KR101035552B1 - Solar wafer cassette - Google Patents

Abstract

PURPOSE: A solar wafer cassette is provided to prevent the generation of foreign materials by smoothing the outer surface of an end plate when the outer surface of the end plate rubs against a support. CONSTITUTION: A first end plate(110) faces a second end plate with a preset gap. An assembly slot(111) for assembling each support bar(130) is formed on the inner surface of the first end plate. An assembly block(140), formed on one end of the support bar, is inserted into the assembly slot. An input and output opening(111a) and a guide opening(111b) are formed on the outer and inner sides of the assembly slot. A protrusion(111c) is formed on the inner edge of the guide opening.

Description

Solar wafer cassette

The present invention relates to the field of solar wafer cassettes.

In detail, the structure of removing the edge portion by the fastening hole, the tool insertion groove, etc. that existed on the outer surface of the end plate prevents a phenomenon in which foreign substances are generated while the upper surface of the pedestal is cut by the edge portion of the end plate. It is related to a solar wafer cassette.

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

1 is a perspective view showing the configuration of a conventional solar wafer cassette.

Referring to FIG. 1, the conventional solar wafer cassette 1 includes a pair of end plates 3 disposed to face each other at a predetermined interval, and the pair of end plates 3 are provided. A plurality of support bars 5 are arranged horizontally between end portions thereof, which are assembled to the end plate 3 to support side and bottom surfaces of the solar wafer w.

3 and 4 are cross-sectional views taken along line II of FIG. 2, in particular, FIG. 3 is a cross-sectional view before assembling, and FIG. 4 is a cross-sectional view after assembling.

3 and 4, in the conventional solar wafer cassette for the assembly of the end plate 3 and the support bar 5, the end plate 3 is formed with a stepped fastening hole 30, and the support Both ends of the bar (5) is composed of a tanned bolt 50, and the fastening cap 6 is fastened to the tanned bolt 50 is configured.

According to this configuration, the tanning bolt 50 of the support bar 5 is inserted from the inside of the end plate 3 toward the fastening hole 30, and the outside of the end plate 3 ( When the fastening cap 6 is inserted into the fastening hole 30 from the out), the tanned bolt 50 and the fastening cap 6 are assembled by screwing each other to have a shape as shown in FIG. 3.

However, such a conventional assembly structure is a fastening positioned at the bottom of the solar wafer cassette 1 when the solar wafer cassette 1 is moved along the pedestal (a) which supports it in an upright state as shown in FIG. As the surface of the pedestal a was swept away by the tool insertion groove 6a of the cap 6 and each edge portion e of the fastening hole 30, there was a problem in that foreign matter was generated.

The present invention has been made to solve the conventional problems as described above, the main object of the present invention, by smoothly improving the outer surface by removing the fastening hole and the tool insertion groove that existed on the outer surface of the end plate. In addition, the present invention provides a solar wafer cassette capable of solving a problem in which foreign matter occurs even when the outer surface and the base are rubbed.

In addition, another object of the present invention is to provide a solar wafer cassette which improves the coupling structure between the end plate and the support bar in parallel with the smooth improvement of the outer surface of the end plate.

In one aspect, the solar wafer cassette according to the present invention, the first end, the second end plate, the first end and the second end plate, which are arranged to face at a predetermined interval between the first and second end plate is fixedly installed A solar wafer cassette comprising a plurality of support bars supporting side and bottom surfaces of a plurality of solar wafers to be accommodated, the assembly slots for assembling the respective support bars on an inner surface of at least one of the first and second end plates. Is formed, the entrance and exit openings and guide openings are formed on the outside and the inside of the assembly slot, respectively, the engaging jaw is formed on the inner edge of the guide opening, the end of the entry slot corresponding to the assembly slot of each support bar Stepped assembly block is inserted into the assembly slot through the opening.

In addition, in the solar wafer cassette according to the present invention, a semi-circular first pinhole is formed at at least one end of the upper and lower ends of the entry and exit side of the locking jaw, and the first and second pinholes of the assembly block face the first pinhole. A semicircular second pinhole is formed to be symmetrical with the first pinhole, and a hook-type fixing pin is press-fitted into the first and second pinholes so that the assembly block is fixed to the assembly slot.

In addition, the support bar of the solar wafer cassette according to the present invention is composed of a core material and a surface covering the surface of the core material, at least one end of the core material is formed in the shaft diameter portion smaller than the other parts, the assembly The block has a shaft hole into which the shaft diameter portion of the core is inserted, and a first protrusion and a second protrusion are formed at inner and outer ends of the surface, respectively, between the first protrusion and the second protrusion. A recess corresponding to the locking jaw is formed, and the first protrusion is covered by the surface material.

