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No.000208 Table Lifter
140
140
A link driven mechanism
Related Category
Flanged Linear Bushings
| Product name | Flanged Linear Bushings/Double Type |
|---|---|
| Part number | LHFRWM16G |
| Features | Easy to assemble with bolt-on flanges. The Opposite Counterbored Hole Type is also available. |
* Orange colored cells in the table below indicate the part numbers used in this example.
Selection criteria
Easy to assemble with bolt-on flanges.
Available sizes
■Flanged Linear Bushings (Double)
| Type | Outer Cylinder | Ball | Retainer | Operating Ambient Temperature | Accessory | ||
|---|---|---|---|---|---|---|---|
| Material | Hardness | Surface Treatment | Material | Material | |||
| Round Flange Square Flange Compact Flange | EN 1.3505 Equiv. | 58HRC- | - | EN 1.3505 Equiv. | Plastic (Duracon M90 equivalent) | -20-80°C | Seal: Material Nitrile Rubber (-20-120°C) |
| Stainless Steel (Stainless Steel) | -20-100°C | ||||||
| Electroless Nickel Plating | EN 1.4125 Equiv. | Plastic (Duracon M90 equivalent) | -20-80°C | ||||
| Stainless Steel (Stainless Steel) | -20-100°C | ||||||
| EN 1.4125 Equiv. | 56HRC- | - | Plastic (Duracon M90 equivalent) | -20-80°C | |||
| Stainless Steel (Stainless Steel) | -20-100°C | ||||||
■Sizes and Dimensions
| I.D. (mm) | Length (mm) |
|---|---|
| 3 | 19 |
| 4 | 23 |
| 5 | 28 |
| 6 | 35 |
| 8 | 45 |
| 10 | 55 |
| 12 | 57 |
| 13 | 61 |
| 16 | 70 |
| 20 | 80 |
| 25 | 112 |
| 30 | 123 |
| 35 | 135 |
| 40 | 151 |
| 50 | 192 |
Selection steps
■Flanged Linear Bushings Selection Steps
- Determine Application Conditions
- (loads, motion pattern, life)
↓
- Temporarily select linear bushing specifications
- (select the shaft diameter, length, and etc. based on the conditions of use.)
↓
- Basic safety check
-
- ●Basic Static Load Rating
- ●Basic Dynamic Load Rating
- ●Allowable Static Moment
- ● Life
↓
- Considerations based on the required performance
- ●Life variations due to various changes (temperature, hardness, etc.)
Accuracy Info
■Accuracy of Flanged Linear Bushings
(mm)
| I.D. | I.D. Tolerance | Height Tolerance from Base Surface |
|---|---|---|
| 3 | 0 -0.010 | ±0.3 |
| 4 | ||
| 5 | ||
| 6 | ||
| 8 | ||
| 10 | ||
| 12 | ||
| 13 | ||
| 16 | ||
| 20 | 0 -0.012 | |
| 25 | ||
| 30 | ||
| 35 | 0 -0.015 | |
| 40 | ||
| 50 |
Performance info.
■Load Information for Flanged Linear Bushings
| I.D. (mm) | Basic Load Rating | |
|---|---|---|
| Basic Dynamic Load Rating (N) | Basic Static Load Rating (N) | |
| 3 | 138 | 210 |
| 4 | 176 | 254 |
| 5 | 263 | 412 |
| 6 | 324 | 529 |
| 8 | 431 | 784 |
| 10 | 588 | 1100 |
| 12 | 657 | 1200 |
| 13 | 813 | 1570 |
| 16 | 1230 | 2350 |
| 20 | 1400 | 2740 |
| 25 | 1560 | 3140 |
| 30 | 2490 | 5490 |
| 35 | 2650 | 6270 |
| 40 | 3430 | 8040 |
| 50 | 6080 | 15900 |
Technical calculations
■Life of Flanged Linear Bushings
When the linear system is in motion with applied load, the rolling surfaces and races are subject to repeated stress, This stress can cause scale-like flaking due to material fatigue. The total run distance until the flaking appears in the "Life" of the linear system.
Rated life can be calculated with the basic dynamic load rating and the actual load applied to the linear bushings, as shown below.
- L: Rated Life (km).
- fH: Hardness Factor (See Fig.1).
- fT: Temperature Factor (See Fig.2).
- fC: Contact Factor (See Table-3).
- fW: Load Factor (See Table-4).
- C: Basic Dynamic Load Rating (N).
- P: Applied Load (N).
