Difference between revisions of "DDP:Detailed Design Phase: Drawing and Assembly Package"

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The CLAS12 Drift chamber has 3 regions arranged as shown below
 
The CLAS12 Drift chamber has 3 regions arranged as shown below
  
[[Image:jul17_2008_1.png| 300 px]] [[Image:jul17_2008_2.png| 300 px]]
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[[Image:jul17_2008_2.png| 300 px]] [[Image:jul17_2008_1.png| 300 px]]
  
  

Revision as of 07:36, 17 July 2008

Detailed Design Drawing Report 6/27/08

Outline:

1.) Dimensions

2.) Constraints: Case 3 from progress report: constrain triangle and nose plate on upstream side.

3.) Deflection Analysis

Steps:

a.) check triangle contact region and its mass b.) add another carbon fiber rod c.) increase size of back plate


4.) Drawings

drawings in PDF format

a.) Endplate structural drawing (no holes just shaded area)

b.) Drawings for all other parts

c.)

d.) Copy old R3 (take advantage of no curved window.


Report

Introduction

The CLAS12 Drift chamber has 3 regions arranged as shown below

Jul17 2008 2.png Jul17 2008 1.png


The electrons released from the target center will flow through region 1, region 2 and region 3. All these regions look the same way. However, their sizes and the materials with which they are made are different. Due to the fact their sizes are different; some of them have some structural add-ons to support their structural abilities. The chambers are arranged in such a way that every chamber receives the same number of electrons. Apart from that, the chambers were shaped in such a way that all the electrons travel approximately the same distance before they hit a particular chamber.

Jul17 2008 3.png


Each and every chamber has 6 equal sized pieces which are shaped similar to a triangular piece. All of these pieces are arranged and bowed inward to resemble sectors in a 6 sector umbrella.As discussed before, each region will be sized different. Region 3 will be the biggest of all, as region 3 has to cover a larger electron span (surface area).

Although these pieces are termed as triangular, these are not triangular in reality. The nose which is the smallest of all is very small compared to the other plates, which will make us to visualize this as a triangular piece. Ar Co2 (90/10) gas is maintained in each of these chambers at an operating pressure of 0.001444 Psi and a peak pressure 5 times higher. In turn there are about 4928 very sensitive wires (112 Sense wires with 44 Wire Layers) connected across the plates inside each piece.

Design Criteria

Initial parameters to be followed to fulfill to satisfy design Criteria

1. Distance from target to first sense wire plane along a ray which is normal to the end plate = 4746.5 mm

2. Chamber Tilt Angle = 25 Degrees

3. Maximum Scattering Angle = 45.05 Degrees

4. Minimum Scattering Angle = 4.5 Degrees

5. Wires are at 6 Degrees to the horizontal in each of its wire planes


Jun20 2008 1.png Jun20 2008 2.png Jun20 2008 3.png


Wire pattern

The wire pattern at the center plane will be symmetric and easy to understand. The wire pattern in each super layer on this plane is same and a view at this wires at this plane will be as follows

Jun20 2008 4.png

In the horizontal direction we have 6 six sense wires. so, there will be a 2 + 6 times 3 + 2 = 22 wire planes as shown in the fig. If the distance between each wire plane is 'H' mm. Then the total span of wires in this direction will be 21H mm.

In the vertical direction, there are 112 sense wires, so there will be 2 + 112 + 2 = 116 wire planes as shown. If the distance between each wire plane is 'V' mm. Then, the total span in this direction will be 115V mm

H = ?

V = ?

No. of sense wires in each super layer = ?

No. of field wires in each super layer = ?

No. of guard wires in each super layer = ?

Assembly

The Assembly of each sector in the region 3 drift chamber can be considered similar to each other. Each assembly can be divided into sub-assemblies like

1. Nose Plate

2. Right End Plate

3. Left End plate

4. Back plate

5. Backing Sheet

6. Carbon rods

7. Attachments: These are the external geometric parts of each sector, used for clamping and mounting each sector. so, they might change with the orientation of each sector

R3BreakOutDiagram.jpg

A detailed drawing of this Basic sector assmebly can be viewed at File:B00000-01-10-0001.pdf


Nose Plate

Nose plate is the plate where both the end plates are attached to it on either side

Assembly20 jun 1.png

A detailed drawing of Nose plate can be viewed at File:B00000-01-10-0002.pdf

Right end plate

Left end plate is the end plate to the left hand side if we are viewing from the target.

Assembly20 jun 2.png

They can be referenced with left and right to show each sub assembly.

A detailed drawing of right end plate Core can be viewed at File:B00000-01-10-0003.pdf

A detailed drawing of right end plate skin can be viewed at File:B00000-01-10-0004.pdf

Since end plate casing will not have holes for wires, the drawing for left end plate casing and right end plate casing will be the same.

A detailed drawing of End plate casing can be viewed at File:B00000-01-10-0005.pdf

Left End Plate

Left end plate is the end plate to the left hand side if we are viewing from the target. Left end plate and the right end plate are same with parts and its dimensions. However, the hole locations differ between each other.

Assembly20 jun 2.png

Each end plate sub assembly consists of 3 parts, namely

End plate casing - Made of Aluminum.

Assembly20 jun 5.png


They can be referenced with left and right to show each sub assembly.

A detailed drawing of Left end plate Core can be viewed at File:B00000-01-10-0006.pdf

A detailed drawing of Left end plate skin can be viewed at File:B00000-01-10-0007.pdf

Back Plate

Back plate is the plate which connects the left end plate and right end plate on the top.

Assembly20 jun 10.png

Back plate sub assembly consists of 3 parts, namely

Back plate Core - made of Polyurethane

Assembly20 jun 11.png

Back plate Skins - 2 No's- Made of stainless steel

Assembly20 jun 12.png

Back plate casing - Made of Aluminum

Assembly20 jun 13.png

A detailed drawing of back plate Core can be viewed at File:B00000-01-10-0008.pdf

A detailed drawing of back plate skin can be viewed at File:B00000-01-10-0009.pdf

A detailed drawing of back plate casing can be viewed at File:B00000-01-10-0010.pdf

Backing Sheet

Backing sheet is the large sheet which is mounted on the downstream side of sector.

Assembly20 jun 14.png

It consists of 2 parts, namely

Hexcel Core and Carbon fiber skins on either side

A detailed drawing of back plate Core can be viewed at File:B00000-01-10-0011.pdf

A detailed drawing of back plate skin can be viewed at File:B00000-01-10-0012.pdf

Carbon fiber rods

These rods are mounted on the upstream side of each sector, connecting the left end plate aluminum casing and right end plate aluminum casing..

Assembly20 jun 15.png

There are 6 Carbon rods each of outer diameter of 50.8 mm and inner diameter of 48.26mm

A detailed drawing of carbon fiber rods can be viewed at File:B00000-01-10-0013.pdf


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