CN209929279U - Quartz boat capable of bearing silicon wafers - Google Patents

Abstract

The utility model discloses a quartz boat capable of bearing silicon wafers, which comprises a quartz main frame body, wherein the quartz main frame body comprises a side wall and a bottom frame, the side wall is formed by a pair of side frames arranged left and right and a pair of end plates arranged front and back, the end plates are vertically arranged and are parallel to each other, the side frames are respectively provided with vertical slots for inserting the side edges of the silicon wafers, and the side frames are matched with each other; a supporting rod is also arranged in the side wall; the inner side walls of the pair of end plates are respectively provided with: a U-shaped bracket for inserting the end of the supporting rod; the U-shaped brackets on the inner side walls of the opposite end plates are symmetrically arranged; the two ends of the supporting rod are erected in a pair of symmetrically arranged U-shaped brackets. The utility model arranges a detachable supporting rod for the prior quartz boat; when the supporting rod is detached, the quartz boat can be inserted with a row of whole wafers, and the whole wafers are supported by the underframe; when the support rod is mounted, a row of the fragments can be inserted and arranged, and the fragments are supported by the support rod.

Description

Quartz boat capable of bearing silicon wafers

Technical Field

The utility model relates to a can bear the weight of quartz boat of silicon chip.

Background

The quartz boat is an appliance for bearing silicon wafers, the inner space of the quartz boat is used for inserting and placing vertical silicon wafers, the quartz boat comprises a quartz main frame body, the quartz main frame body comprises a side wall and a bottom frame, the side wall is formed by a pair of side frames arranged left and right and a pair of end plates arranged front and back, the end plates are vertically placed and are parallel to each other, the side frames are respectively provided with vertical slots for inserting the silicon wafers, and the side frames are matched with each other.

With the development of solar cell technology, the efficiency of the solar module can be improved by dividing the whole silicon wafer into at least two sub-wafers. However, the existing quartz boat is designed according to the shape of the whole silicon wafer, so that the quartz boat needs to be additionally and independently designed for the wafer separation, and the production cost of enterprises is increased.

SUMMERY OF THE UTILITY MODEL

In order to solve the defects in the prior art, the utility model provides a quartz boat capable of bearing silicon wafers, the inner space of which is used for inserting and placing the vertically placed silicon wafers, comprising a quartz main frame body, the quartz main frame body comprises a side frame and a bottom frame, the side frame is enclosed by a pair of side frames arranged left and right and a pair of end plates arranged front and back, the pair of end plates are vertically placed and are parallel to each other, the pair of side frames are respectively provided with a vertical slot for inserting and placing the side edge of the silicon wafers, and the pair of side frames are mutually matched;

a supporting rod is further arranged in the side wall; the inner side walls of the pair of end plates are respectively provided with: a U-shaped bracket for inserting the end of the supporting rod; the U-shaped brackets on the inner side walls of the opposite end plates are symmetrically arranged; the two ends of the supporting rod are erected in a pair of symmetrically arranged U-shaped brackets.

The utility model arranges a detachable supporting rod for the prior quartz boat; when the supporting rod is detached, the quartz boat can be inserted with a row of silicon wafers and the whole wafers (vertically arranged) are supported by the underframe; when the supporting rod is installed (the two ends of the supporting rod are erected in a pair of symmetrically arranged U-shaped brackets), a row of the split sheets (the split sheets are the split sheets of the whole sheet) can be inserted and arranged, and the split sheets (vertically arranged) are supported by the supporting rod.

Preferably, two U-shaped brackets which are arranged up and down are arranged on the inner side wall of any end plate. The mounting position of the supporting rod is vertically selectable, and can be vertically adjusted to adapt to the slicing of two sizes.

Preferably, the inner side wall of any end plate is provided with a plurality of vertically and sequentially arranged U-shaped brackets. The mounting position of the supporting rod is vertically selectable, and can be vertically adjusted to adapt to the slicing of various sizes.

Preferably, the inner side wall of any end plate is provided with a plurality of vertical U-shaped brackets which are sequentially arranged at equal intervals. The mounting positions of the supporting rods are vertically selectable, and can be adjusted vertically at equal intervals to adapt to the slicing of various sizes.