In another aspect, the solar wafer cassette according to the present invention, the first end, the second end plate, the first end and the second end plate, which are disposed to face at a predetermined interval between the first and second end plate is fixedly installed between A solar wafer cassette comprising a plurality of support bars supporting side and bottom surfaces of a plurality of solar wafers to be accommodated, wherein the assembly slots for assembling the respective support bars on an inner surface of at least one of the first and second end plates. Is formed, the entrance and exit opening and guide opening is formed on the outside and inside of the assembly slot, respectively, the end of the guide opening is formed with a locking jaw, the end corresponding to the assembly slot of each of the supporting bar the assembly slot It has a short length compared to the stepped assembly block is provided into the assembly slot through the entry and exit opening, A stepped closing block is inserted into the entry and exit opening to close the entry and exit opening.

According to another aspect, in the solar wafer cassette, a semi-circular first pinhole is formed at at least one end of an upper and lower end of an entrance opening side of the locking jaw, and the first pinhole is formed at an end facing the first pinhole of the closing block. A semi-circular second pinhole is formed to be symmetrical with a hook-type fixing pin is pressed into the first and second pinholes so that the closing block is fixed to the assembly slot.

According to another aspect, the support bar of the solar wafer cassette is composed of a core material and a surface covering the surface of the core material, wherein at least one end of the core material is formed with a shaft diameter smaller in diameter than other parts, and the assembly block is And a shaft hole into which the shaft diameter portion of the core is inserted in a central portion thereof, and a first protrusion and a second protrusion are respectively formed at inner and outer ends of the surface, and the locking portion is disposed between the first protrusion and the second protrusion. A recess corresponding to the jaw is formed, and the first protrusion is covered by the surface material.

According to the present invention, as the outer surface of the end plate is smoothly improved, no foreign matter is generated even if the outer surface and the pedestal are rubbed.

In addition, the present invention, there is no loosening phenomenon of the fastening cap by removing the fastening cap of the screw fastening method that was an existing component, and furthermore, as the fastening cap loosening phenomenon is eliminated, it is possible to strengthen the coupling force between the end plate and the support bar.

In addition, the present invention, the assembling structure of the end plate and the support bar is simple, it is possible to reduce the assembly labor and dismantling labor.

1 is a perspective view of an example of a conventional solar wafer cassette.
2 is a perspective view when moving the conventional solar wafer cassette.
3 is a cross-sectional view taken along line II of FIG. 2, in particular, a cross-sectional view before assembling the support bar and the end plate.
4 is a cross-sectional view after assembly of FIG. 2.
5 is a perspective view of main parts of a solar wafer cassette according to the present invention;
6 is a view showing the integration process of the support bar and the assembly block in the solar wafer cassette according to the present invention.
7 is a configuration diagram of a horizontal wafer assembly block in the solar wafer cassette according to the present invention.
FIG. 8A is a cross-sectional view taken along the line II-II of FIG. 5, showing a state before assembly of the support bar and the closing block for the end plate.
FIG. 8B is a cross-sectional view taken along the line II-II of FIG. 5, in which a support bar is assembled to the end plate.
8C is a cross-sectional view taken along the line II-II of FIG. 5, in which a supporting bar and a closing block are assembled to the end plate.
9 is a perspective view showing another embodiment of a solar wafer cassette according to the present invention.

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. In this specification, 'and / or' is used to include at least one of the components listed before and after. "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.

5 is a perspective view of a solar wafer cassette according to the present invention, in which the assembly structure of the present invention is applied to only one side.

Referring to FIG. 5, the solar wafer cassette 100 of the present invention includes first and second end plates 110 and 120 (second end plate is shown in FIG. 9) in the form of a square panel facing each other at a predetermined interval. It is composed of a plurality of (6) support bars 130 for supporting the side and bottom of a plurality of solar wafers (not shown) that are received between the first and second end plates (110, 120). This configuration is the same as before.

The present invention based on this configuration has smoothly improved the outer surface of at least one of the first and second end plates 110 and 120 described above, and the end plate and the support bar 130 in accordance with the improved shape of the end plate. The joint structure of the liver was also improved in parallel.

This is described in detail below.

First, as shown in Figure 5, the assembly slot for assembling the respective support bar 130 on the inner surface of any end plate (referred to as "first end plate" for convenience) of the first and second end plate (110,120). 111 is configured, the assembly slot 111 is configured to be inserted into the assembly block 140 provided at one end of the support bar 130.

Since the total of the support bar 130 in the present invention is six, the number of the assembly slot 111 should also be composed of a total of six. The arrangement positions of the assembly slots 111 are disposed at each of the two end portions of the first end plate 110, respectively, and two are arranged at the bottom thereof to constitute a total of six.

