KR101066397B1 - Solar wafer cassette - Google Patents

Abstract

A solar wafer cassette is disclosed.
The disclosed solar wafer cassette includes: upper and lower end plates 200 and 300 disposed to face up and down at a predetermined interval; A pair of first support bars disposed to connect the upper and lower end plates 200 and 300, and supporting the first side w1 of the rectangular solar wafer w accommodated between the two end plates 200 and 300. 410, a pair of second support bars 420 supporting the second side w2 facing the first side w1, and between the first side w1 and the second side w2. A support bar 400 made up of a pair of third support bars 430 supporting a third side w3, which is one of the two sides w3 and w4 positioned; A solar member which is rotatably installed at one edge of the two end plates 200 and 300 to selectively block a fourth side w4 facing the third side w3 of the solar wafer w; As a wafer cassette,
An upper hinge hole 202 is formed at one side edge corresponding to the fourth side w4 of the upper end plate 200, and a locking step 202 a is formed inside the upper hinge hole 202. The upper locking groove 203 is formed on one side spaced apart from the upper hinge hole 202 by a predetermined distance, and the mounting bar b is selectively disposed between the upper hinge hole 202 and the upper locking groove 203. The upper mounting groove 201 is formed is inserted,
A lower hinge hole 302 is formed at a position corresponding to the upper hinge hole 202 of the lower end plate 300, and a lower locking groove 303 is formed at a position corresponding to the upper locking groove 203. And a lower mounting groove 301 in which a mounting bar b is selectively inserted in a position corresponding to the upper mounting groove 201;
The lock member 500,
An upper hinge shaft 530 rotatably fitted in the upper hinge hole 202 and provided with an elastic hook portion 531 at an upper end thereof to be engaged with the locking jaw 202a;
An upper bridge 520 integrally formed on an outer surface of the upper hinge shaft 530;
A lower hinge shaft 550 rotatably fitted into the lower hinge hole 302;
A lower bridge 540 integrally formed on an outer surface of the lower hinge shaft 550;
The upper part is integrally connected to the upper bridge 520, the lower part is integrally connected to the lower bridge 540, and the upper and lower ends are inserted into the upper locking groove 203 and the lower locking groove 303. A plurality of support protrusions 511 serve to block the fourth side w4 of the solar wafer w and are spaced apart from each other on the surface facing the solar wafer w on the outer circumferential surface of the solar wafer w. Further comprises a lock bar (510) formed to have a phase difference of 90 degrees with respect to the upper and lower bridges (520,540);
On the upper and lower bridges (520,540), the upper and lower bridges (520,540) further includes an upper elastic portion (521) and a lower elastic portion (541) each bent inward in a semicircular shape so as to have elasticity;
Upper reinforcing ribs 522 and lower reinforcing ribs 542 are formed at each upper end of the upper bridge 520 and the lower bridge 540, respectively, and portions of the upper and lower reinforcing ribs 522 and 542 are upper bridges 520. ) And a space retracted outwardly from the lower bridge 540 by a predetermined distance, so that a free space s is secured inside each of the upper reinforcing rib 522 and the lower reinforcing rib 542.
When the lock bar 510 is inserted into the upper and lower locking grooves 203 and 303, the free spaces s of the upper and lower mounting grooves 201 and 301 and the upper and lower reinforcing ribs 522 and 542 communicate with each other. It is to include more.

Description

Solar wafer cassette

The present invention relates to a solar wafer cassette.

In particular, an elastic hook portion is provided on at least an upper hinge shaft of the lock member, and a hinge hole into which the elastic hook portion is press-fitted is provided in the upper end plate, and a locking jaw in which the lower end of the elastic hook portion is engaged is provided in the hinge hole. It is characterized in that the lock member is prevented from sagging downward due to its own weight, and also provided with an elastic portion that can elastically deform the length of the bridge on the bridge connecting the lock bar and the upper and lower hinge axis It relates to a solar wafer cassette having this feature to enable the lock pins provided at the upper and lower ends of the lock bar to be inserted smoothly when inserted into the lock grooves of the upper and lower end plates.