●Hardness factor (fH)
For linear applications, the shafts and ball bearings must have sufficient hardness. If they do not, the load rating decreases and the life will be reduced.
Fig. 1. Hardness Factor.
●Temperature factor (fT)
When the temperature of the linear system exceeds 100 degrees C, the hardness will decrease and as a result, the allowable load and life will reduced.
Fig. 2. Temperature Factor.
●Contact factor (fC)
In general, it is common to use two or more bushings on one shaft. In these cases, the load on each bushing will vary depending on the machining precision and will not have equally distributed loads. As a result, the allowable load per bushing will vary depending on the number of bushings used on the shafts. Please compensate the rated life with contact factors on Table-1.
Table-3. Contact Factor.
| Number of Bearings Installed on One Shaft | Contact Factor Fc | |
|---|---|---|
| 1 | 1 | |
| 2 | 0.81 | |
| 3 | 0.72 | |
| 4 | 0.66 | |
| 5 | 0.61 | |
●Load Factor (fW)
To calculate the load applied to the bushings, in addition to the object weight, the inertia force attributed to the motion velocity, moment loads and the variations of each over time must be obtained. However, for reciprocating motion applications, it is difficult to obtain accurate calculations due to the effects of the vibrations and shocks. Therefor, use Table 2 to simplify the life calculations.
| Conditions of Use | fw |
|---|---|
| No external shocks / vibrations, low speed 15m/min or less | 1.0 ~ 1.5 |
| No significant shocks / vibrations, medium speed 60m/min or less | 1.5 ~ 2.0 |
| With external shocks / vibrations, high speed exceeding 60m/min | 2.0 ~ 3.5 |
Life can be obtained by calculating the travel distance per unit of time. When the stroke length and the number of strokes are constant, it can be calculated using the formula below.
- Lh: Life (Hr.).
- L: Rated Life (km).
- Ls: Stroke Length (m).
- n1: Cycles per Minute (cpm).
Rod End Bearings
| Product name | Rod End Bearings/Standard |
|---|---|
| Part number | PHSC8 |
* Orange colored cells in the table below indicate the part numbers used in this example.
Selection criteria
To make the up/down motion smooth by using it as a part of link mechanism.
Available sizes
■Rod End Bearings - Standard
| Type | Material | ||
|---|---|---|---|
| Holder | Spherical Inner Ring | Bushing (Liner) | |
| Steel | EN 1.1181 Equiv.(Trivalent Chromate) | EN 1.3505 Equiv.(58HRC-) | Special Copper Alloy |
| Oil-Free | Bearing I.D. 3/4 (Trivalent Chromate) | EN 1.3505 Equiv.(58HRC-) | Self-lubricating Synthetic Resin |
| Other Than Above | EN 1.3505 Equiv.(58HRC-) | Tetrafluoroethylene resin | |
| Stainless Steel Oil Free | EN 1.4305 Equiv. | EN 1.4125 Equiv.(58HRC-) | Tetrafluoroethylene resin |
■Sizes and Dimensions
| Bearing I.D. | Ball Center - Holder Edge |
|---|---|
| 3 | 12 |
| 4 | 14 |
| 5 | 16 |
| 6 | 18 |
| 8 | 22 |
| 10 | 26 |
| 12 | 30 |
| 14 | 34 |
| 16 | 38 |
| 18 | 42 |
| 20 | 46 |
| 22 | 50 |
