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產(chǎn)品名稱:precizika光柵尺|precizika光柵尺價(jià)格|precizika光柵尺維修
產(chǎn)品型號(hào):
更新時(shí)間:2024-03-18
產(chǎn)品特點(diǎn):precizika光柵尺|precizika光柵尺價(jià)格|precizika光柵尺維修。precizika光柵尺廠家、precizika光柵尺型號(hào)、precizika光柵尺、precizika光柵尺使用說明書、precizika光柵尺接線方式圖、維修銷售precizika光柵尺。precizika立陶宛光柵尺、數(shù)顯表、編碼器*區(qū):蘇州澤升*密機(jī)械儀器有限:
precizika光柵尺|precizika光柵尺價(jià)格|precizika光柵尺維修的詳細(xì)資料:
precizika光柵尺|precizika光柵尺價(jià)格|precizika光柵尺維修。precizika光柵尺廠家、precizika光柵尺型號(hào)、precizika光柵尺、precizika光柵尺使用說明書、precizika光柵尺接線方式圖、維修銷售precizika光柵尺。precizika立陶宛光柵尺、數(shù)顯表、編碼器*區(qū):蘇州澤升*密機(jī)械儀器有限:。
*、precizika光柵尺|precizika光柵尺價(jià)格|precizika光柵尺維修產(chǎn)品規(guī)格型號(hào)及技術(shù)參數(shù):
L18
The sealed linear encoder L18 is used to convert linear displacements of key machine components into electrical signals containing information about the value and direction of the displacement.
The encoder consists of a glass scale installed into a rigid hollow housing and a ball-bearing-guided reading head. To be able to work in harsh environments (lubricants and chips), the encoder has sealing lips.
Filtered air can be supplied into the housing of the encoder for extra protection.
The photoelectric unit of the reading head generates sinusoidal micro-current or TTL square-wave (standard RS422) output signals.
Three versions of output signals are available:
• L18-A - Sinusoidal signals, with amplitude approx. 11 μApp, require external subdividing electronics.
• L18-AV - Sinusoidal signals, with amplitude approx. 1 Vpp, require external subdividing electronics.
• L18-F - Square-wave, with integrated subdividing electronics for interpolation x1, x2, x5, x10, x 25, x50.
MECHANICAL DATA
Measuring lengths (ML), mm | 70; 120; 170; 220; 270; 320; 370; 420; 520; 620; 720; 820; 920; 1020; 1140; 1240 (other intermenate lenghts on request) |
Accuracy grades to any meter within the ML (at 20°C) | ± 10; ±5; ±3 μm (optional) |
Grating period | 20 μm; 40 μm (optional) |
Reference marks (RI) | - standard for ML ≤ 1020 mm: 35 mm from both ends of ML - standard for ML > 1140 mm: 45 mm from both ends of ML - optional: one RI at any location, or two or more RI's separated by distances of n x 50 mm or distance-coded |
Max. traversing speed | - when interpolation factor is 1,2,5,10: 1 m/s - when interpolation factor is 25: 0.5 m/s - when interpolation factor is 50: 0.4 m/s |
Required moving force with sealing lips | < 3 N |
Protection (IEC 529) | - without compressed air: IP53 - with compressed air (optional): IP64 |
Weight | 0.4 kg + 0.8 kg/m |
Operating temperature | 0...+50°C |
Storage temperature | -20...+70°C |
Permissible vibration (40 to 2000 Hz) | ≤ 30 m/s² |
ELECTRICAL DATA
Version | L18-A ∫ 11 µApp | L18-AV ∫ 1 Vpp | L18-F Π TTL |
Supply voltage | + 5 V ± 5 % / <90 mA | + 5 V ± 5 % / < 120 mA | + 5 V ± 5 % / < 120 mA |
Light source | LED | LED | LED |
Incremental signals | Two sinusoidal I1 and I2 | Differential sine +A / -A and +B / -B Amplitude at 120 kΩ load: - A = 0.6 - 1.2 V - B = 0.6 - 1.2 V | Differential square-wave U1 /U1 and U2 / U2. Signal levels at 20 mA load current: |
Reference signal | One quasi-triangular I0 peek per revolution. Signal magnitude at 1 kW load: | One quasi-triangular +R and its complementary -R per revolution. Signals magnitude at 120 W load: | One differential square-wave U0 / U0 per revolution. Signal levels at 20 mA load current: |
Maximum operating frequency |
| 50 kHz | 50xk kHz, when interpolation factor is 1,2,5,10 |
Direction of signals | I2 lags I1 for clockwise rotation (viewed from shaft side) |
| U2 lags with U1 in clockwise rotation (viewed from shaft side) |
Standard cable length | 3 m; without connector | 3 m; without connector | 3 m; without connector |
Maximum cable length | 5 m | 25 m | 25 m |
ACCESSORIES
DRAWINGS
ORDER FORM
L18B
The sealed linear encoder L18B is used to convert linear displacements of key machine components into electrical signals containing information about the value and direction of the displacement.
