Modification of La Spaziale S1 (Mini) Vivaldi II with timer, web interface, manual dose, power meter and printserver with airprint: Unterschied zwischen den Versionen

Aus KaffeeWiki - die Wissensdatenbank rund um Espresso, Espressomaschinen und Kaffee
Zur Navigation springen Zur Suche springen
 
(8 dazwischenliegende Versionen von 2 Benutzern werden nicht angezeigt)
Zeile 30: Zeile 30:
 
The material costs are about 65,- US$.
 
The material costs are about 65,- US$.
  
 +
[[Datei:Vivaldi 2.JPG]]
  
 
== '''Functions''' ==
 
== '''Functions''' ==
Zeile 108: Zeile 109:
 
The software is available here (2-3GB): [http://usel.net/myTimer/ Download]
 
The software is available here (2-3GB): [http://usel.net/myTimer/ Download]
  
Currently a password will be needed to unpack.
+
The password for the image is: only4Testing
  
The password will be sent via PM after downloading.
+
<br />
 
For this I need the user from KaffeNetz or from S1Cafe. In both of these forums I will support myTimer.
 
For this I need the user from KaffeNetz or from S1Cafe. In both of these forums I will support myTimer.
 
To other mail address I will not send messages.
 
To other mail address I will not send messages.
Zeile 120: Zeile 121:
 
Here is an example of the surface through the browser of an iPhone:
 
Here is an example of the surface through the browser of an iPhone:
  
[[File: VivaldiMyTimer_iphone.png]]
+
[[Datei: VivaldyMytimer_Iphone.png]]
 
 
  
 
== '''Installation''' ==
 
== '''Installation''' ==
  
In my Vivaldi I mounted the Raspberry inside the machine. For temperature reasons i can only recommend this of the boilers are isolated. For uninsulated kettles I recommend to put back to the Vivaldi the Raspberry. But if the machine is open anyway, an insulation with Armaflex is done but also fast.
+
In my Vivaldi I mounted the Raspberry inside the machine. For temperature reasons i can only recommend this if the boilers are isolated. For unisolated kettles I recommend to put the Raspberry onto the back of the Vivaldi. But if the machine is open anyway, an isolation with Armaflex is done also fast.
  
 
'''1.''' First, the machine must be opened:
 
'''1.''' First, the machine must be opened:
Zeile 132: Zeile 132:
  
  
'''2.''' Connect the cable from the control unit to control electronics should be made ​​clear so that the control electronics can be pulled to the rear:
+
'''2.''' Connect cable from the control panel to control electronics should be made free, so that the control electronics can be pulled to the rear:
  
 
[[File: VivaldiMyTimer_Offen2.jpg]]
 
[[File: VivaldiMyTimer_Offen2.jpg]]
Zeile 139: Zeile 139:
  
  
'''3.''' The plugs should be labeled so that they too will find the right place on the control electronics.
+
'''3.''' The plugs should be labeled so that they will find the right place on the control electronics when mounting again.
  
 
[[File: VivaldiMyTimer_Blackbox.jpg]]
 
[[File: VivaldiMyTimer_Blackbox.jpg]]
Zeile 149: Zeile 149:
  
  
'''5.''' By means of an adapter cable, we dress the necessary pins out.
+
'''5.''' With an adapter cable, we split the necessary pins out.
 
Important here is the direction of the markings.
 
Important here is the direction of the markings.
 
The nose of the female connector and the recess of the plug strip facing upwards!
 
The nose of the female connector and the recess of the plug strip facing upwards!
Zeile 157: Zeile 157:
 
[[File: VivaldiMyTimer_Adapter2.jpg]]
 
[[File: VivaldiMyTimer_Adapter2.jpg]]
  
'''6.''' We need only the veins 1 (red) and 11 for the relay on / off.
 
For the "backwash" option we need the wires 2 and 7 (7 is the double reference, 2 and 5 (single reference) would go).
 
