CN216409669U - Monocrystalline silicon piece production is with drying device who has tilting mechanism - Google Patents

Abstract

The utility model relates to the technical field of monocrystalline silicon wafer production, in particular to a drying device with a turnover mechanism for monocrystalline silicon wafer production, which comprises a drying assembly, a conveying mechanism and a rotating mechanism, wherein the drying assembly comprises a placing box, the conveying assembly is arranged in the placing box, the bottom end of the conveying assembly is connected with a support column, one side of the placing box is connected with a drying box, the surface of the placing box is provided with a control cabinet, the conveying mechanism comprises a limiting plate, two sides of the top end of the conveying assembly are connected with limiting plates, one side of the outer wall of each limiting plate is connected with a storage box, a motor is connected in the storage box, and the motor is connected with a connecting wheel. The connecting rod drives the rotating wheel to rotate through the operation of the motor, so that the connecting plate rotates, and the monocrystalline silicon wafers placed on the surface of the conveying assembly can be conveyed by the connecting plate through the rotation of the connecting plate.

Description

Monocrystalline silicon piece production is with drying device who has tilting mechanism

Technical Field

The utility model relates to the technical field of monocrystalline silicon wafer production, in particular to a drying device with a turnover mechanism for monocrystalline silicon wafer production.

Background

The monocrystalline silicon wafer is a monocrystalline silicon, is a crystal with a basically complete lattice structure, has different properties in different directions, is a good semiconductor material, has purity requirement of more than ninety-nine percent, is used for manufacturing semiconductor devices, solar cells and the like, and is formed by pulling high-purity polycrystalline silicon in a monocrystalline furnace.

Monocrystalline silicon is a relatively active non-metallic element, is an important component of a crystal material, and is mainly used as a semiconductor material, solar photovoltaic power generation and heat supply and the like. Because solar energy has many advantages, solar energy utilization technology has been developed greatly in various market development aspects in recent years, but monocrystalline silicon wafers are produced so that a drying device used by the monocrystalline silicon wafers cannot push the monocrystalline silicon wafers into the interior of the monocrystalline silicon wafers, the overall efficiency of the monocrystalline silicon wafers is reduced, and the monocrystalline silicon wafers need to be pushed by manpower.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a drying device with a turnover mechanism for producing monocrystalline silicon wafers, which aims to solve the problem that the efficiency of the whole drying device is reduced because the drying device cannot push the monocrystalline silicon wafers into the drying device in the background technology.

In order to achieve the purpose, the utility model provides the following technical scheme: a drying device with a turnover mechanism for monocrystalline silicon wafer production comprises a drying assembly, a conveying mechanism and a rotating mechanism, wherein the drying assembly comprises a placing box, the conveying assembly is arranged in the placing box, a supporting column is connected to the bottom end of the conveying assembly, a drying box is connected to one side of the placing box, a control cabinet is arranged on the surface of the placing box, the conveying mechanism comprises a limiting plate, limiting plates are connected to two sides of the top end of the conveying assembly, a storage box is connected to one side of the outer wall of the limiting plate, a motor is connected to the inside of the storage box, a connecting wheel is connected to the motor, a connecting rod is connected to one side of the surface of the connecting wheel, the connecting rod is meshed with a rotating wheel, a connecting plate is connected to one side of the rotating wheel, the connecting plate is connected with a rotating block, the rotating mechanism comprises a connecting pile, and one side of the drying box is connected with the connecting pile, the connecting pile is characterized in that a case is arranged inside the connecting pile, the case is connected with a first gear, the first gear is meshed with a second gear, a cavity is formed in the middle of the second gear, and the top end of the second gear is connected with a hinge rod.

Preferably, a ring groove is formed in one side of the limiting plate, and the connecting plate penetrates through the ring groove formed in the limiting plate and is connected to the rotating block.

Preferably, an annular sliding groove is formed in one side of the inner wall of the limiting plate, and the rotating block is arranged in the annular sliding groove formed in the limiting plate.

Preferably, the swiveling wheel is provided with four groups of grooves, and the connecting rod is meshed with the grooves formed in the swiveling wheel.

Preferably, the outer wall of one side of the drying box is fixedly connected to the connecting pile, and a through hole is formed in one side of the drying box to enable the first gear to be meshed with the second gear.

Preferably, the second gear is inserted in the middle section of the conveying assembly, and one end of the hinge rod is fixedly connected to the inner wall of the drying box.

Compared with the prior art, the utility model has the beneficial effects that:

1. this monocrystalline silicon piece production makes the connecting rod drive the swiveling wheel through motor operation with drying device who has tilting mechanism and rotates, thereby make the connecting plate rotate, be favorable to making the connecting plate carry on progressively to the monocrystalline silicon piece that the conveying subassembly surface was placed through the rotation of connecting plate, thereby the realization gets into the speed of placing incasement portion to monocrystalline silicon piece and accelerates, thereby make holistic work efficiency improve, and the design of limiting plate does benefit to and makes monocrystalline silicon piece carry out limiting displacement to it when placing the incasement portion.