The encoder consists of a glass scale installed into a rigid hollow housing and a ball-bearing-guided reading head. To be able to work in harsh environments (lubricants and chips), the encoder has sealing lips.
The photoelectric unit of the reading head generates sinusoidal micro-current or TTL square-wave (standard RS422) output signals.
Three versions of output signals are available:
• L18B-A - Sinusoidal signals, with amplitude approx. 11 μApp, require an external subdividing electronics.
• L18B-AV - Sinusoidal signals, with amplitude approx. 1 Vpp, require external subdividing electronics.
• L18B-F - Square-wave signals, with integrated subdividing electronics for interpolation x1, x2, x5, x10, x25, x50.
MECHANICAL DATA
Measuring lengths (ML), mm | 70; 120; 170; 220; 270; 320; 370; 420; 470; 520; 620; 720; 820; 920; 1020; 1140; 1240; 1340; 1440; 1540; 1640; 1740; 1840; 1940; 2040; 2140; 2240; 2340; 2440; 2540; 2640; 2740; 2840; 2940; 3040; 3140; 3240
|
Accuracy grades to any meter within the ML (at 20°C) | - for ML 70 to 2040: ± 10; ±5 μm (optional) |
Grating period | 20 μm; 40 μm (optional) |
Reference marks (RI) | - standard for ML ≤ 1020 mm: 35 mm from both ends of ML |
Max. traversing speed | - when interpolation factor is 1,2,5,10: 1 m/s |
Required moving force with sealing lips | < 3 N |
Protection (IEC 529) | - without compressed air: IP53 - with compressed air (optional): IP64 |
Weight | 0.4 kg + 1.0 kg/m |
Operating temperature | 0...+50°C |
Storage temperature | -20...+70°C |
Permissible vibration (40 to 2000 Hz) | ≤ 30 m/s² |
Permissible shock (11 ms) | ≤ 100 m/s² |
ELECTRICAL DATA
Version | L18B-A ∫ 11 µApp | L18B-AV ∫ 1 Vpp | L18B-F Π TTL |
Supply voltage | + 5 V ± 5 % / < 90 mA | + 5 V ± 5 % / < 120 mA | + 5 V ± 5 % / < 120 mA |
Light source | LED | LED | LED |
Resolution | Depends on external subdividing electronics | Depends on external subdividing electronics | 5; 1; 2.5; 0.5; 0.2; 0.1 µm (after 4 - fold dividing in subsequent electronics) |
Incremental signals | Two sinusoidal I1 and I2 | Differential sine +A / -A and +B / -B Amplitude at 120 kΩ load: - A = 0.6 - 1.2 V - B = 0.6 - 1.2 V | Differential square-wave U1 /U1 and U2 / U2. Signal levels at 20 mA load current: |
Reference signal | One quasi-triangular I0 peek per revolution. Signal magnitude at 1 kW load: | One quasi-triangular +R and its complementary -R per revolution. Signals magnitude at 120 W load: | One differential square-wave U0 / U0 per revolution. Signal levels at 20 mA load current:
|
Maximum operating frequency | 50 kHz
| 50 kHz
| 50xk kHz, when interpolation factor is 1,2,5,10 1000 kHz, when interpolation factor is 25, 50 |
Direction of signals | I2 lags I1 at reading head displacement from left to right | + B lags + A at reading head displacement from left to right | U2 lags with U1 at reading head displacement from left to right |
Maximum rise and fall time | - | - | < 0.5 μs |
Standard cable length | 3 m; without connector | 3 m; without connector | 3 m; without connector |
Maximum cable length | 5 m | 25 m | 25 m |
ACCESSORIES
DRAWINGS
ORDER FORM
L18C
The sealed linear encoder L18C is used to convert linear displacements of key machine components into electrical signals containing information about the value and direction of the displacement.