For the "Boilerabschakltung" option we need the wires 2 and 9. FIG.
 
  
All other we remove.
+
'''6.''' We need only the wire 1 (red) and 11 for the relay on / off.
The two veins we are stuck in a shrink tube.
+
For the "backflush" option we need the wires 2 and 7 (7 is the double shot, 2 and 5 (single shot) would also be OK).
 +
For the "switch of steam boiler " option we need the wires 2 and 9.
 +
 
 +
All other wires will be removed.
 +
The two wires we stuck in a shrink tube.
  
 
[[File: VivaldiMyTimer_Adapter3.jpg]]
 
[[File: VivaldiMyTimer_Adapter3.jpg]]
Zeile 176: Zeile 177:
 
'''8.''' Option 1:
 
'''8.''' Option 1:
  
Preparing for automatic load detection (only necessary if this function is desired)
+
Preparing for automatic dose (only necessary if this function is desired)
  
 
For this purpose, the plug next to the ribbon cable is severed and lengthened the green wire, so that it can be connected later on our relays:
 
For this purpose, the plug next to the ribbon cable is severed and lengthened the green wire, so that it can be connected later on our relays:
  
 
[[File: VivaldiMyTimer_Dose.jpg]]
 
[[File: VivaldiMyTimer_Dose.jpg]]
 +
  
 
'''9.''' Now the cable between relay and Raspberry is assembled.<br />
 
'''9.''' Now the cable between relay and Raspberry is assembled.<br />
I chose solder connections. But there are also a number of relays with screw manufacturers. So then no soldering would be necessary during the conversion.
+
I chose solder connections. But there are also relays available with screws. So no soldering would be necessary during the modification.
  
 
On the relay boards, the connections are usually labeled well.
 
On the relay boards, the connections are usually labeled well.
Zeile 192: Zeile 194:
 
'''For the timer'''
 
'''For the timer'''
  
Raspberry Pin2 (+ 5V) ---> VCC relays<br \>
+
Raspberry Pin 2 (+ 5V) ---> VCC relay<br \>
Raspberry Pin 14 (ground) ---> relays GND
+
Raspberry Pin 14 (ground) ---> relay GND
Raspberry Pin 15 (Gpio22) ---> relays
+
Raspberry Pin 15 (Gpio22) ---> relay
  
  
'''Option 1: Switching automatic load / reference manual'''
+
'''Option 1: Switching automatic shot / manual shot'''
  
This option is recommended. We only need another artery and a relay board with two relay only costs about 1, - EUR more than the board with only one relay.
+
This option is recommended. We only need another wire and a relay board with two relays. This costs only about 1,- US$ more than a board with only one relay.
  
 
Raspberry Pin 16 (Gpio23) ---> Relay2 IN
 
Raspberry Pin 16 (Gpio23) ---> Relay2 IN
Zeile 206: Zeile 208:
 
'''Option 2: Energy Meter'''
 
'''Option 2: Energy Meter'''
  
As a second function, a power meter to be installed. It sends each consumed kWh depending on the model 1000 or 2000 pulses to the Raspberry.<br \>
+
As a second function, a power meter can be installed. It sends for each consumed kWh depending on the model 1000 or 2000 pulses to the Raspberry.<br \>
These pulses we can evaluate and let the consumption and the kWh-price costs Show.<br \>
+
We can evaluate these pulses and calculate with the power consumption and the kWh price the power costs.<br \>
For the meter about 20, - US$
+
The costs for a power meter are about 20,- US$
  
Raspberry Pin 5 (Gpio03) ---> meter S0 +<br \>
+
Raspberry Pin 5 (Gpio03) ---> power meter S0 +<br \>
Raspberry pin 6 (ground) ---> meter S0 -
+
Raspberry pin 6 (ground) ---> power meter S0 -
  
  
 
'''Option 3:. shot timer incl. shot administration'''
 
'''Option 3:. shot timer incl. shot administration'''
  
A relay in parallel with the solenoid valve provides us with the necessary contact.
+
A relay parallel with the magnetic valve provides us with the necessary contact.
  