Preferably, a group of U-shaped bracket sets is arranged on the inner side wall of any end plate, each group of U-shaped bracket sets is composed of at least two U-shaped brackets, and each U-shaped bracket in the same group of U-shaped brackets is at the same height. The U-shaped brackets in the same U-shaped bracket group are at the same height, the possibility of installing two or more supporting rods at the same height is provided, and if two or more supporting rods are installed at the same height, the two or more supporting rods at the same height can support the same row of the slicing sheets, so that the supporting of the slicing sheets can be more reliable.

Preferably, two U-shaped bracket sets are arranged on the inner side wall of any end plate, the two U-shaped bracket sets are arranged up and down, each U-shaped bracket set consists of at least two U-shaped brackets, and the U-shaped brackets in the same U-shaped bracket set are at the same height. The two U-shaped bracket sets are arranged up and down, so that the mounting position of the supporting rod can be selected vertically, and the mounting position of the supporting rod can be adjusted vertically to adapt to the slicing of two sizes and specifications. The U-shaped brackets in the same U-shaped bracket group are at the same height, the possibility of installing two or more supporting rods at the same height is provided, and if two or more supporting rods are installed at the same height, the two or more supporting rods at the same height can support the same row of the slicing sheets, so that the supporting of the slicing sheets can be more reliable.

Preferably, be equipped with multiunit U type bracket group on the inside wall of arbitrary end plate, this multiunit U type bracket group is vertical sets gradually, and each U type bracket group of organizing all comprises two at least U type brackets, and each U type bracket in the same U type bracket group is in same height. The plurality of groups of U-shaped bracket groups are vertically arranged in sequence, so that the mounting position of the supporting rod can be selected vertically, and the mounting position of the supporting rod can be vertically adjusted to adapt to the slicing of various sizes and specifications. The U-shaped brackets in the same U-shaped bracket group are at the same height, the possibility of installing two or more supporting rods at the same height is provided, and if two or more supporting rods are installed at the same height, the two or more supporting rods at the same height can support the same row of the slicing sheets, so that the supporting of the slicing sheets can be more reliable.

Preferably, be equipped with multiunit U type bracket group on the inside wall of arbitrary end plate, this multiunit U type bracket group sets gradually vertically equally spaced, and each U type bracket group of organizing all comprises two at least U type brackets, and each U type bracket in the same U type bracket group is in same height. The plurality of groups of U-shaped bracket groups are sequentially arranged at equal intervals in the vertical direction, so that the mounting positions of the supporting rods can be selected in the vertical direction, and the mounting positions of the supporting rods can be adjusted at equal intervals in the vertical direction to adapt to the slicing of various sizes. The U-shaped brackets in the same U-shaped bracket group are at the same height, the possibility of installing two or more supporting rods at the same height is provided, and if two or more supporting rods are installed at the same height, the two or more supporting rods at the same height can support the same row of the slicing sheets, so that the supporting of the slicing sheets can be more reliable.

Preferably, a set of U-shaped brackets on either end plate mounts at least two support rods. Namely, at least two supporting rods are arranged at the same height, and the at least two supporting rods at the same height can support the same row of the slicing sheets, so that the supporting of the slicing sheets can be more reliable.

Preferably, the supporting rod is a grooved rod, the top surface of the grooved rod is provided with a row of vertical slots for inserting the bottom edges of the silicon wafers, and the slots on the grooved rod are matched with the slots on the side frames. If the supporting rod is a slot rod, the slot rod is provided with a slot for inserting the silicon chip, so that the silicon chip can be placed more stably.

Drawings

FIGS. 1 and 2 are schematic views of example 1;

FIGS. 3 and 4 are schematic views of embodiment 2;

FIG. 5 is a schematic view of example 3;

FIG. 6 is a schematic view of example 4;

FIG. 7 is a schematic view of example 5;

FIG. 8 is a schematic view of example 6.

Detailed Description

The following description will further describe embodiments of the present invention with reference to the accompanying drawings and examples. The following examples are only for illustrating the technical solutions of the present invention more clearly, and the protection scope of the present invention is not limited thereby.

Example 1

As shown in fig. 1 and fig. 2, the utility model provides a quartz boat capable of bearing silicon wafers, the inner space of which is used for inserting and placing vertically placed silicon wafers, comprising a quartz main frame body, the quartz main frame body comprises a side frame 10 and a bottom frame 20, the side frame 10 is enclosed by a pair of side frames 11 arranged left and right and a pair of end plates 12 arranged front and back, the pair of end plates 12 are vertically placed and parallel to each other, the pair of side frames 11 are respectively provided with a vertical slot for inserting and placing the side edge of a silicon wafer, and the pair of side frames 11 are mutually matched;

the side wall 10 is also provided with a supporting rod 30; the pair of end plates 12 are provided with: a U-shaped bracket 40 for inserting the end of the support rod 30; the U-shaped brackets 40 on the inner side walls of the pair of end plates 12 are symmetrically arranged; the support bar 30 is bridged at both ends thereof by a pair of symmetrically arranged U-shaped brackets 40.

