So much plywood, so little path length needed for low frequency extension.
Oh well, life is full of compromises😉.
Art
were just brainstorming here🙂
so i put martins idea in to a drawing.
i think we got something here.
so i put martins idea in to a drawing.
i think we got something here.
All These Symmetric designs have the disadvantage of needing far more timber!
Thoughts behind My hasty lunchtime sketch.🙂
The layout is stepped. No attempt at tapering the sections was made. This would make for a simple build for a complicated box layout. Each concentic section could be made from 4 identically cut parts.
The horn shape is fairly inflexible, I adjusted the overall width to get approx 615cm sq for S2, approx 2 :1 compression for an 18" driver. A compression ring / spacer would be needed to allow for driver Xmech.
With the simple steps, first and second section would be aproximately equal .
Third section doubles the area
Fouth section doubles again, and is the S4 driver area.
Final expansion doubles again if the horn mouth extension is used.
Each expansion is actually more than double as the proportion of the area ocupied by the timber reduces with each section.
Careful adjustment of the panels could tweak the areas / expansion ratio.
Sneaky bit is the 45 deg angling of the sections - this increases the horn length as the path crosses diagonally from section to section.😉
Regards Martin (Xoc1)
Thoughts behind My hasty lunchtime sketch.🙂
The layout is stepped. No attempt at tapering the sections was made. This would make for a simple build for a complicated box layout. Each concentic section could be made from 4 identically cut parts.
The horn shape is fairly inflexible, I adjusted the overall width to get approx 615cm sq for S2, approx 2 :1 compression for an 18" driver. A compression ring / spacer would be needed to allow for driver Xmech.
With the simple steps, first and second section would be aproximately equal .
Third section doubles the area
Fouth section doubles again, and is the S4 driver area.
Final expansion doubles again if the horn mouth extension is used.
Each expansion is actually more than double as the proportion of the area ocupied by the timber reduces with each section.
Careful adjustment of the panels could tweak the areas / expansion ratio.
Sneaky bit is the 45 deg angling of the sections - this increases the horn length as the path crosses diagonally from section to section.😉
Regards Martin (Xoc1)
its not so much more wood,you dont need bracings+its super stiff construction.
i measured my design diagonal ,path lengt wil be aprox 3.4 mtrs .
for me thats a bit to low.
what exacly wil that cavitie in front do?.
i was thinking putting the mouth pannel flush to the front.
just need that depth for the speaker.
have you guys seen this design? i have figured it to take 14 sheets (4x8) to build 6 of them. that is with 23% on the cut out sheets, and maybe 15% on the cnc sheets.
Extended CB-18 Cyclops - Speakerplans.com Forums - Page 1
will take 12.5 sheets to build 6 of Xco1's TH-18.
Extended CB-18 Cyclops - Speakerplans.com Forums - Page 1
will take 12.5 sheets to build 6 of Xco1's TH-18.
no were just spacing😀
how did you caculated this so quick?
btw,im putting this in to akabak.
what do you think all?
|DATA EXPORTED FROM HORNRESP - RESONANCES NOT MASKED
|COMMENT: th 18 sound 1400
|========================================================================================================
|REQUIRED AKABAK SETTINGS:
|File > Preferences > Physical system constants:
|Sound velocity c = 344m/s
|Medium density rho = 1.205kg/m3
|Sum > Acoustic power:
|Frequency range = 10Hz to 20kHz
|Points = 533
|Input voltage = 2.26V rms
|Integration = 2Pi-sr
|Integration steps = 1 degree ... 1 degree
|Integration method = Cross
|========================================================================================================
Def_Const |Hornresp Input Parameter Values
{
|Length, area and volume values converted to metres, square metres and cubic metres:
S1 = 829.00e-4; |Horn segment 1 throat area (sq m)
S2 = 829.10e-4; |Horn segment 1 mouth area and horn segment 2 throat area (sq m)
S3 = 829.20e-4; |Horn segment 2 mouth area and horn segment 3 throat area (sq m)
S4 = 1059.00e-4; |Horn segment 3 mouth area and horn segment 4 throat area (sq m)
S5 = 1059.10e-4; |Horn segment 4 mouth area and horn segment 5 throat area (sq m)
S6 = 1640.00e-4; |Horn segment 5 mouth area and horn segment 6 throat area (sq m)
S7 = 1640.10e-4; |Horn segment 6 mouth area and horn segment 7 throat area (sq m)
S8 = 1641.00e-4; |Horn segment 7 mouth area and horn segment 8 throat area (sq m)
S9 = 1641.10e-4; |Horn segment 8 mouth area and horn segment 9 throat area (sq m)
S10 = 2000.00e-4; |Horn segment 9 mouth area and horn segment 10 throat area (sq m)
S11 = 2000.10e-4; |Horn segment 10 mouth area and horn segment 11 throat area (sq m)
S12 = 2500.10e-4; |Horn segment 11 mouth area (sq m)
L12 = 0.10e-2; |Horn segment 1 axial length (m)
L23 = 50e-2; |Horn segment 2 axial length (m)
L34 = 0.10e-2; |Horn segment 3 axial length (m)
L45 = 50e-2; |Horn segment 4 axial length (m)
L56 = 0.1e-2; |Horn segment 5 axial length (m)
L67 = 50.75e-2; |Horn segment 6 axial length (m)