Accuracy Info
■Accuracy of Rod End Bearings
| Bearing I.D. | I.D. Tolerance (H7) |
|---|---|
| 3 | +0.009 0 |
| 4 | +0.012 0 |
| 5 | |
| 6 | |
| 8 | +0.015 0 |
| 10 | |
| 12 | +0.018 0 |
| 14 | |
| 16 | |
| 18 | |
| 20 | +0.021 0 |
| 22 |
■Allowable Incline
| Shaft Step Shape | Shaft Condition | Allowable Incline Angle α |
|---|---|---|
| Large | Stepped part of the shaft contacts the outer circumference of the holder. | Small (α1) |
| Medium | Stepped part of the shaft contacts the side or the inner circumference of the holder. | Medium (α2) |
| Not Provided | Shaft contacts the inner circumference of the holder. | Large (α3) |
| Shaft Bore Dia. (mm) | Ball Dia. (mm) | α1(°) | α2(°) | α3(°) | ||||||
|---|---|---|---|---|---|---|---|---|---|---|
| (1) | (2) | (3) | (1) | (2) | (1) | (2) | (1) | (2) | (3) | |
| 3 | - | 9.525 | - | - | 8 | - | 10 | - | 42 | - |
| 4 | - | 10.319 | - | - | 9 | - | 11 | - | 35 | - |
| 5 | 11.112 | 11.112 | 11.91 | 8 | 8 | 13 | 13 | 30 | 30 | 12 |
| 6 | 12.7 | 12.7 | 14.29 | 8 | 8 | 13 | 13 | 30 | 30 | 10 |
| 8 | 15.875 | 15.875 | 17.46 | 8 | 8 | 14 | 14 | 25 | 25 | 12 |
| 10 | 19.05 | 19.05 | 20.64 | 8 | 8 | 14 | 14 | 25 | 25 | 12 |
| 12 | 22.225 | 22.225 | 23.81 | 8 | 8 | 13 | 13 | 25 | 25 | 12 |
| 14 | 25.4 | 25.4 | 26.99 | 10 | 10 | 16 | 16 | 24 | 24 | 14 |
| 16 | 28.575 | 28.575 | 28.58 | 9 | 9 | 15 | 15 | 24 | 24 | 15 |
| 18 | 31.75 | 31.75 | 31.75 | 9 | 9 | 15 | 15 | 24 | 24 | 15 |
| 20 | 34.925 | - | - | 9 | - | 15 | - | 24 | - | |
| 22 | 38.1 | - | - | 10 | - | 15 | - | 23 | - | |
(1) Steel, (2) Oil-free, (3) Stainless Steel Oil-free.
Performance info.
■Static Load Capacity of Rod End Bearings
| Bearing I.D. | Static Load Capacity Radial Ca (kN) | ||
|---|---|---|---|
| Steel | Oil-Free | Stainless Steel Oil Free | |
| 3 | - | 1.57 | - |
| 4 | - | 2.25 | - |
| 5 | 5.59 | 3.92 | 0.98 |
| 6 | 6.86 | 5 | 1.44 |
| 8 | 9.8 | 7.45 | 2.69 |
| 10 | 13.2 | 9.41 | 4.16 |
| 12 | 16.7 | 11 | 5.88 |
| 14 | 20.6 | 15.2 | 6.61 |
| 16 | 25 | 20.2 | 8.33 |
| 18 | 29.4 | 25.2 | 11.52 |
| 20 | 34.3 | 27.8 | - |
| 22 | 41.2 | 35.9 | - |
Small Ball Bearings Double Shielded
| Product name | Small/Deep Groove/Double Shielded |
|---|---|
| Part number | B608ZZ |
* Orange colored cells in the table below indicate the part numbers used in this example.
Selection criteria
Suitable in limited spaces.
Available sizes
■Small Ball Bearings (Double Shielded)
| Material |
|---|
| EN 1.3505 Equiv. |
■Sizes and Dimensions
| I.D. | O.D. | Thickness |
|---|---|---|
| 2 | 5 | 2.3 |
| 6 | 3.0 | |
| 7 | 3.5 | |
| 2.5 | 6 | 2.6 |
| 7 | 3.5 | |
| 3 | 6 | 2.5 |
| 7 | 3 | |
| 8 | 4 | |
| 9 | 5 | |
| 10 | 4 | |
| 13 | 5 | |
| 4 | 7 | 2.5 |
| 9 | 4 | |
| 11 | ||
| 12 | ||
| 13 | 5 | |
| 16 | ||
| 5 | 8 | 2.5 |
| 11 | 5 | |
| 13 | 4 | |
| 14 | 5 | |
| 16 | ||
| 19 | 6 | |
| 6 | 10 | 3 |
| 13 | 5 | |
| 15 | ||
| 17 | 6 | |
| 19 | ||
| 22 | 7 | |
| 8 | 12 | 3.5 |
| 16 | 5 | |
| 19 | 6 | |
| 22 | 7 | |
| 24 | 8 | |
| 28 | 9 |
Performance info.