 
PINs:
 
PINs:
Zeile 230: Zeile 232:
  
 
The NO contact of the relay goes to the control panel wires 2 and 7.  
 
The NO contact of the relay goes to the control panel wires 2 and 7.  
 +
  
 
'''Option 5: Boiler shutdown'''
 
'''Option 5: Boiler shutdown'''
Zeile 241: Zeile 244:
  
 
'''10.''' For the cables we need a recess on the housing.<br \>
 
'''10.''' For the cables we need a recess on the housing.<br \>
I have this extended directly to the female RCA connector and then pulled through the cable.
+
I extended it directly besides the RCA connector and then pulled through the cable.
  
 
[[File: VivaldiMyTimer_Gehaeuse1.jpg]]
 
[[File: VivaldiMyTimer_Gehaeuse1.jpg]]
Zeile 248: Zeile 251:
  
  
'''11.''' The sealed casing can be protected with an insulating anything against any moisture.<br \>
+
'''11.''' The closed casing can be sealed with an electricians tape against any moisture.<br \>
 
(Due to the many holes on the chassis that's more of an alibi work;))
 
(Due to the many holes on the chassis that's more of an alibi work;))
  
Zeile 258: Zeile 261:
 
GPIO22 turns the machine on and off.
 
GPIO22 turns the machine on and off.
  
The two cables from the adapter cable to the control unit come on normally.
+
The two cables from the adapter cable to the control unit come on the closer.
  
 
GPIO23 switches the automatic load.
 
GPIO23 switches the automatic load.
Zeile 264: Zeile 267:
 
The two extended cores of the green terminal come on the opener.
 
The two extended cores of the green terminal come on the opener.
  
The connection diagram can be seen in the photo below the veins.
+
The connection diagram can be seen in the photo below the wires.
  
 
[[File: VivaldiMyTimer_Relais1.jpg]]
 
[[File: VivaldiMyTimer_Relais1.jpg]]
Zeile 270: Zeile 273:
 
Here is a photo of the not connected relays.
 
Here is a photo of the not connected relays.
  
Who renounces the option 1 (automatic load detection) of course has only one relay.
+
Who renounces the option 1 (automatic shot detection) of course has only one relay.
  
Anyone who uses three relays, is prepared for the coming option "automatic cleaning program".
+
Anyone who uses three relays, is prepared for the coming option "automatic cleaning program". (Now implemented)
  
 
[[File: VivaldiMyTimer_Relais2.jpg]]
 
[[File: VivaldiMyTimer_Relais2.jpg]]
  
'''13.''' The completed attached relay should be protected against short circuits, as we put it in with the casing of the control electronics.<br \>
+
 
I have used a shrink tube. Wrap with electrical tape should also rich.
+
'''13.''' The completed attached relay should be protected against short circuits, as we put it into the casing of the control electronics.<br \>
 +
I have used a shrink tube. Wrap with electrical tape should also be OK.
  
 
[[File: VivaldiMyTimer_Relais3.jpg]]
 
[[File: VivaldiMyTimer_Relais3.jpg]]
  
  
'''14.''' Here there is still space for our relays.<br \>
+
'''14.''' Here is space for our relays.<br \>
 
Now the housing of the control unit can be closed again.
 
Now the housing of the control unit can be closed again.
  
 
[[File: VivaldiMyTimer_Relais4.jpg]]
 
[[File: VivaldiMyTimer_Relais4.jpg]]
  
'''15.''' Now only missing the Stomanschluß for our Raspberry.<br \>
+
 
For this we cut out the extension simply the clutch off and connect it to the power cord of Vivaldi.
+
'''15.''' Now only the power plug for our Raspberry is missing.<br \>
 +
For this we cut out the extension and connect it to the power cord of Vivaldi.
  