The utility model arranges a detachable supporting rod 30 for the prior quartz boat; as shown in FIG. 1, when the support rods 30 are removed, the quartz boat can be inserted with a row of monoliths 50 (silicon wafers) and the monoliths 50 (vertically placed) are supported by the base frame 20; as shown in fig. 2, when the support rod 30 is installed (the two ends of the support rod 30 are supported in a pair of symmetrically arranged U-shaped brackets 40), a row of the segments 51 (the segments 51 are segments of the whole segment 50) can be inserted and arranged, and the segments 51 (vertically arranged) are supported by the support rod 30.

The supporting rod 30 can be a slot rod, the top surface of the slot rod is provided with a row of vertical slots for inserting the bottom edges of the silicon wafers, and the slots on the slot rod are matched with the slots on the side frames 11. If the supporting rod 30 is a slot rod, the slot rod is provided with a slot for inserting the silicon wafer, so that the slicing can be placed more stably.

Example 2

As shown in fig. 3 and 4, the difference is that, based on embodiment 1:

two U-shaped brackets 40 are arranged on the inner side wall of any end plate 12. The mounting position of the support rod 30 is vertically selectable and the mounting position of the support rod 30 can be vertically adjusted to accommodate the slices 52, 53 of two sizes.

Example 3

As shown in fig. 5, the difference is that, based on embodiment 1:

a plurality of U-shaped brackets 40 which are vertically arranged in sequence are arranged on the inner side wall of any end plate 12. The mounting position of the supporting rod is vertically selectable, and can be vertically adjusted to adapt to the slicing of various sizes.

Preferably, a plurality of U-shaped brackets 40 are arranged on the inner side wall of any end plate 12 at equal intervals in sequence. The mounting positions of the supporting rods are vertically selectable, and can be adjusted vertically at equal intervals to adapt to the slicing of various sizes.

Example 4

As shown in fig. 6, the difference is that in example 1:

a set of U-shaped bracket sets 400 is provided on the inner side wall of any end plate 12, the set 400 is composed of at least two U-shaped brackets 40, and each U-shaped bracket 40 in the same U-shaped bracket set 400 is at the same height. The fact that the U-shaped brackets 40 of the same U-shaped bracket set 400 are at the same height provides the possibility of mounting two or more support rods 30 at the same height, and if two or more support rods 30 are mounted at the same height, the same row of segments 54 can be supported by the two or more support rods 30 at the same height, making the support of the segments 54 more reliable.

Example 5

As shown in fig. 7, the difference is that in example 1:

two sets of U-shaped bracket sets 400 are disposed on the inner side wall of any one of the end plates 12, the two sets of U-shaped bracket sets 400 are disposed up and down, each set of U-shaped bracket sets 400 is composed of at least two U-shaped brackets 40, and each U-shaped bracket 40 in the same set 400 is at the same height. The two U-shaped bracket sets 400 are arranged up and down, so that the mounting position of the supporting rod can be selected vertically, and the mounting position of the supporting rod can be adjusted vertically to adapt to the slicing of two sizes. The fact that the U-shaped brackets 40 of the same U-shaped bracket group 400 are at the same height provides the possibility of mounting two or more support rods at the same height, and if two or more support rods are mounted at the same height, the two or more support rods at the same height can support the same row of the divided pieces, so that the supporting of the divided pieces can be more reliable.

Example 6

As shown in fig. 8, the difference is that in example 1:

a plurality of U-shaped bracket sets 400 are arranged on the inner side wall of any end plate 12, the U-shaped bracket sets 400 are arranged in sequence vertically, each U-shaped bracket set 400 is composed of at least two U-shaped brackets 40, and each U-shaped bracket 40 in the same U-shaped bracket set 400 is at the same height. The plurality of U-shaped bracket sets 400 are vertically arranged in sequence, so that the mounting position of the supporting rod can be selected vertically, and the mounting position of the supporting rod can be vertically adjusted to adapt to the slicing of various sizes and specifications. The fact that the U-shaped brackets 40 of the same U-shaped bracket group 400 are at the same height provides the possibility of mounting two or more support rods at the same height, and if two or more support rods are mounted at the same height, the two or more support rods at the same height can support the same row of the divided pieces, so that the supporting of the divided pieces can be more reliable.