The encoder consists of a glass scale installed into a rigid hollow housing and a ball-bearing-guided reading head. To be able to work in harsh environments (lubricants and chips), the encoder has sealing lips. Filtered air can be supplied into the housing of the encoder for extra protection.
The photoelectric unit of the reading head generates sinusoidal micro-current or TTL square-wave (standard RS422) output signals.
Two versions of output signals are available:
• L18C-A sinusoidal signals, with amplitude not smaller than 15 μApp, require an external subdividing electronics.
• L18C-F square-wave signals (TTL), with integrated subdividing electronics for interpolation x1, x2, x5, x10, x25, x50.
MECHANICAL DATA
Measuring lengths (ML), mm | 70; 120; 170; 220; 270; 320; 370; 420; 470; 520; 620; 720; 820; 920; 1020; 1140; 1240; 1340; 1440; 1540; 1640; 1740; 1840; 1940; 2040; 2140; 2240; 2340; 2440; 2540; 2640; 2740; 2840; 2940; 3040; 3140; 3240
|
Accuracy grades to any meter within the ML (at 20°C) | - for ML 70 to 2040: ± 10; ±5 μm |
Grating period | 20 μm; 40 μm (optional) |
Reference marks (RI) | - standard S1: middle of ML ± 2 mm
|
Max. traversing speed | - when interpolation factor is 1,2,5,10: 1 m/s - when interpolation factor is 25: 0.5 m/s - when interpolation factor is 50: 0.4 m/s |
Required moving force with sealing lips | < 3 N |
Protection (IEC 529) | - without compressed air: IP53 - with compressed air (optional): IP64 |
Weight | 0.4 kg + 1.0 kg/m |
Operating temperature | 0...+50°C |
Storage temperature | -20...+70°C |
Permissible vibration (40 to 2000 Hz) | ≤ 30 m/s² |
Permissible shock (11 ms) | ≤ 100 m/s² |
ELECTRICAL DATA
Version | L18C-A ∫ 11 µApp | L18C-AV ∫ 1 Vpp | L18C-F Π TTL |
Supply voltage | + 5 V ± 5 % / < 90 mA | + 5 V ± 5 % / < 120 mA | + 5 V ± 5 % / < 120 mA |
Light source | LED | LED | LED |
Resolution | Depends on external subdividing electronics | Depends on external subdividing electronics | 5; 1; 2.5; 0.5; 0.2; 0.1 µm (after 4 - fold dividing in subsequent electronics) |
Incremental signals | Two sinusoidal I1 and I2 | Differential sine +A / -A and +B / -B Amplitude at 120 kΩ load: - A = 0.6 - 1.2 V - B = 0.6 - 1.2 V | Differential square-wave U1 /U1 and U2 / U2. Signal levels at 20 mA load current: |
Reference signal | One quasi-triangular I0 peek per revolution. Signal magnitude at 1 kW load: | One quasi-triangular +R and its complementary -R per revolution. Signals magnitude at 120 W load: | One differential square-wave U0 / U0 per revolution. Signal levels at 20 mA load current:
|
Maximum operating frequency | 50 kHz
| 50 kHz
| 50xk kHz, when interpolation factor is 1,2,5,10 1000 kHz, when interpolation factor is 25, 50 |
Direction of signals | I2 lags I1 at reading head displacement from left to right | + B lags + A at reading head displacement from left to right | U2 lags with U1 at reading head displacement from left to right |
Standard cable length | 3 m; without connector | 3 m; without connector | 3 m; without connector |
Maximum cable length | 5 m | 25 m | 25 m |
ACCESSORIES
DRAWINGS
ORDER FORM
L18T
The sealed linear encoder L18T is used to convert linear displacements of key machine components into electrical signals containing information about the value and direction of the displacement. The difference from encoder L18 series is that it has the other housing fixation and more stable thermal behaviour.