The solar wafer cassette is a protective device for protecting the solar wafer from disturbance.

1 is a block diagram of a conventional solar wafer cassette. For reference, although the solar wafer cassette may be used in the transverse direction or the longitudinal direction, a state used in the longitudinal direction will be described as an example in FIG. 1.

As shown in FIG. 1, the conventional solar wafer cassette 1 has an upper end plate 10 having a rectangular plate shape and a lower end of the same shape disposed to face the upper end plate 10 at a predetermined interval. The first, second, and third sides w1 of the solar wafer w, which are received between the plate 20 and the upper end plate 10 and the lower end plate 20 and are received between the two end plates. (w2) and a plurality of support bars 30 for supporting (w3) and rotatably installed on one side of the pair of end plates 10 and 20 to allow the fourth side w4 of the solar wafer w to be rotated. It consists of a lock member 40 for selectively supporting.

The lock member 40 includes a pair of hinge shafts 41 rotatably installed in the hinge holes 11 and 21 provided at one side of the end plates 10 and 20, and the hinge shafts 41. A pair of connecting rods 42 integrally connected to the plurality of connecting rods 42 and the ends of the respective connecting rods 42 are integrally connected in the longitudinal direction of the solar wafer cassette 1 to be provided at the end plates 10 and 20. It consists of a lock bar 43 which is selectively pushed into each lock groove 12 and 22.

However, the conventional solar wafer cassette has the following problems.

First, since each hinge shaft 41 is loosely fitted into the hinge holes 11 and 21, the lock member 40 may be separated when the solar wafer cassette is placed as shown in FIG. 1.

In other words, when the solar wafer cassette is placed upright, the locking member 40 is pulled downward by gravity, and as a result, as shown in FIG. 2, the hinge hole 11 of the upper end plate 10 is formed. ), The hinge shaft 41 of the upper side of the lock member 40 is separated. When the upper hinge shaft 41 of the lock member 40 is removed in this way, the lock member 40 does not stably support the solar wafer w, so the solar wafer w is detached from the solar wafer cassette 1. Can cause problems.

Second, due to the improper or abnormal deformation of the lock member 40, the lock bar 43 may not be able to be inserted into the lock grooves 12 and 22, and damage may occur in the process of forcibly inserting it. have.

In other words, in order for the locking member 40 to perform a locking action, the distance d1 between the hinge shaft 41 and the lock bar 43 of the lock member 40 and the hinge hole of each end plate 10 and 20 ( 11, 21 and the distance (d2) between the lock grooves (12, 22) should be the same, but when the difference in the distance between the two due to poor dimensions in the design of the product, or when the lock member 40 is abnormally deformed by these external forces If the distance difference between them occurs, it becomes difficult to insert the lock bar 43 into the locking grooves 12 and 22.

Of course, the connecting rod 42 connecting the hinge shafts 11 and 21 and the lock bar 43 has a certain degree of elasticity in terms of material properties, but the elastic range is extremely limited so that it cannot effectively cope with the above problems. If you have a problem as described above, if you try to forcibly insert the connection portion 42 and the lock bar 43, the connection portion of the broken may occur.

The present invention has been made to solve the conventional problems as described above, the main object of the present invention, the solar wafer cassette to improve the problem that the locking member is separated from the upper end plate by preventing the locking member from sagging. In providing.

Another object of the present invention is to be able to elastically adjust the distance between the lock bar and the hinge axis can be easily inserted into the lock bar into the lock groove, as well as to prevent the damage of the lock member in advance when locking and locking by giving such elasticity. Can be.