Preferably, a plurality of U-shaped bracket sets 400 are disposed on the inner side wall of any one of the end plates 12, the U-shaped bracket sets 400 are vertically disposed at equal intervals in sequence, each U-shaped bracket set 400 is composed of at least two U-shaped brackets 40, and each U-shaped bracket 40 in the same U-shaped bracket set 400 is located at the same height. The plurality of U-shaped bracket sets 400 are sequentially arranged at equal intervals in the vertical direction, so that the mounting positions of the supporting rods can be selected in the vertical direction, and the mounting positions of the supporting rods can be adjusted at equal intervals in the vertical direction to adapt to the slicing of various sizes. The fact that the U-shaped brackets 40 of the same U-shaped bracket group 400 are at the same height provides the possibility of mounting two or more support rods at the same height, and if two or more support rods are mounted at the same height, the two or more support rods at the same height can support the same row of the divided pieces, so that the supporting of the divided pieces can be more reliable.

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 technical 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 quartz boat comprises a quartz main frame body, wherein the quartz main frame body comprises a side wall and an underframe, the side wall is surrounded by a pair of side frames arranged on the left and right and a pair of end plates arranged on the front and back, the pair of end plates are vertically arranged and are parallel to each other, the pair of side frames are respectively provided with a vertical slot for inserting the side edge of the silicon wafer, and the pair of side frames are mutually matched; the method is characterized in that:

a supporting rod is further arranged in the side wall; the inner side walls of the pair of end plates are respectively provided with: a U-shaped bracket for inserting the end of the supporting rod; the U-shaped brackets on the inner side walls of the opposite end plates are symmetrically arranged; the two ends of the supporting rod are erected in a pair of symmetrically arranged U-shaped brackets.

2. The quartz boat for carrying silicon wafers as claimed in claim 1, wherein two U-shaped brackets are provided on the inner side wall of any one of the end plates.

3. The quartz boat capable of bearing silicon wafers as claimed in claim 1, wherein a plurality of U-shaped brackets are disposed on the inner side wall of any one of the end plates in vertical order.

4. The quartz boat capable of bearing silicon wafers as claimed in claim 1, wherein a plurality of U-shaped brackets are sequentially arranged on the inner side wall of any end plate at equal intervals in vertical direction.

5. The quartz boat for bearing silicon wafers as claimed in claim 1, wherein a set of U-shaped bracket sets is provided on the inner sidewall of each end plate, the set of U-shaped bracket sets is composed of at least two U-shaped brackets, and each U-shaped bracket in the same U-shaped bracket set is at the same height.

6. The quartz boat for bearing silicon wafers as claimed in claim 1, wherein two U-shaped bracket sets are disposed on the inner sidewall of each end plate, the two U-shaped bracket sets are disposed one above the other, each U-shaped bracket set is composed of at least two U-shaped brackets, and the U-shaped brackets in the same U-shaped bracket set are at the same height.

7. The quartz boat for bearing silicon wafers as claimed in claim 1, wherein a plurality of U-shaped bracket sets are disposed on the inner sidewall of each end plate, the U-shaped bracket sets are vertically disposed in sequence, each U-shaped bracket set comprises at least two U-shaped brackets, and the U-shaped brackets in the same U-shaped bracket set are at the same height.

8. The quartz boat for bearing silicon wafers as claimed in claim 1, wherein a plurality of U-shaped bracket sets are disposed on the inner sidewall of each end plate, the U-shaped bracket sets are vertically disposed at equal intervals, each U-shaped bracket set comprises at least two U-shaped brackets, and the U-shaped brackets in the same U-shaped bracket set are at the same height.

9. The quartz boat of any of claims 5 to 8, wherein a set of U-shaped brackets on either end plate is fitted with at least two support rods.

10. The quartz boat capable of bearing silicon wafers as claimed in claim 1, wherein the supporting rods are grooved rods, the top surfaces of the grooved rods are provided with a row of vertical slots for the insertion of the bottom edges of the silicon wafers, and the slots on the grooved rods are matched with the slots on the side frames.

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