 
[[File: VivaldiMyTimer_Strom1.jpg]]
 
[[File: VivaldiMyTimer_Strom1.jpg]]
  
  
'''16.''' Option 2: electricity meter (only if necessary)
+
'''16.''' Option 2: electricity meter (only if desired)
  
Now can also be installed easily the electricity meter.<br \>
+
Now the electrical meter can also be installed.<br \>
Just the power cord of Vivaldi pull something into the machine until it reaches to the cup warmer.
+
Just pull the power cord of the Vivaldi into the machine until it reaches to the cup warmer.
  
 
[[File: VivaldiMyTimer_Strom2.jpg]]
 
[[File: VivaldiMyTimer_Strom2.jpg]]
  
  
The cables at the top of separation and use the electricity meter.
+
Split the cable at the top and use the electricity meter.
  
  
Zeile 312: Zeile 317:
 
S0 + goes to Raspberry Pin6 (mass).
 
S0 + goes to Raspberry Pin6 (mass).
  
If the electricity meter as a display my have, so must not be visible, as we read the values ​​on the Raspberry.
+
If the electricity meter has a display, it need not to be visible, as we read the values ​​on the Raspberry.
  
 
[[File: VivaldiMyTimer_Stromzaehler.jpg]]
 
[[File: VivaldiMyTimer_Stromzaehler.jpg]]
  
'''17.''' Option 3: Shot Timer (only if desired)
 
  
We engage the shot timer from the relay for the solenoid valve. Obtain Due to the size and a potential free contact, I have used a reed relay with built-in freewheeling diode.
+
'''17.''' Option 3: Shot timer (only if desired)
  
The solder points on which we can solder the relay we see in the following image. !! Caution !! Unfortunately, the cores (+/-) are reversed on the photo. After correction I forgot to make a new image.
+
We engage the shot timer from the relay for the magnetic valve. Because of the size and the need of a potential free contact, I have used a reed relay with built-in freewheeling diode.
 +
 
 +
The solder points on which we can solder the relay we will see in the following image. !! Caution !! Unfortunately, the cores (+/-) are reversed on the photo. After correction I forgot to make a new image.
  
 
[[File: Shottimer_Platine.JPG]]
 
[[File: Shottimer_Platine.JPG]]
  
And here the used reed relays. That there are also favorable at Reichelt (SIL No. 7271-D 12V). The designation reads: SA12-1A72-71D
+
And here the used reed relays. This is also available at Reichelt (SIL No. 7271-D 12V). The label is: SA12-1A72-71D
  
 
[[File: Shottimer_Reedrelais.JPG]]
 
[[File: Shottimer_Reedrelais.JPG]]
 +
  
 
'''18.''' Now everything can be reassembled.<br \>
 
'''18.''' Now everything can be reassembled.<br \>
 
The Raspberry I tucked in my top of the cup warmer.<br \>
 
The Raspberry I tucked in my top of the cup warmer.<br \>
The SD card is facing up, so I can easily make a firmware change.<br \>
+
The SD card is facing up, so I can easily make a firmware update.<br \>
With cable ties of the ammeter and the Raspberry can be fixed.
+
With cable ties the power meter and the Raspberry can be fixed.
  
 
[[File: VivaldiMyTimer_Einbauort.jpg]]
 
[[File: VivaldiMyTimer_Einbauort.jpg]]
  
  
'''19.''' Now we need the software. The Image I'll put here on the board are available. Link follows.
+
'''19.''' Now we need the software.
  
 
With the tool "Win32 Disk Imager" it is written to the SD card.<br \>
 
With the tool "Win32 Disk Imager" it is written to the SD card.<br \>
Then plug in the Raspberry and connect via cable to the network.<br \>
+
Then plug it in the Raspberry and connect via cable to the network.<br \>
  
Now the plug into the socket of Vivaldi.
+
Now power on the Vivaldi.
  
