7. The three functional gages below can be used to verify the three segment position specification that is shown earlier in this unit. Calculate the pin sizes for these gages to help explain the callout on the drawing. See product drawing earlier in this unit. 10.50 3X Ø 10.35 Gage block (МMB) O 0.85 (MA BM CM Gage pins (Virtual size) 10.50 3X Ø 10.35 Gage pin (MMB) Ø 0.25 M A BM Gage pins (Virtual size) 10.50 3X Ø 10.35 Gage pin (МMB) + 0.12 M A Gage pins (Virtual size)

The three fuctional gages below can be used to verify the three segment position specification that is shown earlier in this unit. Calculate the pin sizes for these gages to help explain the callout on the drawing. See Product Drawing earlier in this unit (image 2).

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--- **Workshop Exercise 13.1** **Objective:** Calculate the pin sizes for the three functional gages shown in the diagrams to verify the segment position specifications. Refer to the previously shown product drawing for accuracy. **Instruction:** Use the functional gages to help explain the callout specifications on the drawing. **Components of the Gages:** 1. **Gage 1:** - Diagram Features: - Three circles marked with "3X Ø 10.50 10.35." - Tolerance box marked: - Ø 0.85 - A (datum) - B (datum) - M (Maximum Material Boundary, MMB) - Description: - This gage uses a Gage Block for MMB and Gage Pins for Virtual Size. The gage block and pins are designed according to the constraints provided. 2. **Gage 2:** - Diagram Features: - Three circles marked with "3X Ø 10.50 10.35." - Tolerance box marked: - Ø 0.25 - A, B, C (datums) - M (MMB) - Description: - Similar to Gage 1, this utilizes a Gage Pin for MMB and Gage Pins for Virtual Size, adjusted for tighter tolerances. 3. **Gage 3:** - Diagram Features: - Three circles marked with "3X Ø 10.50 10.35." - Tolerance box marked: - Ø 0.12 - M (MMB) - Description: - Designed with the least tolerance allowance, this gage consists of a Gage Pin for MMB and Gage Pins for Virtual Size. **Visualization:** Each diagram shows a frontal view of the gage with the dimensions noted, along with a side view illustrating how the gage block and pins protrude. These visual tools aid in verifying compliance with the specified tolerances. --- This exercise emphasizes the precision required in manufacturing for ensuring that components meet specified positional tolerances through the application of functional gages.

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### Engineering Drawing Interpretation #### Diagram Overview This image is an engineering drawing showcasing various features and dimensions of a component. It highlights multiple geometric dimensioning and tolerancing (GD&T) controls. #### Key Features 1. **Circular Component with Cut-Outs:** - **Holes:** Three equally spaced holes, each dimensioned at a diameter of 10.50 with tolerance 10.35. - **Central Cut-Out:** Includes a cut-out on the top, dimensioned 10.15 with a tolerance of 10.00. 2. **Dimension Indicators:** - **R20:** Represents a radius of 20 units for an arc segment on the component. - **Diameter Notes:** - Ø 15.08 with tolerance 15.00. - Additional details indicate allowances using feature control frames: - Ø 0.85 (M) A B C (M) - Ø 0.25 (M) A B (M) - Ø 0.12 (M) 3. **Feature Control Frames:** - **Datum A:** A vertical reference line indicating a primary datum. - **Datum B and C:** Additional datums referencing other features of the component. 4. **Geometric Control:** - The symbol Ø implies circular features. - The "M" symbol refers to Maximum Material Condition. This drawing exemplifies precise engineering design, focusing on the fit and function of components with specified tolerances to ensure proper assembly and performance in real-world applications.