Microphone stand
From DDL Wiki
(→Product Dissection) |
(→Product Dissection) |
||
Line 27: | Line 27: | ||
| 01 | | 01 | ||
| Knurled knob || 1 || Friction knob to hold microphone in place || 6 || Plastic || Injection molding || | | Knurled knob || 1 || Friction knob to hold microphone in place || 6 || Plastic || Injection molding || | ||
- | [[Image:Thinplastictubes4.JPG| | + | [[Image:Thinplastictubes4.JPG|90px]] |
|- | |- | ||
| 02 | | 02 |
Revision as of 17:31, 20 September 2007
This page was compiled as a project for the 24-441 Engineering Design Course at Carnegie Mellon University.
Contents |
Executive Summary
Customer Needs
This device is primarily a precision positioning mechanism that can move in any direction. It is designed such that it has multiple degrees of freedom to increase the usability for the user. Some of the main users are disc jockeys and radio stations who need a stand for their microphones. This microphone was designed to be a hands-free device and would eliminate the need for the user to have to physically hold the microphone in a particular location.
Another need that is addressed by the product is the small footprint that it has and the overall size of the device. Most radio stations are cluttered and microphones may get lost. The device takes up a small portion of the table and can extend outward in any direction. This device is also easily portable which is beneficial for users who have to move or store equipment around.
This unit is also durable due to material that was used to create it. Bent sheet metal is very strong and the injection molded parts are fairly durable as well. Parts are coupled in pairs for strength and stability.
Function of System
The stand is attached to a surface by a clamp. The 2” rod that protrudes out from the bottom of the stand attaches to the clamp and can swivel 360°. The springs attached to the upper section of the stand create an opposing force to the microphone itself. The spring force creates a moment around point A as shown in Figure 1. This moment counteracts the moment caused by the force created by the microphone. The upper bar linkages can move together respective of point A. They are fixed together by a ¼” bolt and angled plates (point B). As long as the microphone is being adjusted lower than it’s equilibrium position without a microphone as shown in Figure 2, the lower spring does not stretch or compress. Once the upper section moves above the
Product Dissection
Part # | Part Name | Qty. | Function | Weight (g) | Material | Manufacturing Process | Photo |
---|---|---|---|---|---|---|---|
01 | Knurled knob | 1 | Friction knob to hold microphone in place | 6 | Plastic | Injection molding | |
02 | Lock washer (small) | 2 | Spacer between bolt and surface | 0.15 | Steel | Casting | |
03 | Headless bolt | 1 | Holds microphone attachment in place | 2 | Steel | Casting | |
04 | Microphone attachment | 1 | Holds microphone by threaded rod | 47 | Steel | Casting | |
05 | Grasping clamp | 2 | Clamps microphone attachment in place | 13 | Steel | Casting | |
06 | Grasping pin | 1 | Aligns grasping clamps | 0.5 | Brass | Extrusion | |
07 | Lock washer (large) | 1 | Spacer between bolt and surface | 0.2 | Steel | Casting | |
08 | Bolt | 4 | Holds upper angled plate sub-assembly | 2.5 | Steel | Casting | |
09 | Angled plate - bent | 2 | Holds frame to attachment | 11 | Sheet metal | Stamping/bending | |
10 | Upper spring | 2 | Counteracts weight of microphone | 53 | Steel | Wrapped wire extrusion | |
11 | Upper spring attachment | 4 | Holds spring in place | 2 | Steel | Casting/turning | |
12 | Threaded rod | 2 | Holds attachments together | 4 | Steel | Casting | |
13 | Bar linkage | 5 | Linkage, houses XLR cable | 94 | Sheet metal | Extrusion | |
14 | End fitting cap | 4 | Upper linkage cap, guides XLR cable | (n/a) | Plastic | Injection Molding | |
15 | Lock washer (medium) | 2 | Spacer between bolt and surface | 0.2 | Steel | Casting | |
16 | Nut | 3 | Tightens fixture | 0.5 | Steel | Casting | |
17 | Headless 1/2-threaded rod | 1 | Connects lower and upper sections | 4 | Steel | Casting | |
18 | Spacer (medium) | 2 | Spacer for central sub-assembly | 0.5 | Steel | Casting | |
19 | Spacer washer | 1 | Holds central sub-assembly | 0.2 | Steel | Casting | |
20 | Washer (medium) | 1 | Holds central sub-assembly | 0.2 | Steel | Casting | |
21 | Tightening cap | 1 | Tightens upper to lower section connection, secures joint angle | 3 | Plastic | Injection molding | |
22 | Angled plate - flat | 2 | Base for upper to lower connection | 10 | Sheet metal | Stamping | |
23 | End fitting cap (flat) | 2 | Upper linkage cap | (n/a) | Plastic | Injection molding | |
24 | Spacer (large) | 3 | Spacer for lower sub-assembly | 2 | Steel | Casting | |
25 | Long 1/4-threaded rod | 1 | Holds lower sub-assembly | 5 | Steel | Casting | |
26 | Spacing bolt/rod | 1 | Spaces and holds lower springs | 2 | Steel | Turning | |
27 | Lower spring | 2 | Counteracts weight of microphone | 35 | Steel | Wrapped wire extrusion | |
28 | Lower spring attachment | 2 | Holds spring in place | 2 | Steel | Turning | |
29 | Base bracket | 1 | Connects frame to mounting section | 47 | Sheet metal | Stamping/bending | |
30 | White bushing | 1 | Protects and guides XLR cable | 0.5 | Plastic | Injection molding | |
31 | XLR cable | 1 | Carries signal to microphone | 50 | Various | Electric |