In addition, the assembling slot 111 is provided with an opening and closing opening 111a and a guide opening 111b on the outer side (the edge direction of the end plate) and the inner side (the inner surface direction of the end plate). When the assembly block 140 enters and exits the assembly block 140 through the entrance and exit opening 111a, and the assembly block 140 enters and exits through the assembly slot 111 as the guide opening 111b, You are guided.

In addition, a locking step 111c is formed at an inner edge of the guide opening 111b (an edge located in the inner surface direction of the end plate). The locking step 111c prevents the assembly block 140 introduced into the assembly slot 111 from being separated into the first end plate 110.

The assembly block 140 may be integrally installed at any one end (one end) of the support bar 130 as shown in FIG.

The assembly block 140 may have a structure of the support bar 130 and the assembly block 140 to be integrally installed on the support bar 130 as follows.

That is, as shown in Figure 6, the support bar 130 is composed of a core material 131, and a surface material 132 to cover the surface of the core material 131, at least one end of the core material 131 is another part The shaft diameter portion 131a having a smaller diameter is formed.

The assembly block 140 has a shaft hole 141 is bored so that the shaft diameter portion 131a of the core material 131 can be inserted into the central portion thereof. In addition, a first protrusion 142 is formed at an inner end of the surface, a second protrusion 143 is formed at an outer end of the surface, and the assembly is formed between the first protrusion 142 and the second protrusion 143. A recess 144 corresponding to the locking step 111c of the slot 111 is formed.

In this case, the first protrusion 142 is coated by the top surface 132 and coated when the top surface 132 is injected. Thus, the assembly block 140 is integrated with the support bar 130.

On the other hand, the assembly block 140 may be forcibly fitted into the assembly slot 111, but for more stable assembling, in the case of a horizontal type (橫 長 型) as shown in Figure 7, the opening and closing opening of the locking step (111c) A semicircular first pinhole 111d is formed at at least one end of the upper or lower side of the side, and is symmetrical with the first pinhole 111d at an end portion facing the first pinhole 111d of the assembly block 140. The semicircular second pinhole 145 is formed, and the assembly type block 140 is formed by pressing the hook-type fixing pin 150 into the circular pinholes formed by the first and second pinholes 111d and 145. It was to be firmly fixed to this assembly slot (111).

On the other hand, when the assembly block 140 is a transverse (橫 短 型) as shown in Figure 5 may be additionally installed a closing block (160). That is, as shown in Figures 8a to 8c, the transverse length of the cross-type assembly block 140 is shorter than the length of the assembly slot 111, so that an empty space occurs to the entrance and exit opening side of the assembly slot 111, By inserting the closing block 160 in this space it can be prevented that the assembly block 111 is separated from the entrance and exit opening (111a).

In this case, the closing block 160 may be forcibly fitted into the assembly slot 111, but as shown in FIG. 5 for more stable assembly, the upper or lower end of the entrance / exit opening 111a side of the locking step 111c. A semicircular second semicircular shape formed at least at one end and having a semicircular first pinhole 111d and symmetrical with the first pinhole 111d at an end portion facing the first pinhole 111d of the closing block 160. By forming the pinhole 161, the assembly block 140 is assembled into the assembly slot 140 by pressing the hook-type fixing pin 150 into the circular pinhole by the first and second pinholes 111d and 161. 111) can be securely fixed.

Hereinafter, the coupling process of the end plate and the support bar will be described with reference to FIGS. 8A to 8C.

First, as shown in FIG. 8A, the support bar 130 and the closing block 160 for assembling to the first end plate 110 are prepared.

Next, as shown in Figure 8b, the assembly block 140 installed at the end of the support bar 130 through the entrance and exit opening 111b of the assembly slot 111 formed in the first end plate 110 to the end along the longitudinal direction Put it in.

Next, as shown in FIG. 8C, the closing block 160 is inserted into the rear of the already assembled assembly block 111, that is, the entrance / exit opening 111b side of the assembly slot 111. Then, the first pinhole 111d formed in the assembly slot 111 and the second pinhole 161 formed in the closing block 160 are combined to provide a circular pinhole.

Next, as shown in FIG. 8C, when the hook-type fixing pin 150 is press-fitted into the circular pinhole provided by the first pinhole 111d and the second pinhole 161, the assembly is completed.

9 is a perspective view showing another embodiment of a solar wafer cassette according to the present invention.

Unlike in FIG. 5, the solar wafer cassette 100 of FIG. 9 smoothly improves the outer surfaces of both the first and second end plates 110 and 120, and fits each end to the improved shape of the first and second end plates 110 and 120. The coupling structure between the plates 110 and 120 and the support bar 130 is also improved in parallel. The coupling structure and the coupling process between the end plates 110 and 120 and the support bar 130 are the same as in FIG.