The encoder consists of a glass scale installed into a rigid hollow housing and a ball-bearing-guided reading head. To be able to work in harsh environments (lubricants and chips), the encoder has sealing lips. Filtered air can be supplied into the housing of the encoder for extra protection.
The photoelectric unit of the reading head generates sinusoidal micro-current or TTL square-wave (standard RS422) output signals.
Three versions of output signals are available:
• L18T-A - Sinusoidal signals, with amplitude approx. 11 μApp, require external subdividing electronics.
• L18T-AV - Sinusoidal signals, with amplitude approx. 1 Vpp, require external subdividing electronics.
• L18T- F - Square-wave, with integrated subdividing electronics for interpolation x1, x2, x5, x10, x 25, x50.
MECHANICAL DATA
Measuring lengths (ML), mm | 70; 120; 170; 220; 270; 320; 370; 420; 470; 520; 620; 720; 820; 920; 1020; 1140; 1240 |
Accuracy grades to any meter within the ML (at 20°C) | ± 10; ± 5; ± 3 μm (optional) |
Grating period | 20 μm; 40 μm (optional) |
Reference marks (RI) | - standard for ML ≤ 1020 mm: 35 mm from both ends of ML |
Max. traversing speed | - when interpolation factor is 1,2,5,10: 1 m/s |
Required moving force with sealing lips | < 3 N |
Protection (IEC 529) | - without compressed air: IP53 - with compressed air (optional): IP64 |
Weight | 0.4 kg + 0.8 kg/m |
Operating temperature | 0...+50°C |
Storage temperature | -20...+70°C |
Permissible vibration (40 to 2000 Hz) | ≤ 30 m/s² |
Permissible shock (11 ms) | ≤ 100 m/s² |
ELECTRICAL DATA
Version | L18T-A ∫ 11 µApp | L18T-AV ∫ 1 Vpp | L18T-F Π TTL |
Supply voltage | + 5 V ± 5 % / < 90 mA | + 5 V ± 5 % / < 120 mA | + 5 V ± 5 % / < 120 mA |
Light source | LED | LED | LED |
Resolution | Depends on external subdividing electronics | Depends on external subdividing electronics | 5; 1; 2.5; 0.5; 0.2; 0.1 µm (after 4 - fold dividing in subsequent electronics) |
Incremental signals | Two sinusoidal I1 and I2 | Differential sine +A / -A and +B / -B Amplitude at 120 kΩ load: - A = 0.6 - 1.2 V - B = 0.6 - 1.2 V | Differential square-wave U1 /U1 and U2 / U2. Signal levels at 20 mA load current: |
Reference signal | One quasi-triangular I0 peek per revolution. Signal magnitude at 1 kW load: | One quasi-triangular +R and its complementary -R per revolution. Signals magnitude at 120 W load: | One differential square-wave U0 / U0 per revolution. Signal levels at 20 mA load current: |
Maximum operating frequency | 50 kHz
| 50 kHz
| 50xk kHz, when interpolation factor is 1,2,5,10 1000 kHz, when interpolation factor is 25, 50 |
Direction of signals | I2 lags I1 at reading head displacement from left to right | + B lags + A at reading head displacement from left to right | U2 lags with U1 at reading head displacement from left to right |
Standard cable length | 3 m; without connector | 3 m; without connector | 3 m; without connector |
Maximum cable length | 5 m | 25 m | 25 m |
ACCESSORIES
DRAWINGS
ORDER FORM
L23
Modular sealed photoelectric linear encoder L23 has measuring length up to 20 meters and more on special order.