The solar wafer cassette according to the present invention includes: upper and lower end plates 200 and 300 disposed to face up and down at a predetermined interval; A pair of first support bars disposed to connect the upper and lower end plates 200 and 300, and supporting the first side w1 of the rectangular solar wafer w accommodated between the two end plates 200 and 300. 410, a pair of second support bars 420 supporting the second side w2 facing the first side w1, and between the first side w1 and the second side w2. A support bar 400 made up of a pair of third support bars 430 supporting a third side w3, which is one of the two sides w3 and w4 positioned; A solar member which is rotatably installed at one edge of the two end plates 200 and 300 to selectively block a fourth side w4 facing the third side w3 of the solar wafer w; As a wafer cassette,

An upper hinge hole 202 is formed at one side edge corresponding to the fourth side w4 of the upper end plate 200, and a locking step 202 a is formed inside the upper hinge hole 202. The upper locking groove 203 is formed on one side spaced apart from the upper hinge hole 202 by a predetermined distance, and the mounting bar b is selectively disposed between the upper hinge hole 202 and the upper locking groove 203. The upper mounting groove 201 is formed is inserted,
A lower hinge hole 302 is formed at a position corresponding to the upper hinge hole 202 of the lower end plate 300, and a lower locking groove 303 is formed at a position corresponding to the upper locking groove 203. And a lower mounting groove 301 in which a mounting bar b is selectively inserted in a position corresponding to the upper mounting groove 201;

The lock member 500,
An upper hinge shaft 530 rotatably fitted in the upper hinge hole 202 and provided with an elastic hook portion 531 at an upper end thereof to be engaged with the locking jaw 202a;
An upper bridge 520 integrally formed on an outer surface of the upper hinge shaft 530;
A lower hinge shaft 550 rotatably fitted into the lower hinge hole 302;
A lower bridge 540 integrally formed on an outer surface of the lower hinge shaft 550;
The upper part is integrally connected to the upper bridge 520, the lower part is integrally connected to the lower bridge 540, and the upper and lower ends are inserted into the upper locking groove 203 and the lower locking groove 303. A plurality of support protrusions 511 serve to block the fourth side w4 of the solar wafer w and are spaced apart from each other on the surface facing the solar wafer w on the outer circumferential surface of the solar wafer w. Further comprises a lock bar (510) formed to have a phase difference of 90 degrees with respect to the upper and lower bridges (520,540);

On the upper and lower bridges (520,540), the upper and lower bridges (520,540) further includes an upper elastic portion (521) and a lower elastic portion (541) each bent inward in a semicircular shape so as to have elasticity;

Upper reinforcing ribs 522 and lower reinforcing ribs 542 are formed at each upper end of the upper bridge 520 and the lower bridge 540, respectively, and portions of the upper and lower reinforcing ribs 522 and 542 are upper bridges 520. ) And a space retracted outwardly from the lower bridge 540 by a predetermined distance, so that a free space s is secured inside each of the upper reinforcing rib 522 and the lower reinforcing rib 542.
When the lock bar 510 is inserted into the upper and lower locking grooves 203 and 303, the free spaces s of the upper and lower mounting grooves 201 and 301 and the upper and lower reinforcing ribs 522 and 542 communicate with each other. It further comprises.

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In the solar wafer cassette according to the present invention, even when the solar wafer is used upright, the upper hinge shaft is forcibly pressed into the hinge hole of the upper end plate, thereby preventing the locking member from sagging and further preventing the locking member from being separated.

In addition, the solar wafer cassette according to the present invention, even if the gap between the hinge hole and the lock groove of each end plate, and the hinge axis and the lock bar of the lock member coupled to each end plate does not exactly match the dimensions in the hinge axis and the lock bar The length of the bridge can be varied in the elastic range by the elastic part formed in the bridge connecting the liver, so that the smooth coupling of the lock groove and the lock bar is possible, and furthermore, there is no excessive binding to prevent the damage of the lock member.

In addition, the solar wafer cassette according to the present invention can prevent breakage of the bridge by forming a reinforcing rib in a bridge portion having a relatively weak strength.

In addition, the solar wafer cassette according to the present invention, the position of the reinforcing rib formed in the bridge close to the hinge axis of the reinforcing rib formed in the bridge to the position retracted by a predetermined distance outward from the bridge, the mounting for mounting the solar wafer cassette When inserting the bar, the insertion depth can be enlarged, which enables stable mounting operation.

