SunZilla - Guide 2: Inverter and battery boxes : Différence entre versions

(set pageLanguageSource property)
Ligne 1 : Ligne 1 :
 
{{ {{tntn|Tuto Details}}
 
{{ {{tntn|Tuto Details}}
|SourceLanguage=none
+
|Main_Picture=SunZilla G2 Final.jpg
|Language=en
+
|Licences=Attribution (CC BY)
|IsTranslation=0
+
|Description=<translate>This is the second tutorial for building the Pop-up Solar Generator: SunZilla 3.0. Here we are going to build the inverter and battery box</translate>
 +
|Area=Energy
 
|Type=Creation
 
|Type=Creation
|Area=Energy
 
|Description=<translate>This is the second tutorial for building the Pop-up Solar Generator: SunZilla 3.0. Here we are going to build the inverter and battery box</translate>
 
 
|Difficulty=Medium
 
|Difficulty=Medium
 +
|Duration=3
 +
|Duration-type=hour(s)
 
|Cost=100
 
|Cost=100
 
|Currency=EUR (€)
 
|Currency=EUR (€)
|Duration=3
+
|SourceLanguage=none
|Duration-type=hour(s)
+
|Language=en
|Licences=Attribution (CC BY)
+
|IsTranslation=0
|Main_Picture=SunZilla G2 Final.jpg
+
}}
 +
{{ {{tntn|Introduction}}
 +
|Introduction=<translate></translate>
 
}}
 
}}
{{ {{tntn|Introduction}}|}}
 
{{Separator}}
 
 
{{ {{tntn|Materials}}
 
{{ {{tntn|Materials}}
|Step_Picture_00=No-image-yet.jpg
+
|Material=<translate></translate>
|Step_Picture_01=No-image-yet.jpg
+
|Tools=<translate></translate>
|Step_Picture_02=No-image-yet.jpg
 
|Step_Picture_03=No-image-yet.jpg
 
|Step_Picture_04=No-image-yet.jpg
 
|Step_Picture_05=No-image-yet.jpg
 
 
}}
 
}}
{{Separator}}
+
{{ {{tntn|Separator}}}}
 
{{ {{tntn|Tuto Step}}
 
{{ {{tntn|Tuto Step}}
 
|Step_Title=<translate>Inverter Box (1/8 pallet Euro norm box)</translate>
 
|Step_Title=<translate>Inverter Box (1/8 pallet Euro norm box)</translate>
|Step_Content=To make sure that the inverter can't move around inside the inverter boxes, an inner mounting structure is required. The inverter attaches to the mounting structure, fixing it in place. The mounting structure is fabricated using laser cut wood structures. The .DXF source files for the laser cutting can be downloaded below.
+
|Step_Content=<translate>To make sure that the inverter can't move around inside the inverter boxes, an inner mounting structure is required. The inverter attaches to the mounting structure, fixing it in place. The mounting structure is fabricated using laser cut wood structures. The .DXF source files for the laser cutting can be downloaded below.
  
 
When using the files with the laser cutter, refer to the laser cutter tutorial.
 
When using the files with the laser cutter, refer to the laser cutter tutorial.
Ligne 37 : Ligne 34 :
 
{{Pin|We have used the Victron Phoenix-Inverter-350 with a spec of 350 VA, 24 V and dimensions of 72mm (H) x155mm (W) x237mm (D). If you use a different inverter, it will probably have a different form factor, and you will likely have to adjust the .DXF files accordingly.}}
 
{{Pin|We have used the Victron Phoenix-Inverter-350 with a spec of 350 VA, 24 V and dimensions of 72mm (H) x155mm (W) x237mm (D). If you use a different inverter, it will probably have a different form factor, and you will likely have to adjust the .DXF files accordingly.}}
  
{{Idea|If you don't have access or prefer not to use a laser cutter, the inner structures can also be built by hand using normal wood crafting techniques with a jigsaw and wood drills. Therefore, the .PDF technical drawings of the structures can also be downloaded below.}}
+
{{Idea|If you don't have access or prefer not to use a laser cutter, the inner structures can also be built by hand using normal wood crafting techniques with a jigsaw and wood drills. Therefore, the .PDF technical drawings of the structures can also be downloaded below.}}</translate>
 