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 110: first end plate
111: assembly slot 111a: entrance and exit opening
111b: guide opening 111c: locking jaw
111d: first pinhole 120: second end plate
130: support bar 131: heartwood
131a: shaft diameter 132: surface
140: assembly block 141: shaft hole
142: first protrusion 143: second protrusion
144: recess 145: second pin hole
150: fixed pin 160: closed block
161: second pinhole

Claims (6)

Both ends of the first and second end plates disposed to face each other at a predetermined interval are fixedly installed to support side and bottom surfaces of the plurality of solar wafers stored between the first and second end plates. As a solar wafer cassette consisting of a plurality of support bars,
An assembly slot 111 is formed on the inner surface of at least one end plate of the first and second end plates 110 and 120 to assemble the respective support bars 130, and on the outside and the inside of the assembly slot 111. Entrance and exit openings (111a) and guide openings (111b) are formed, respectively, the locking step (111c) is formed on the inner edge of the guide opening (111b),
End portions corresponding to the assembly slots 111 of each of the support bars 130, characterized in that the stepped assembly block 140 is inserted into the assembly slot 111 through the entry and exit opening (111a) is characterized in that it is provided Solar Wafer Cassette.
The method of claim 1,
A semi-circular first pinhole 111d is formed at at least one end of the upper and lower ends of the entry and exit opening 111a of the locking step 111c,
A semicircular second pinhole 145 symmetrical with the first pinhole 111d is formed at an end portion of the assembly block 140 that faces the first pinhole 111d.
The solar wafer cassette, characterized in that the hook-type fixing pin 150 is pressed into the first and second pinholes 111d and 145 so that the assembly block 140 is fixed to the assembly slot 111.
The method of claim 1,
The support bar 130 is composed of a core material 131 and a surface material 132 to cover the surface of the core material 131, at least one end of the core material 131, the shaft diameter portion is smaller than other parts 131a is formed,
The assembly block 140 has a shaft hole 141 through which the shaft diameter portion 131a of the core member 131 is inserted into a central portion thereof, and a first protrusion 142 and a first protrusion portion 142 formed at the inner and outer ends of the surface. 2 protrusions 143 are formed, respectively, between the first protrusion 142 and the second protrusion 143, the locking projection 111c and the corresponding recess 144 is formed, the first protrusion ( 142 is a solar wafer cassette, characterized in that the cover by the cover (132).
Both ends of the first and second end plates disposed to face each other at a predetermined interval are fixedly installed to support side and bottom surfaces of the plurality of solar wafers stored between the first and second end plates. As a solar wafer cassette consisting of a plurality of support bars,
Assembly slots 111 for assembling the respective support bars 130 are formed on an inner surface of at least one end plate of the first and second end plates 110 and 120, respectively, on the outside and the inside of the assembly slot 111. Entrance and exit openings (111a) and guide openings (111b) are formed, respectively, the locking jaw (111c) is formed at the end of the guide opening (111b),
An end portion corresponding to the assembly slot 111 of each of the support bars 130 has a shorter length than that of the assembly slot 111 and is stepped into the assembly slot 111 through the entrance and exit opening 111a. Assembly block 140 is provided,
Solar wafer cassette, characterized in that the stepped closing block 160 is inserted into the entry and exit opening (111a) side to close the entry and exit opening (111a).
The method of claim 4, wherein
A semi-circular first pinhole 111d is formed at at least one end of the upper and lower ends of the entry and exit opening 111a of the locking step 111c,
A semi-circular second pinhole 161 symmetrical with the first pinhole 111d is formed at an end of the closing block 160 facing the first pinhole 111d.
The solar wafer cassette, characterized in that the hook-type fixing pin 150 is pressed into the first and second pin holes 111d and 161 so that the closing block 160 is fixed to the assembly slot 111.
The method of claim 4, wherein
The support bar 130 is composed of a core material 131 and a surface material 132 to cover the surface of the core material 131, at least one end of the core material 131, the shaft diameter portion is smaller than other parts 131a is formed,
The assembly block 140 has a shaft hole 141 through which the shaft diameter portion 131a of the core member 131 is inserted into a central portion thereof, and a first protrusion 142 and a first protrusion portion 142 formed at the inner and outer ends of the surface. 2 protrusions 143 are formed, respectively, between the first protrusion 142 and the second protrusion 143, the locking projection 111c and the corresponding recess 144 is formed, the first protrusion ( 142 is a solar wafer cassette, characterized in that the cover by the cover (132).

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