1 is a perspective view of a conventional solar wafer cassette.
Figure 2 is a coupling relationship between the end plate and the lock member for explaining the problem of the conventional lock member.
3 is a partially exploded perspective view of a solar wafer cassette according to the present invention.
4 is a perspective view of the solar wafer cassette according to the present invention in a combined state, before the lock of the lock member.
5 is an enlarged view of a portion A of FIG. 4 and is a state diagram after locking of the lock member.
6 is a cross-sectional view taken along line BB of FIG. 4.
7 is a cross-sectional view taken along line CC of FIG. 5.

Hereinafter, a solar wafer cassette according to embodiments of the present invention is disclosed.

The disclosed embodiments are provided so that those skilled in the art can easily understand the spirit of the present invention, and the present invention is not limited thereto. Embodiments of the invention may be modified in other forms within the spirit and scope of the invention. As used herein, the term " and / or " is used to include at least one of the preceding and following elements. "On" other elements herein means that other elements are directly located on one element and that the third element is further located on the one element . Although each element or portion of the specification is referred to by using the expressions of the first and second expressions, it is not limited thereto. The thicknesses and relative thicknesses of the components shown in the figures may be exaggerated to clearly illustrate the embodiments of the present invention. In addition, the matters described in the attached drawings may be different from those actually implemented by the schematic drawings to easily describe the embodiments of the present invention.

3 is a partially exploded perspective view of the solar wafer cassette according to the present invention, Figure 4 is a combined perspective view of the solar wafer cassette according to the present invention, a state before the lock of the lock member, Figure 5 is a part A of FIG. As an enlarged view, it is a state diagram after locking of a locking member, FIG. 6 is sectional drawing along the BB line of FIG. 4, and FIG. 7 is sectional drawing along the CC line of FIG.

According to these drawings, the solar wafer cassette 100 of the present invention, the upper end plate 200 in the form of a square plate, and the lower end plate of the same shape disposed to face the upper end plate 200 at a predetermined interval. And a pair configured to connect the upper end plate 200 and the lower end plate 300 to support the first side w1 of the solar wafer w received between the two end plates. A pair of second support bars 420 supporting the first support bar 410, a second side w2 facing the first side w1, and the first side w1 and the second side a support bar 400 made up of a pair of third support bars 430 supporting a third side w3, which is one of two sides positioned between (w2); The lock member 500 is rotatably installed at one side of the pair of end plates 200 and 300 to selectively block a fourth side w4 facing the third side w3 of the solar wafer w. do. This configuration is the same as before.

In addition, the upper end plate 200 of the solar wafer cassette 100 according to the present invention has an upper hinge hole 202 at one side edge corresponding to the fourth side w4 of the solar wafer w. Although formed, the engaging jaw 202a is formed on the inner circumferential surface of the upper hinge hole 202 as shown in FIG. 6.
In addition, the upper end plate 200, the upper locking groove 203 is formed on one side spaced apart from the upper hinge hole 202 by a predetermined distance.
In addition, the upper end plate 200, the upper mounting groove 201 is formed so that the mounting bar (b) of Figure 7 can be inserted between the upper hinge hole 202 and the upper locking groove 203.

The lower end plate 300 of the solar wafer cassette 100 according to the present invention has a lower hinge hole 302 formed at a position corresponding to the upper hinge hole 202, and the upper locking groove 203. The lower locking groove 303 is formed at a position corresponding to the lower locking groove 303, the lower mounting groove 301 is formed so that the mounting bar (b) can be inserted into a position corresponding to the upper mounting groove 201.

The lock member 500 according to the present invention includes an upper hinge shaft 530, an upper bridge 520, a lower hinge shaft 550, a lower bridge 540, and a lock bar 510.

The upper hinge shaft 530 is rotatably fitted into the upper hinge hole 202.
At this time, the upper end of the upper hinge shaft 530 is provided with an elastic hook portion 531 that is engaged with the locking step 202a of the upper hinge hole 202. Accordingly, when the hinge shaft 530 is inserted into the upper hinge hole 202, the lower end of the elastic hook portion 531 is caught by the locking jaw 202a to prevent the locking member 500 from sagging downward. This may solve the problem that the lock member 500 is removed from the upper end plate 200.
The elastic hook portion 531 can be pinched and unrolled within the interval range of the elastic groove 531a on the upper portion.

