiting screws 411 is perpendicular to the movement direction of the vertical limiting screws 31, and the horizontal limiting screws 411 are parallel to the length of the turnover frame 1.

The support includes upper and lower both ends all with upset frame 1 fixed connection's horizontal L type frame 4, the inside setting of upset frame 1 is kept away from to the inboard of L type frame 4, and fixedly connected with connecting rod 41 between two L type frames 4, horizontal spacing screw 411 and connecting rod 41 threaded connection.

The vertical spacing screw 31 and the inside one end of horizontal spacing screw 411 being close to upset frame 1 all are equipped with gasket 5, and the other end all is equipped with rotation handle 51, and the gasket 5 of setting can reduce vertical spacing screw 31 and the damage of horizontal spacing screw 411 to the polycrystalline silicon ingot, and the rotation handle 51 of setting is convenient for operating personnel to rotate vertical spacing screw 31 and horizontal spacing screw 411.

Limiting process in horizontal direction:

the polycrystalline silicon ingot is placed in the position right in the middle of the turnover frame 1, and then the horizontal limiting screw 411 is adjusted to tightly abut against the side wall of the polycrystalline silicon ingot, so that the horizontal limiting of the polycrystalline silicon ingot is realized.

A fixing method of a general ingot turning device for G6, G7 and G8 polycrystalline silicon ingots comprises the following steps:

a. Firstly, embedding a limiting plate 3 below the turnover frame 1 into a clamping groove 211 by utilizing a clamping edge 32 to be erected on the corresponding clamping edge 32, and then rotating a corresponding vertical limiting screw 31 to enable one end, close to the inside of the turnover frame 1, to be positioned at a proper position;

b. placing the polycrystalline silicon ingot in the middle of the turnover frame 1, and then adjusting the horizontal limiting screw 411 to tightly abut against the side wall of the polycrystalline silicon ingot;

c. The limiting plate 3 above the turnover frame 1 is embedded in the clamping groove 211 by utilizing the clamping edge 32 and is erected on the corresponding clamping edge 32, and then the corresponding vertical limiting screw 31 is rotated to enable one end, close to the inside of the turnover frame 1, to tightly abut against the upper side wall of the polycrystalline silicon ingot, so that the limiting of the polycrystalline silicon ingot is completed.

According to the scheme, through the invention of the novel G6, G7 and G8 universal type turnover device, the novel vertical hollow limit structure and the novel horizontal limit screw can be randomly adjusted according to the sizes of the polycrystalline silicon ingots with different specifications, the novel vertical hollow limit structure and the novel horizontal limit screw can only be specially used in the conventional large-ingot turnover operation, namely three turnover device facilities are changed into G6, G7 and G8 universal type turnover device facilities, and only one turnover device facility is needed, so that the novel vertical hollow limit structure and the novel horizontal limit screw are relatively easy and convenient in all relevant links such as turnover operation, installation, placement, transition transportation and the like, and equipment facilities and sites are saved, thereby remarkably improving the production efficiency and economic benefit.

In addition to the embodiments described above, other embodiments of the invention are possible. All technical schemes formed by equivalent substitution or equivalent transformation fall within the protection scope of the invention.

Claims (6)

1. The utility model provides a general type ingot turning device of G6, G7, G8 polycrystalline silicon ingot, includes upset motor and upset frame (1), its characterized in that: the turnover frame (1) is provided with a vertical limiting device for limiting the vertical direction of the polycrystalline silicon ingot and an adjustable horizontal limiting device for limiting the horizontal direction of the polycrystalline silicon ingot;

The vertical limiting device comprises supporting plates (2) arranged on two sides of the turnover frame (1), clamping plates (21) are outwards extended at two ends of each supporting plate, limiting plates (3) are detachably connected between the clamping plates (21) corresponding to the two sides, and vertical limiting screws (31) are connected to the limiting plates (3) in a threaded mode;

the horizontal limiting device comprises horizontal limiting pieces arranged at four corners of the turnover frame (1);

the horizontal limiting part comprises a support which is positioned inside the overturning frame (1) and fixedly connected with the overturning frame (1), a horizontal limiting screw (411) is connected to the support in a threaded mode, the movement direction of the horizontal limiting screw (411) is perpendicular to the movement direction of the vertical limiting screw (31), and the horizontal limiting screw (411) is parallel to the length of the overturning frame (1).

2. The universal ingot turning device for G6, G7 and G8 multicrystalline silicon ingots according to claim 1, wherein: a plurality of clamping grooves (211) are uniformly formed in the clamping plate (21), and clamping edges (32) used for being embedded in the clamping grooves (211) are arranged at two ends of the limiting plate (3).

3. The universal ingot turning device for G6, G7 and G8 multicrystalline silicon ingots according to claim 2, wherein: the support plates (2) are arranged on two sides along the length direction of the turnover frame (1), and each side is provided with at least two support plates (2).

4. A general ingot turning device for G6, G7, G8 multicrystalline silicon ingots according to claim 3, wherein: the support includes upper and lower both ends all with upset frame (1) fixed connection's horizontal L type frame (4), the inside setting of upset frame (1) is kept away from to the inboard of L type frame (4), and two fixedly connected with connecting rod (41) between L type frame (4), horizontal spacing screw (411) and connecting rod (41) threaded connection.

5. A general ingot turning device for G6, G7, G8 multicrystalline silicon ingots according to claim 3, wherein: the one ends of the vertical limiting screw (31) and the horizontal limiting screw (411) close to the inside of the turnover frame (1) are respectively provided with a gasket (5), and the other ends of the vertical limiting screw and the horizontal limiting screw are respectively provided with a rotating handle (51).

6. A method for fixing a general ingot turning device for G6, G7 and G8 multicrystalline silicon ingots according to any one of claims 4 and 5, which is characterized in that: the method comprises the following steps:

a. Firstly, embedding a limiting plate (3) below the turnover frame (1) into a clamping groove (211) by utilizing a clamping edge (32) to be erected on the corresponding clamping edge (32), and then rotating a corresponding vertical limiting screw (31) to enable one end of the limiting plate, which is close to the inside of the turnover frame (1), to be positioned at a proper position;

b. placing the polycrystalline silicon ingot in the middle of the turnover frame (1), and then adjusting the horizontal limiting screw rods (411) to enable the polycrystalline silicon ingot to tightly abut against the side walls of the polycrystalline silicon ingot;

c. The limiting plate (3) above the turnover frame (1) is embedded in the clamping groove (211) by utilizing the clamping edge (32) and is erected on the corresponding clamping edge (32), and then the corresponding vertical limiting screw (31) is rotated, so that one end, close to the inside of the turnover frame (1), is tightly abutted against the upper side wall of the polycrystalline silicon ingot, and limiting of the polycrystalline silicon ingot is completed.