L78 = 0.10e-2; |Horn segment 7 axial length (m)
L89 = 70e-2; |Horn segment 8 axial length (m)
L910 = 0.10e-2; |Horn segment 9 axial length (m)
L1011 = 40e-2; |Horn segment 10 axial length (m)
L1112 = 25e-2; |Horn segment 11 axial length (m)
Vtc = 10000.00e-6; |Throat chamber volume (cubic m)
Atc = 840.30e-4; |Throat chamber cross-sectional area (sq m)
|Parameter Conversions:
Sd = 1225.00e-4; |Diaphragm area (sq m)
Ltc = Vtc / Atc;
}
|========================================================================================================
|Network node numbers for this tapped horn system:
| 0-Voltage-1
| |
| -Chamber-5-Driver-
| | |
|8-Segment-9-Segment-10-Segment-11-Segment-12-Segment-13-Segment-14-Segment-15-Segment-16-Segment17-Segment-18-Segment-19-Segment-20-Radiator
|========================================================================================================
Def_Driver 'Driver'
Sd=1225.00cm2
Bl=24.70Tm
Cms=1.39E-04m/N
Rms=5.13Ns/m
fs=30.9998Hz |Mmd = 164.97g not recognised by AkAbak, fs calculated and used instead
Le=4.60mH
Re=5.00ohm
ExpoLe=1
System 'System'
Driver Def='Driver''Driver'
Node=1=0=5=19
Duct 'Throat chamber'
Node=5=9
SD={Atc}
Len={Ltc}
Visc=0
Waveguide 'Horn segment 1'
Node=8=9
STh={S1}
SMo={S2}
Len={L12}
Conical
Waveguide 'Horn segment 2'
Node=9=10
STh={S2}
SMo={S3}
Len={L23}
Conical
Waveguide 'Horn segment 3'
Node=10=11
STh={S3}
SMo={S4}
Len={L34}
Conical
Waveguide 'Horn segment 4'
Node=11=12
STh={S4}
SMo={S5}
Len={L45}
Conical
Waveguide 'Horn segment 5'
Node=12=13
STh={S5}
SMo={S6}
Len={L56}
Conical
Waveguide 'Horn segment 6'
Node=13=14
STh={S6}
SMo={S7}
Len={L67}
Conical
Waveguide 'Horn segment 7'
Node=14=15
STh={S7}
SMo={S8}
Len={L78}
Conical
Waveguide 'Horn segment 8'
Node=15=16
STh={S8}
SMo={S9}
Len={L89}
Conical
Waveguide 'Horn segment 9'
Node=16=17
STh={S9}
SMo={S10}
Len={L910}
Conical
Waveguide 'Horn segment 10'
Node=17=18
STh={S10}
SMo={S11}
Len={L1011}
Conical
Waveguide 'Horn segment 11'
Node=18=19
STh={S11}
SMo={S12}
Len={L1112}
Conical
Radiator 'Horn mouth'
Node=19
SD={S12}
note this is the square sugested by martin.
just moved some numbers around to get a flat to 35 or so
cab 80x80x80
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were just brainstorming here🙂
so i put martins idea in to a drawing.
i think we got something here.
beautiful lady! epa new tapped horns are beautiful more than the past. i just hv designed as the same. love tapped horn with the sound but hate it when have the the problem when bend it. i try to design push pull tapped horn like this but still can't finish. i hope will finish if not i will want ur help with my desu\ign. thanks 4 the pic friend.
Attachments
tnx thawach
drivers position in the point in the pic maybe wil cause problem.
the pressure maybe to high where the cones are closesed to eachother.
imho
I am in love with this box conical rectangular th(credits to Xco1)😎 This is the coolest TH design.
Which speaker this design use.
it also looks easy to build.
Can i have it.
Pleaseeeeeeeeeeeeeeeeeeee😀
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Very impressive guys!
What are the dimensions?
What is the knee?
What driver was used to model?
Great execution on a concept!
Larry
What are the dimensions?
What is the knee?
What driver was used to model?
Great execution on a concept!
Larry
hi stanley
its only a model.im gona bild this next time(test box),but it should work with most modern pro 18 inches qts 30 to 40 and vas 175 to 300 ltr.
now the folow up on this design.
i finaly had time to do some measurements.
here are the results
measured with uncalibrated beringer mic.
use arta and limp sw.
indoors close mic.
as we can see the horn is in reality shorter then simmed.
i used the white line ,but i think i should measure the red line.
in the hr sim the grey line is like the white line in the model ,and the red line in hr sim is what ive measured looking /comparing the imp graph.
it sounds good but not a flat to 30 sub(more flat to 40).
btw the shopped off first imp peak is due to either the sw or the elcheapo external usb soundcart i used.
edit/ this box was not designed for the 18sound lw 1400,but i had this one close by
its only a model.im gona bild this next time(test box),but it should work with most modern pro 18 inches qts 30 to 40 and vas 175 to 300 ltr.
now the folow up on this design.
i finaly had time to do some measurements.
here are the results
measured with uncalibrated beringer mic.
use arta and limp sw.
indoors close mic.
as we can see the horn is in reality shorter then simmed.
i used the white line ,but i think i should measure the red line.
in the hr sim the grey line is like the white line in the model ,and the red line in hr sim is what ive measured looking /comparing the imp graph.
it sounds good but not a flat to 30 sub(more flat to 40).
btw the shopped off first imp peak is due to either the sw or the elcheapo external usb soundcart i used.
edit/ this box was not designed for the 18sound lw 1400,but i had this one close by
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i only tune down to 40 hz. its near the fs of the driver. this's the graph respond. ill post the plan dimension when its finish to build in the next time. thanks🙂