After 2 minutes, the web interface should be under http: // Vivaldi / be accessible.
+
After 2 minutes, the web interface should be reachable: http://Vivaldi/  
  
 
The login is: viv<br \>
 
The login is: viv<br \>
 
Password: viv
 
Password: viv
  
Now a test of the correct wiring of the relay can be carried out.
+
Now a test of the correct wiring of the relay can be done.
  
  
'''20.''' In the "Settings" menu, which is accessible through the gear icon at the bottom right, the system settings can be made.
+
'''20.''' In the "settings" menu, which is accessible through the gear icon at the bottom right, the system settings can be made.
  
Here, the SSID and the WAP-Key of the WLAN network is entered. Then the power plug (power) must be taken shortly and the LAN cables are pulled.<br \>
+
Here, the SSID and the WPA-Key of the WLAN network can be entered. Then the power plug must be disconnected shortly and the LAN cable are disconnected.<br \>
 
Insert power plug.
 
Insert power plug.
  
Zeile 367: Zeile 374:
 
== '''Others''' ==
 
== '''Others''' ==
  
Powered by web interface
+
Switch on/off by web interface
  
Here the possibility the Vivaldi to switch directly over web interface.<br \>
+
The Vivaldi can be switched directly over web interface.<br \>
This can be used for various automation. eg FHEM
+
This can be used for various automation. eg FHEM / home automatisation
 
 
Switching on: http: // username: password@vivaldi/gpio_on.php<br \>
 
Off: http: // username: password@vivaldi/gpio_off.php
 
  
 +
Switching on: http://username:password@vivaldi/gpio_on.php<br \>
 +
Off: http://username:password@vivaldi/gpio_off.php
  
 
== '''Time Zone''' ==
 
== '''Time Zone''' ==
  
A hint for my non German users: You will have a timezone problem, Because The image is configured to German timezone. It is easy to change this via console:
+
A hint for my non German users: You will have a timezone problem, Because the image is configured to German timezone. It is easy to change this via console:
  
To change timezone, please use the program Putty to enter the shell of the raspberry. User: pi Password: Vivaldi
+
To change timezone, please use the program [http://the.earth.li/~sgtatham/putty/latest/x86/putty.exe Putty] to enter the shell of the raspberry. User: pi Password: Vivaldi
  
 
Use "sudo Raspi-config" to change timezone.
 
Use "sudo Raspi-config" to change timezone.
 
  
 
== '''printserver''' ==
 
== '''printserver''' ==
  
 
You can configure the build in printserver with: http://vivaldi:631
 
You can configure the build in printserver with: http://vivaldi:631
 +
It is possible to use any printer in same network as an airprint printer.
 +
There is no need for a wire connection between Vivaldi and printer.

Aktuelle Version vom 21. Februar 2022, 08:00 Uhr

Information

Due to requests from english users, this page will become the english translation of the german documentation: https://www.kaffeewiki.de/index.php?title=Umr%C3%BCsten_der_La_Spaziale_S1_%28Mini%29_Vivaldi_II_auf_Timer,_Webinterface,_manuellen_Bezug_und_Stromz%C3%A4hler

As a start this will be the transpation via google translate. Everybody is invited to improve this page and do a better translation.


Installation of a timer "Vivaldi myTimer" in the Vivaldi incl. WLAN / WiFi

Aditionally the installation of further options will be described.

The following options are installed independent of the timer. But it is mostly so little additional effort, so it is advisable to implement this, when the machine is opened.

Option 1: Switching automatic load / manual draft

option 2: energy meter

Option 3: Shot timer incl. shot administration

Option 4: automatic backflush

Option 5: boiler shutdown (not in mini Vivaldi)


Project description

By installing a single-board computer (Raspberry Pi) into the Vivaldi a week clock timer with unlimited switching times will be realized.
As an additional feature the Vivaldi will get a wireless lan and can be switched on and off via PC/tablet and smartphone. In addition, the timer can be programmed web-based. By usage of relays keypresses to the power putton will be simulated by the Raspberry.
The material costs are about 65,- US$.