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The upper bridge 520 is integrally formed on the outer surface of the upper hinge shaft 530.

Since the upper bridge 520 is made of a non-metallic material and has elasticity to some extent, the upper elastic portion 521 which is bent in a semi-circular shape may be further formed for further elastic force. Since the upper elastic portion 521 is semicircular to exert an elastic force in the semicircular radial direction, the upper bridge 520 may be bent to deform within the elastic range.

In addition, the upper reinforcing rib 522 may be integrally formed at the upper end of the remaining portion except for the upper elastic part 521 of the upper bridge 520 to strengthen the strength of the upper bridge 520.

3, 4, and 7, the upper reinforcement ribs 522, which are close to the upper hinge shaft 530, are disposed at a portion that is retracted outwardly by a predetermined distance from the upper bridge 520, and the upper reinforcement ribs 522 are disposed. The clearance s is secured inside the rib 522 so that the clearance of the upper mounting groove 201 and the upper reinforcement rib 522 when the lock bar 510 is inserted into the upper locking groove 203. The space s was allowed to communicate with each other.

Accordingly, when the mounting bar (b) is inserted into the upper mounting groove 201, it can be inserted deeper as much as the free space (s), thereby enabling more stable mounting.

The lower hinge shaft 550 is rotatably coupled to the lower hinge hole 302. The lower hinge shaft 550 is different from the upper hinge shaft 530 only in positional difference, and its configuration or use is the same. However, the elastic hook portion 531 must be formed on the upper hinge shaft 530 to prevent the locking member 500 from sagging, but the lower hinge shaft 550 is irrelevant to preventing the locking member 500 from sagging. Therefore, it is not necessary to form the elastic hook portion.

However, when the solar wafer cassette 100 is inverted, it is advantageous to form the elastic hook portion 551 in consideration of a case in which the lower hinge shaft 550 may be reversed to the upper hinge shaft 530. In addition, a locking jaw (not shown) may be formed in the hinge hole 302 of the lower end plate 300 so that the elastic hook portion 551 is caught.

The lower bridge 540 has a positional difference from the upper bridge 520, and its configuration or use is the same. However, for the sake of clarity, the lower bridge 540 has elasticity by itself, and has a larger elastic force by the lower elastic portion 541 which is bent inward in a semicircle. Since the lower elastic portion 541 is semicircular to exert an elastic force in the semicircular radial direction, the lower elastic portion 541 can be deformed to be bent in the elastic range.

In addition, a lower reinforcing rib 542 may be integrally formed at the upper end of the remaining portion except for the lower elastic portion 541 of the lower bridge 540 to reinforce the strength of the lower bridge 540.
3, 4, and 7, the lower reinforcing rib 542 is disposed at a portion close to the lower hinge shaft 550, and is disposed at a portion which is retracted outwardly by a predetermined distance from the lower bridge 540, and the lower reinforcing rib 542 is disposed. The clearance s is secured inside the rib 542 so that the clearance of the lower mounting groove 301 and the lower reinforcement rib 542 when the lock bar 510 is inserted into the lower locking groove 303. The space s was allowed to communicate with each other.
Accordingly, when the mounting bar (b) is inserted into the lower mounting groove 301, it can be inserted deeper as much as the free space (s), thereby enabling more stable mounting.

The lock bar 510 has an upper portion integrally connected to the upper bridge 520, and a lower portion integrally connected to the lower bridge 540.
In addition, the top and bottom ends of the lock bar 510 serve to block the fourth side w4 of the solar wafer w as the upper locking groove 203 and the lower locking groove 303 are respectively inserted.
In addition, the lock bar 510 is provided with a plurality of support protrusions 511 for supporting the solar wafers (w) spaced apart from each other, on the surface facing the solar wafer (w) of the outer peripheral surface. In this case, the support protrusion 511 has a phase difference of 90 ° with respect to the upper and lower bridges 520 and 540.
In addition, upper and lower lock pins 512 and 513 having a smaller diameter than other portions may be formed at the upper and lower ends of the lock bar 510.