2. This monocrystalline silicon piece production drives first gear through quick-witted case operation with drying device who has tilting mechanism and rotates, thereby make first gear engagement's second gear rotate in the conveying subassembly middle section, make the monocrystalline silicon piece that the conveying subassembly surface was placed get into in the cavity, overturn through the second gear, moving out the cavity through the conveying subassembly, the cavity that is favorable to seting up through the second gear middle part overturns monocrystalline silicon piece, thereby improve monocrystalline silicon piece's stoving effect, and be favorable to making the stoving case reduce the required stoving time of monocrystalline silicon piece, make work efficiency improve greatly.

Drawings

FIG. 1 is a side cross-sectional structural schematic view of the present invention;

FIG. 2 is a top cross-sectional structural view of the connecting rod and swivel wheel coupling of the present invention;

FIG. 3 is a front view of the fifth wheel and connecting rod of the present invention;

fig. 4 is a front sectional structural view of the first gear and the second gear of the present invention.

In the figure: 1. a drying assembly; 110. placing a box; 120. a transfer assembly; 130. a support pillar; 140. a drying box; 150. a control cabinet; 2. a transport mechanism; 210. a limiting plate; 220. a storage tank; 230. a motor; 240. a connecting wheel; 250. a connecting rod; 260. a rotating wheel; 270. a connecting plate; 280. rotating the block; 3. a rotation mechanism; 310. connecting piles; 320. a chassis; 330. a first gear; 340. a second gear; 350. a cavity; 360. a hinged lever.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-4, an embodiment of the present invention is shown:

a drying device with a turnover mechanism for monocrystalline silicon wafer production comprises a drying component 1, a conveying mechanism 2 and a rotating mechanism 3, wherein the drying component 1 comprises a placing box 110, the conveying component 120 is arranged in the placing box 110, the bottom end of the conveying component 120 is connected with a supporting column 130, one side of the placing box 110 is connected with a drying box 140, the surface of the placing box 110 is provided with a control cabinet 150, the conveying mechanism 2 comprises a limiting plate 210, two sides of the top end of the conveying component 120 are connected with the limiting plate 210, one side of the outer wall of the limiting plate 210 is connected with a storage box 220, the interior of the storage box 220 is connected with a motor 230, the motor 230 is connected with a connecting wheel 240, one side of the surface of the connecting wheel 240 is connected with a connecting rod 250, the connecting rod 250 is meshed with a rotating wheel 260, one side of the rotating wheel 260 is connected with a connecting plate 270, the connecting plate 270 is connected with a rotating block 280, the rotating mechanism 3 comprises a connecting pile 310, one side of the drying box 140 is connected with a connecting pile 310, the connecting pile 310 is internally provided with a case 320, the case 320 is connected with a first gear 330, the first gear 330 is meshed with a second gear 340, the middle part of the second gear 340 is provided with a cavity 350, and the top end of the second gear 340 is connected with a hinged rod 360.

Furthermore, a ring groove is formed in one side of the limiting plate 210, and the connecting plate 270 passes through the ring groove formed in the limiting plate 210 and is connected to the rotating block 280, so that the connecting plate 270 can rotate in the ring groove formed in the limiting plate 210, and the rotating block 280 is driven to rotate.

Furthermore, an annular sliding groove is formed in one side of the inner wall of the limiting plate 210, and the rotating block 280 is arranged in the annular sliding groove formed in the limiting plate 210, so that the position of the connecting plate 270 connected with the rotating block 280 is kept limited, and the position of the connecting plate is guaranteed not to be deviated due to rotation.

Further, the rotating wheel 260 is provided with four groups of grooves, and the connecting rod 250 is engaged with the grooves formed in the rotating wheel 260, so that the rotating wheel 260 can be driven to rotate by the aid of the grooves formed in the connecting rod 250 and the rotating wheel 260.

Further, the outer wall of one side of the drying box 140 is fixedly connected to the connecting pile 310, and a through hole is formed in one side of the drying box 140 to enable the first gear 330 to be meshed with the second gear 340, so that the first gear 330 in rotation can pass through the through hole to drive the second gear 340 to rotate.

Further, the middle section of the conveying assembly 120 is inserted with a second gear 340, and one end of the hinge rod 360 is fixedly connected to the inner wall of the drying box 140, so that the position of the second gear 340 connected by the hinge rod 360 can be positioned, and the second gear 340 can be prevented from being shifted due to rotation.