Vivaldi 2.JPG

Functions

  • Programming the (mini) Vivaldi wia web interfache
  • Unlimited amount of timers to switch on/off the machine (daily, weekly, individually switchable) (with/without steam boiler in the non-mini)
  • Switching on/off via web interface with popular browsers (eg with a smartphone when you are out)
  • The non-Mini can be switched on with without steam boiler via the GUI optional
  • Power on / off by building control via web Interface
  • Automatic and manual shot Timer
  • Shot administration (database with comment and favorites function) (Shots under 8 seconds will not be saved)
  • The shot database can be cleaned by pressing a single button (all uncommented entries without favourite flag and without mark)
  • all timers can be programmed individually with/without switching steam boiler shutdown (Not for mini Vivaldi)
  • automatic shot can be switched off (manual draft)
  • backflush automatic
  • electric meter incl. electric cost calculator
  • user management with authorisation concept
  • configuration completely possible through the graphical interface
  • phpMyAdmin can be used for data migration
  • configuration of WLAN on Windows directly to the SD card possible
  • integrated printserver with airprint


Screenshots

The web interface is available from PC / tablet or smartphone via web browser.

The timer includes manual on / off and change the automatic / manual dose.

VivaldiMyTimer Timer.png


shot timer / shot administrative

VivaldiMyTimer Shot.png


user management

VivaldiMyTimer Rights.png


configuration

VivaldiMyTimer Settings.png

Security note

The tasks described here may only be carried out by competent persons. When working on high voltage (120V/230V) can be deadly. Moreover, in case of errors the machine may be damaged.

Disclaimer

This description portrays the modification of my machine. There is no guarantee that errors have crept in. For this reason, do not accept all descriptions 1 : 1. It is intended primarily to be able to understand the work and to pay an own modification without this description. I am not responsible for any damage! This description is an initial draft. It would be glad if someone would check the description is correct. Suggestions, corrections and additional photos are welcome.

The material

The Raspberry PI (Rev. 2), a housing, a 4GB SD card, a WLAN stick, an AC adapter and an extension to realize a socket inside the Vivaldi for the power adapter. Who mounts the Raspberry externally, can also operate with a standard electrical outlet.

Note: The Raspberry PI (Rev. 2) is not 100% compatible with the Rev. 1. Due to the modified connector strip is not running the software provided correct.

Raspberry PI B + is pin-compatible and can therefore be used.


VivaldiMyTimer Raspberry.png


The cable and a relay.

VivaldiMyTimer Kabel.png


The components can be bougt at Reichelt: here the shopping chart

Then we need a the relay board with one or two relays. Here helps ebay search for "relays raspberry". Screws on both sides avoid soldering.

For option 2, a elecric meter is required. Ebay search for "electricity meter S0" will show some. There are models with different pulses per kW. The higher the value, the more accurate the count. 1000 pulses are but adequate.


The software

The software is available here (2-3GB): Download

The password for the image is: only4Testing


For this I need the user from KaffeNetz or from S1Cafe. In both of these forums I will support myTimer. To other mail address I will not send messages.

German support is provided here: [1]

English support page is here: [2]

Here is an example of the surface through the browser of an iPhone:

VivaldyMytimer Iphone.png

Installation

In my Vivaldi I mounted the Raspberry inside the machine. For temperature reasons i can only recommend this if the boilers are isolated. For unisolated kettles I recommend to put the Raspberry onto the back of the Vivaldi. But if the machine is open anyway, an isolation with Armaflex is done also fast.