|Step_Picture_00=SunZilla_Step_08_01.jpg
 
|Step_Picture_00=SunZilla_Step_08_01.jpg
 
|Step_Picture_01=SunZilla_Step_08_02.jpg
 
|Step_Picture_01=SunZilla_Step_08_02.jpg
|Step_Picture_02=No-image-yet.jpg
 
|Step_Picture_03=No-image-yet.jpg
 
|Step_Picture_04=No-image-yet.jpg
 
|Step_Picture_05=No-image-yet.jpg
 
 
}}
 
}}
 
{{ {{tntn|Tuto Step}}
 
{{ {{tntn|Tuto Step}}
 +
|Step_Title=<translate></translate>
 +
|Step_Content=<translate></translate>
 
|Step_Picture_00=SunZilla_Step_08_04.jpg
 
|Step_Picture_00=SunZilla_Step_08_04.jpg
 
|Step_Picture_01=SunZilla_Step_08_03.jpg
 
|Step_Picture_01=SunZilla_Step_08_03.jpg
Ligne 51 : Ligne 46 :
 
|Step_Picture_03=SunZilla_Step_08_06.jpg
 
|Step_Picture_03=SunZilla_Step_08_06.jpg
 
|Step_Picture_04=SunZilla_Step_08_07.jpg
 
|Step_Picture_04=SunZilla_Step_08_07.jpg
|Step_Picture_05=No-image-yet.jpg
 
 
}}
 
}}
 
{{ {{tntn|Tuto Step}}
 
{{ {{tntn|Tuto Step}}
 
|Step_Title=<translate>Battery Box (1/8 pallet Euro norm box)</translate>
 
|Step_Title=<translate>Battery Box (1/8 pallet Euro norm box)</translate>
|Step_Content=To make sure that the battery can´t move around inside the battery boxes, an inner mounting structure is required. The batteries are held in place by the mounting structure, and no physical attachment is required. As with the inverter box, the battery box mounting structure is fabricated using laser cut wood structures. The .DXF source files for the laser cutting can be downloaded below.
+
|Step_Content=<translate>To make sure that the battery can´t move around inside the battery boxes, an inner mounting structure is required. The batteries are held in place by the mounting structure, and no physical attachment is required. As with the inverter box, the battery box mounting structure is fabricated using laser cut wood structures. The .DXF source files for the laser cutting can be downloaded below.
  
 
When using the files with the laser cutter, refer to the laser cutter tutorial.
 
When using the files with the laser cutter, refer to the laser cutter tutorial.
Ligne 65 : Ligne 59 :
 
{{Pin|We have used Yuasa NP 38-12B batteries with a spec of 12 V, 38,5 Ah, and individual dimensions of 170mm (H) x 197mm (L) x 165mm (W). If you use different batteries, it will probably have a different form factor, and you will likely have to adjust the .DXF files accordingly.}}
 
{{Pin|We have used Yuasa NP 38-12B batteries with a spec of 12 V, 38,5 Ah, and individual dimensions of 170mm (H) x 197mm (L) x 165mm (W). If you use different batteries, it will probably have a different form factor, and you will likely have to adjust the .DXF files accordingly.}}
  
{{Idea|If you don't have access or prefer not to use a laser cutter, the inner structure can also be built by hand using normal wood crafting techniques with a jigsaw and wood drills. Therefore, the .PDF technical drawings of the structures can also be downloaded below.}}
+
{{Idea|If you don't have access or prefer not to use a laser cutter, the inner structure can also be built by hand using normal wood crafting techniques with a jigsaw and wood drills. Therefore, the .PDF technical drawings of the structures can also be downloaded below.}}</translate>
 
|Step_Picture_00=SunZilla_Step_09_01.jpg
 
|Step_Picture_00=SunZilla_Step_09_01.jpg
 
|Step_Picture_01=SunZilla_Step_09_02.jpg
 
|Step_Picture_01=SunZilla_Step_09_02.jpg
|Step_Picture_02=No-image-yet.jpg
 
|Step_Picture_03=No-image-yet.jpg
 
|Step_Picture_04=No-image-yet.jpg
 
|Step_Picture_05=No-image-yet.jpg
 
 
}}
 
}}
 
{{ {{tntn|Tuto Step}}
 
{{ {{tntn|Tuto Step}}
 +
|Step_Title=<translate></translate>
 +
|Step_Content=<translate></translate>
 
|Step_Picture_00=SunZilla_Step_09_05.jpg
 
|Step_Picture_00=SunZilla_Step_09_05.jpg
 
|Step_Picture_01=SunZilla_Step_09_03.jpg
 
|Step_Picture_01=SunZilla_Step_09_03.jpg
 
|Step_Picture_02=SunZilla_Step_09_04.jpg
 
|Step_Picture_02=SunZilla_Step_09_04.jpg
|Step_Picture_03=No-image-yet.jpg
 
|Step_Picture_04=No-image-yet.jpg
 
|Step_Picture_05=No-image-yet.jpg
 
 
}}
 
}}
{{ {{tntn|Notes}}|}}
+
{{ {{tntn|Notes}}
 +
|Notes=<translate></translate>
 +
}}
 +
{{ {{tntn|Tuto Status}}
 +
|Complete=Published
 +
}}
 +
{{Separator}}