The working principle is as follows: the drying device with the turnover mechanism for the production of the monocrystalline silicon wafer is connected with a limiting plate 210 through two sides of the top end of a conveying assembly 120, the outer wall of one side of the limiting plate 210 is connected with a storage box 220, a motor 230 is arranged inside the storage box 220, the motor 230 is connected with a connecting wheel 240, one side of the surface of the connecting wheel 240 is connected with a connecting rod 250, the connecting rod 250 is meshed in four groups of grooves arranged on a rotating wheel 260, a connecting plate 270 connected with one side of the rotating wheel 260 passes through an annular groove arranged on the limiting plate 210 and is connected to a rotating block 280, the rotating block 280 is arranged in an annular sliding groove arranged on the inner wall of one side of the limiting plate 210, the connecting wheel 240 is driven to rotate through the operation of the motor 230, so that the connecting rod 250 connected with the connecting wheel 240 drives the rotating wheel 260 to rotate, the connecting plate 270 connected with the rotating wheel 260 rotates through the annular groove arranged on the limiting plate 210, and the rotating block 280 connected with the connecting plate 270 moves in the annular sliding groove, this design is favorable to making the connecting plate 270 advance the monocrystalline silicon piece that the conveying component 120 surface was placed through the rotation of connecting plate 270 to the realization gets into the speed of placing the inside of case 110 to the monocrystalline silicon piece and accelerates, thereby makes holistic work efficiency improve, and the design of limiting plate 210 is favorable to making the monocrystalline silicon piece carry out limiting displacement to it when placing the case 110 outside.

The drying device with the turnover mechanism for the production of the monocrystalline silicon wafers is connected to a connecting pile 310 through one side of a drying box 140, a case 320 is arranged inside the connecting pile 310, the case 320 is connected to a first gear 330, the first gear 330 is meshed with a second gear 340 inside the drying box 140 through a through hole formed in one side of the drying box 140 through the first gear 330, the second gear 340 is inserted in the middle section of a conveying assembly 120, the top end of the second gear 340 is connected with a hinged rod 360, the top end of the hinged rod 360 is connected to the inner wall of the drying box 140, so that the position of the second gear 340 is limited, a cavity 350 is formed in the middle of the second gear 340, the first gear 330 is driven to rotate through the operation of the case 320, the first gear 330 penetrates through the second gear 340 meshed with the through hole formed in the drying box 140 and rotates in the middle section of the conveying assembly 120, and the monocrystalline silicon wafers placed on the surface of the conveying assembly 120 enter the cavity 350, overturn through second gear 340, moving out cavity 350 through conveying assembly 120, this design is favorable to overturning the monocrystalline silicon piece through cavity 350 that second gear 340 middle part was seted up to improve the stoving effect of monocrystalline silicon piece, and be favorable to making stoving case 140 reduce the required stoving time of monocrystalline silicon piece, make work efficiency improve greatly.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (6)

1. The utility model provides a monocrystalline silicon piece production is with drying device who has tilting mechanism, includes stoving subassembly (1), transport mechanism (2) and rotary mechanism (3), its characterized in that: the drying assembly (1) comprises a placing box (110), a conveying assembly (120) is arranged inside the placing box (110), a supporting column (130) is connected to the bottom end of the conveying assembly (120), a drying box (140) is connected to one side of the placing box (110), a control cabinet (150) is arranged on the surface of the placing box (110), a conveying mechanism (2) comprises a limiting plate (210), limiting plates (210) are connected to two sides of the top end of the conveying assembly (120), a storage box (220) is connected to one side of the outer wall of the limiting plate (210), a motor (230) is connected inside the storage box (220), a connecting wheel (240) is connected to the motor (230), a connecting rod (250) is connected to one side of the surface of the connecting wheel (240), a rotating wheel (260) is meshed with the connecting rod (250), and a connecting plate (270) is connected to one side of the rotating wheel (260), the drying box is characterized in that the connecting plate (270) is connected with a rotating block (280), the rotating mechanism (3) comprises a connecting pile (310), one side of the drying box (140) is connected with the connecting pile (310), and a case (320) is arranged inside the connecting pile (310).

2. The drying device with the turnover mechanism for the production of the monocrystalline silicon wafer according to claim 1, wherein: the annular groove is formed in one side of the limiting plate (210), the connecting plate (270) penetrates through the annular groove formed in the limiting plate (210) to be connected to the rotating block (280), an annular sliding groove is formed in one side of the inner wall of the limiting plate (210), and the rotating block (280) is arranged in the annular sliding groove formed in the limiting plate (210).

3. The drying device with the turnover mechanism for the production of the monocrystalline silicon wafer according to claim 1, wherein: the rotating wheel (260) is provided with four groups of grooves, and the connecting rods (250) are meshed with the grooves formed in the rotating wheel (260).

4. The drying device with the turnover mechanism for the production of the monocrystalline silicon wafer according to claim 1, wherein: the chassis (320) is connected with a first gear (330), the first gear (330) is meshed with a second gear (340), a cavity (350) is formed in the middle of the second gear (340), and the top end of the second gear (340) is connected with a hinge rod (360).

5. The drying device with the turnover mechanism for the production of the monocrystalline silicon wafer according to claim 4, wherein: the outer wall of one side of the drying box (140) is fixedly connected to the connecting pile (310), and a through hole is formed in one side of the drying box (140) so that the first gear (330) is meshed with the second gear (340).

6. The drying device with the turnover mechanism for the production of the monocrystalline silicon wafer according to claim 4, wherein: a second gear (340) is inserted in the middle section of the conveying assembly (120), and one end of the hinge rod (360) is fixedly connected to the inner wall of the drying box (140).

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