1. First, the machine must be opened:

VivaldiMyTimer Offen.jpg


2. Connect cable from the control panel to control electronics should be made free, so that the control electronics can be pulled to the rear:

VivaldiMyTimer Offen2.jpg

VivaldiMyTimer Offen3.jpg


3. The plugs should be labeled so that they will find the right place on the control electronics when mounting again.

VivaldiMyTimer Blackbox.jpg


4. Open the box of the control electronics:

VivaldiMyTimer Elektronik.jpg


5. With an adapter cable, we split the necessary pins out. Important here is the direction of the markings. The nose of the female connector and the recess of the plug strip facing upwards!

VivaldiMyTimer Adapter1.jpg

VivaldiMyTimer Adapter2.jpg


6. We need only the wire 1 (red) and 11 for the relay on / off. For the "backflush" option we need the wires 2 and 7 (7 is the double shot, 2 and 5 (single shot) would also be OK). For the "switch of steam boiler " option we need the wires 2 and 9.

All other wires will be removed. The two wires we stuck in a shrink tube.

VivaldiMyTimer Adapter3.jpg

VivaldiMyTimer Adapter4.jpg


7. Insert adapter cable.

VivaldiMyTimer Adapter5.jpg


8. Option 1:

Preparing for automatic dose (only necessary if this function is desired)

For this purpose, the plug next to the ribbon cable is severed and lengthened the green wire, so that it can be connected later on our relays:

VivaldiMyTimer Dose.jpg


9. Now the cable between relay and Raspberry is assembled.
I chose solder connections. But there are also relays available with screws. So no soldering would be necessary during the modification.

On the relay boards, the connections are usually labeled well.

On Raspberry we use the following pins:


For the timer

Raspberry Pin 2 (+ 5V) ---> VCC relay
Raspberry Pin 14 (ground) ---> relay GND Raspberry Pin 15 (Gpio22) ---> relay


Option 1: Switching automatic shot / manual shot

This option is recommended. We only need another wire and a relay board with two relays. This costs only about 1,- US$ more than a board with only one relay.

Raspberry Pin 16 (Gpio23) ---> Relay2 IN


Option 2: Energy Meter

As a second function, a power meter can be installed. It sends for each consumed kWh depending on the model 1000 or 2000 pulses to the Raspberry.
We can evaluate these pulses and calculate with the power consumption and the kWh price the power costs.
The costs for a power meter are about 20,- US$

Raspberry Pin 5 (Gpio03) ---> power meter S0 +
Raspberry pin 6 (ground) ---> power meter S0 -


Option 3:. shot timer incl. shot administration

A relay parallel with the magnetic valve provides us with the necessary contact.

PINs: Raspberry Pin 3 (Gpio02) ---> RELAY5 closers
Raspberry pin 6 (ground) ---> RELAY5 NO (PIN same as in option 2)


Option 4: back flush automatic

Raspberry Pin2 (+ 5V) ---> Relay3 VCC
Raspberry Pin 14 (ground) ---> GND Relay3
Raspberry Pin 18 (Gpio24) ---> Relay3 IN

The NO contact of the relay goes to the control panel wires 2 and 7.


Option 5: Boiler shutdown

Raspberry Pin2 (+ 5V) ---> Relay4 VCC
Raspberry Pin 14 (ground) ---> GND Relay4
Raspberry Pin 22 (GPIO25) ---> Relay4 IN

The NO contact of the relay goes to the control panel wires 2 and 9.


10. For the cables we need a recess on the housing.
I extended it directly besides the RCA connector and then pulled through the cable.

VivaldiMyTimer Gehaeuse1.jpg

VivaldiMyTimer Gehaeuse2.jpg


11. The closed casing can be sealed with an electricians tape against any moisture.
(Due to the many holes on the chassis that's more of an alibi work;))

VivaldiMyTimer Gehaeuse3.jpg


12. Connection of the relay board

GPIO22 turns the machine on and off.

The two cables from the adapter cable to the control unit come on the closer.