Version du 27 juin 2018 à 16:10

This is the second tutorial for building the Pop-up Solar Generator: SunZilla 3.0. Here we are going to build the inverter and battery box

Auteur avatarSunZilla | Dernière modification 9/12/2019 par Clementflipo

SunZilla G2 Final.jpg
Difficulté
Moyen
Durée
3 heure(s)
Catégories
Énergie
Coût
100 EUR (€)
This is the second tutorial for building the Pop-up Solar Generator: SunZilla 3.0. Here we are going to build the inverter and battery box
Difficulté
Moyen
Durée
3 heure(s)
Catégories
Énergie
Coût
100 EUR (€)
Autres langues :
English
Licence : Attribution (CC BY)

Matériaux

Outils

Étape 1 - Inverter Box (1/8 pallet Euro norm box)

To make sure that the inverter can't move around inside the inverter boxes, an inner mounting structure is required. The inverter attaches to the mounting structure, fixing it in place. The mounting structure is fabricated using laser cut wood structures. The .DXF source files for the laser cutting can be downloaded below.

When using the files with the laser cutter, refer to the laser cutter tutorial.

The inverter and its mounting structure fit inside one of the 1/8 EURO norm boxes, which have external dimensions of 230mm (H) x 400mm (L) x 300mm (W), and usable internal dimensions of 208mm (H) x 370mm (L) x 270mm (W).

One piece of plywood measuring 800mm (L) x 600mm (W) x 10mm (th) is sufficient to laser cut parts for both the inverter and battery boxes' internal structures (see next step).

We have used the Victron Phoenix-Inverter-350 with a spec of 350 VA, 24 V and dimensions of 72mm (H) x155mm (W) x237mm (D). If you use a different inverter, it will probably have a different form factor, and you will likely have to adjust the .DXF files accordingly.
If you don't have access or prefer not to use a laser cutter, the inner structures can also be built by hand using normal wood crafting techniques with a jigsaw and wood drills. Therefore, the .PDF technical drawings of the structures can also be downloaded below.
SunZilla Step 08 01.jpg
SunZilla Step 08 02.jpg



Étape 2 -

SunZilla Step 08 04.jpg
SunZilla Step 08 03.jpg
SunZilla Step 08 05.jpg
SunZilla Step 08 06.jpg
SunZilla Step 08 07.jpg

Étape 3 - Battery Box (1/8 pallet Euro norm box)

To make sure that the battery can´t move around inside the battery boxes, an inner mounting structure is required. The batteries are held in place by the mounting structure, and no physical attachment is required. As with the inverter box, the battery box mounting structure is fabricated using laser cut wood structures. The .DXF source files for the laser cutting can be downloaded below.

When using the files with the laser cutter, refer to the laser cutter tutorial.

The batteries and their mounting structure fit inside one of the 1/8 EURO norm boxes, which have external dimensions of 230mm (H) x 400mm (L) x 300mm (W), and usable internal dimensions of 208mm (H) x 370mm (L) x 270mm (W).

As mentioned in the previous step, one piece of plywood measuring 800mm (L) x 600mm (W) x 10mm (th) is sufficient to laser cut parts for both the inverter and battery boxes' internal structures.

We have used Yuasa NP 38-12B batteries with a spec of 12 V, 38,5 Ah, and individual dimensions of 170mm (H) x 197mm (L) x 165mm (W). If you use different batteries, it will probably have a different form factor, and you will likely have to adjust the .DXF files accordingly.
If you don't have access or prefer not to use a laser cutter, the inner structure can also be built by hand using normal wood crafting techniques with a jigsaw and wood drills. Therefore, the .PDF technical drawings of the structures can also be downloaded below.
SunZilla Step 09 01.jpg
SunZilla Step 09 02.jpg



Étape 4 -

SunZilla Step 09 05.jpg
SunZilla Step 09 03.jpg
SunZilla Step 09 04.jpg


Commentaires

Published

Récupérée de « https://wikifab.org/w/index.php?title=SunZilla_-_Guide_2:_Inverter_and_battery_boxes&oldid=43483 »
© 2017 - 2024 Dokit, SAS.