■Speed and Load of Small Ball Bearings (Double Shielded)
| I.D. | Basic Load Rating | Allowable Rotational Speed | ||
|---|---|---|---|---|
| O.D. | Cr (Dynamic) N | Cor (Static) N | rpm | |
| 2 | 5 | 169 | 50 | 85000 |
| 6 | 330 | 98 | 75000 | |
| 7 | 385 | 127 | 60000 | |
| 2.5 | 6 | 208 | 74 | 71000 |
| 7 | 385 | 127 | 63000 | |
| 3 | 6 | 208 | 74 | 71000 |
| 7 | 390 | 130 | 63000 | |
| 8 | 560 | 179 | 60000 | |
| 9 | 570 | 187 | 56000 | |
| 10 | 630 | 218 | 50000 | |
| 13 | 1300 | 485 | 40000 | |
| 4 | 7 | 222 | 88 | 60000 |
| 9 | 640 | 224 | 53000 | |
| 11 | 715 | 276 | 48000 | |
| 12 | 957 | 350 | ||
| 13 | 1300 | 485 | 40000 | |
| 16 | 1340 | 523 | 36000 | |
| 5 | 8 | 218 | 131 | 53000 |
| 11 | 715 | 281 | 45000 | |
| 13 | 1080 | 430 | 43000 | |
| 14 | 1330 | 505 | 40000 | |
| 16 | 1730 | 670 | 36000 | |
| 19 | 2336 | 835 | 32000 | |
| 6 | 10 | 495 | 218 | 45000 |
| 13 | 1080 | 440 | 40000 | |
| 15 | 1350 | 530 | ||
| 17 | 2190 | 835 | 38000 | |
| 19 | 2340 | 885 | 32000 | |
| 22 | 3333 | 1423 | 30000 | |
| 8 | 12 | 543 | 274 | 40000 |
| 16 | 1610 | 710 | 36000 | |
| 19 | 1990 | 865 | ||
| 22 | 3350 | 1400 | 34000 | |
| 24 | 4000 | 1590 | 28000 | |
| 28 | 4563 | 1983 | ||
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Application Overview
Purpose
- Purpose
- To lift workpieces and feed them to the next process.
- Operation
- The workpieces are fed from the previous process by a robot arm.
The lifter lifts up and stops at an appropriate height level of the next feeding machine.
- The workpieces are fed from the previous process by a robot arm.
Points for use
- Class 100 Transfer of glass substrates in a clean room that is controlled in accordance with Class 100 requirements.
Target workpiece
- Shape: Glass substrate
- Size: t0.5 x W350 x D360mm
Design Specifications
Operating Conditions or Design Requirements
- Lifter stroke: 118mm
- External dimensions: W655 x D350 x H289mm
Required Performance
- Load: Workpiece+base = 35N
Selection Criteria for Main Components
- Select a servo motor that can lift the load 35N at a speed of 5mm/s.
Design Evaluation
Verification of main components
- Select a motor that satisfies the load inertia and load torque.
- Calculation of the load inertia applied to the motor shaft.
- Conditions (values): Reducer Inertia JMG = 0.041kg・cm², brake inertia JMB = 0.006kg・cm², coupling inertia JC = 0.728kg・cm², other output shafts inertia JO = 5.000kg・cm², sprocket inertia JZ = 7.658kg・cm², movable unit inertia JF2 = 0.290kg・cm², reduction ratio = 1/nm = 25/484.
- The load inertia applied to the shaft, JL, is expressed by JL = JMG + JMB + JF2 + (JC + JO + JZ) x (1/nm)2 (JL = 0.041 + 0.006 + 0.290 + (0.728 + 5 + 7.658) x (25/484)² = 0.373kg・cm²).
- The inertia ratio, m, is expressed by m = JL/JM (m = 0.373/0.078 = 4.8 < 17 times (motor specification recommendation value)).
- Servo motor moment of inertia, JM, is 0.078kg・cm² (according to the catalog).
- Torque calculation in lifting and acceleration
- Conditions (values): Drive efficiency η = 0.700, motor rotation speed No = 369.748r/min, acceleration time Tsa = 0.693s, load torque applied to the motor shaft TL = 0.064N・m
- Torque TMa in lifting and acceleration is expressed by TMa = ((((JL/η) + JM) x No)/(9.55 x 104 x Tsa)) + TL (TMa = ((((0.373/0.7) + 0.078) x 369.748)/(9.55 x 104 x 0.693)) + 0.064 = 0.067N・m)
- The torque reaches its peak in lifting and acceleration. Since the rated torque is Ttyp = 0.32N・m, the peak load ratio Rp is expressed by Rp = (Tma/Ttyp) x 100 (Rp = (0.067/0.32) x 100 = 20.94%)
- When the effective load torque is derived from the torques in each operation pattern, the rated torque becomes 0.064N・m < 0.32N・m
Other Design Consideration
- Motor is mounted below the workpiece unit to avoid dust contamination generated by the motor.
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