GPIO23 switches the automatic load.

The two extended cores of the green terminal come on the opener.

The connection diagram can be seen in the photo below the wires.

VivaldiMyTimer Relais1.jpg

Here is a photo of the not connected relays.

Who renounces the option 1 (automatic shot detection) of course has only one relay.

Anyone who uses three relays, is prepared for the coming option "automatic cleaning program". (Now implemented)

VivaldiMyTimer Relais2.jpg


13. The completed attached relay should be protected against short circuits, as we put it into the casing of the control electronics.
I have used a shrink tube. Wrap with electrical tape should also be OK.

VivaldiMyTimer Relais3.jpg


14. Here is space for our relays.
Now the housing of the control unit can be closed again.

VivaldiMyTimer Relais4.jpg


15. Now only the power plug for our Raspberry is missing.
For this we cut out the extension and connect it to the power cord of Vivaldi.

VivaldiMyTimer Strom1.jpg


16. Option 2: electricity meter (only if desired)

Now the electrical meter can also be installed.
Just pull the power cord of the Vivaldi into the machine until it reaches to the cup warmer.

VivaldiMyTimer Strom2.jpg


Split the cable at the top and use the electricity meter.


L is the brown wire direction outlet.
N the blue wire towards outlet.

The outputs are labeled accordingly.

S0 + goes to Raspberry Pin5 (GPIO3).
S0 + goes to Raspberry Pin6 (mass).

If the electricity meter has a display, it need not to be visible, as we read the values ​​on the Raspberry.

VivaldiMyTimer Stromzaehler.jpg


17. Option 3: Shot timer (only if desired)

We engage the shot timer from the relay for the magnetic valve. Because of the size and the need of a potential free contact, I have used a reed relay with built-in freewheeling diode.

The solder points on which we can solder the relay we will see in the following image. !! Caution !! Unfortunately, the cores (+/-) are reversed on the photo. After correction I forgot to make a new image.

Shottimer Platine.JPG

And here the used reed relays. This is also available at Reichelt (SIL No. 7271-D 12V). The label is: SA12-1A72-71D

Shottimer Reedrelais.JPG


18. Now everything can be reassembled.
The Raspberry I tucked in my top of the cup warmer.
The SD card is facing up, so I can easily make a firmware update.
With cable ties the power meter and the Raspberry can be fixed.

VivaldiMyTimer Einbauort.jpg


19. Now we need the software.

With the tool "Win32 Disk Imager" it is written to the SD card.
Then plug it in the Raspberry and connect via cable to the network.

Now power on the Vivaldi.

After 2 minutes, the web interface should be reachable: http://Vivaldi/

The login is: viv
Password: viv

Now a test of the correct wiring of the relay can be done.


20. In the "settings" menu, which is accessible through the gear icon at the bottom right, the system settings can be made.

Here, the SSID and the WPA-Key of the WLAN network can be entered. Then the power plug must be disconnected shortly and the LAN cable are disconnected.
Insert power plug.

After 2 minutes, the web interface should be accessible via WLAN.

Note: Probably only WPA2 works without problems.


Possibly there are also some special characters in the WPA Key problems.

If everything works you have done it and the housing can be closed.

Others

Switch on/off by web interface

The Vivaldi can be switched directly over web interface.
This can be used for various automation. eg FHEM / home automatisation

Switching on: http://username:password@vivaldi/gpio_on.php
Off: http://username:password@vivaldi/gpio_off.php

Time Zone

A hint for my non German users: You will have a timezone problem, Because the image is configured to German timezone. It is easy to change this via console:

To change timezone, please use the program Putty to enter the shell of the raspberry. User: pi Password: Vivaldi

Use "sudo Raspi-config" to change timezone.

printserver

You can configure the build in printserver with: http://vivaldi:631 It is possible to use any printer in same network as an airprint printer. There is no need for a wire connection between Vivaldi and printer.