The scope of the present invention is not limited to the above-described embodiment but may be implemented in various forms of embodiment within the appended claims. Without departing from the gist of the invention claimed in the claims, it is intended that any person skilled in the art to which the present invention pertains falls within the scope of the claims described herein to various extents which can be modified.

100: solar wafer cassette 200: upper end plate
201: upper mounting groove 202: upper hinge hole
202a: engaging jaw 300: lower end plate
301: lower mounting groove 302: lower hinge ball
400: support bar 500: lock member
510: lock bar 511: support protrusion
512: upper locking pin 513: lower locking pin
520: upper bridge 521: upper elastic portion
522: upper reinforcing rib 530: upper hinge shaft
531: elastic hook portion 531a: elastic groove
540: lower bridge 541: lower elastic portion
542: lower reinforcing rib 550: lower hinge shaft
551: elastic hook portion

Claims (4)

Upper and lower end plates 200 and 300 disposed to face up and down at a predetermined interval; A pair of first support bars disposed to connect the upper and lower end plates 200 and 300, and supporting the first side w1 of the rectangular solar wafer w accommodated between the two end plates 200 and 300. 410, a pair of second support bars 420 supporting the second side w2 facing the first side w1, and between the first side w1 and the second side w2. A support bar 400 made up of a pair of third support bars 430 supporting a third side w3, which is one of the two sides w3 and w4 positioned; A solar member which is rotatably installed at one edge of the two end plates 200 and 300 to selectively block a fourth side w4 facing the third side w3 of the solar wafer w; As a wafer cassette,

An upper hinge hole 202 is formed at one side edge corresponding to the fourth side w4 of the upper end plate 200, and a locking step 202 a is formed inside the upper hinge hole 202. The upper locking groove 203 is formed on one side spaced apart from the upper hinge hole 202 by a predetermined distance, and the mounting bar b is selectively disposed between the upper hinge hole 202 and the upper locking groove 203. The upper mounting groove 201 is formed is inserted,
A lower hinge hole 302 is formed at a position corresponding to the upper hinge hole 202 of the lower end plate 300, and a lower locking groove 303 is formed at a position corresponding to the upper locking groove 203. And a lower mounting groove 301 in which a mounting bar b is selectively inserted in a position corresponding to the upper mounting groove 201;

The lock member 500,
An upper hinge shaft 530 rotatably fitted in the upper hinge hole 202 and provided with an elastic hook portion 531 at an upper end thereof to be engaged with the locking jaw 202a;
An upper bridge 520 integrally formed on an outer surface of the upper hinge shaft 530;
A lower hinge shaft 550 rotatably fitted into the lower hinge hole 302;
A lower bridge 540 integrally formed on an outer surface of the lower hinge shaft 550;
The upper part is integrally connected to the upper bridge 520, the lower part is integrally connected to the lower bridge 540, and the upper and lower ends are inserted into the upper locking groove 203 and the lower locking groove 303. A plurality of support protrusions 511 serve to block the fourth side w4 of the solar wafer w and are spaced apart from each other on the surface facing the solar wafer w on the outer circumferential surface of the solar wafer w. Further comprises a lock bar (510) formed to have a phase difference of 90 degrees with respect to the upper and lower bridges (520,540);

On the upper and lower bridges (520,540), the upper and lower bridges (520,540) further includes an upper elastic portion (521) and a lower elastic portion (541) each bent inward in a semicircular shape so as to have elasticity;

Upper reinforcing ribs 522 and lower reinforcing ribs 542 are formed at each upper end of the upper bridge 520 and the lower bridge 540, respectively, and portions of the upper and lower reinforcing ribs 522 and 542 are upper bridges 520. ) And a space retracted outwardly from the lower bridge 540 by a predetermined distance, so that a free space s is secured inside each of the upper reinforcing rib 522 and the lower reinforcing rib 542.
When the lock bar 510 is inserted into the upper and lower locking grooves 203 and 303, the free spaces s of the upper and lower mounting grooves 201 and 301 and the upper and lower reinforcing ribs 522 and 542 communicate with each other. Solar wafer cassette further comprising. delete delete delete

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