The encoder is used to convert linear displacements of machine key components into electrical signals containing information about the value and direction of the displacement.
The encoder operates in reflected from metal band light beam. Metal band with made on its surface grating scale is fixed in rigid aluminium housing with double protection lips.
The encoder consists of several separate modules with length up to 3,0 m, which are jointed together, and reading head.
The standard encoder has three square-wave TTL output signals: 2 main signals, shifted by 90 degrees and one reference signal.
MECHANICAL DATA
Measuring lengths (ML), mm | 250, 300, 350, 400, 450, 500...20000 (more on option) |
Accuracy grades to any meter within the ML (at 20°C) | ± 10; ± 5; ± 3 μm (optional) |
Grating period | 400 μm; 40 μm; 20 μm |
Reference marks (RI) | - N: without reference mark |
Max. traversing speed | - when T = 400 μm and resolution 100, 50, 10 μm: 120 m/min |
Required moving force with sealing lips | < 4 N |
Protection (IEC 529) | - without compressed air: IP54 - with compressed air (optional): IP64 |
Weight | 0.4 kg + 2.8 kg/m |
Operating temperature | 0...+50°C |
Storage temperature | -20...+70°C |
Permissible vibration (10 to 2000 Hz) | ≤ 100 m/s² |
Permissible shock (11 ms) | ≤ 150 m/s² |
Coefficient of thermal expansion | 10.6 x 10-6 °C |
ELECTRICAL DATA
Version | L23-F Π (TTL or HTL) |
Supply voltage | + 5 V ± 5 %; 65 mA + 12 V ± 5 %; 65 mA |
Light source | LED |
Resolution | 100, 50, 10, 5, 1, 0.5 μm (after 4 - fold in subsequent electronics) |
Incremental signals | Differential square-wave U1 / U1 and U2 / U2 |
Reference signal | Differential square-wave U0 / U0 |
Signal levels at load current 20 mA | - low (logic "0") < 0.5 V at Up = ±5V |
Direction of signals | U2 lags with U1 (displacement from left to right and head position down) |
Standard cable length | 4 m armored; without connector |
Maximum cable length | 25 m |
ACCESSORIES
DRAWINGS
ORDER FORM
LK24
The sealed absolute photoelectric encoder LK24 is used to convert linear displacements of key machine components into electrical signals containing information about components absolute position.
The encoder consists of a glass scale installed into a rigid hollow housing and a ball-bearing guided reading head. To be able to work in harsh environments (lubricants and chips), the encoder has double level sealing lips. Filtered air can be supplied into the housing of the encoder for extra protection.
The encoder has two versions of serial interface SSI or BiSS C. On option third encoder version is available: with 2 analog sinusoidal signals with phase shift 90 o and amplitude approx. 1Vpp.
MECHANICAL AND ELECTRICAL DATA
Measuring lengths (ML), mm | 70; 120; 170; 220; 270; 320; 370; 420; 470; 520; 570; 620; 720; 770; 820; 920; 1024; 1140; 1240; 1340; 1440; 1540; 1640; 1740; 1840; 2040; 2240; 2440; 2640; 2840; 3040; 3240. |
Accuracy grades to any meter within the ML (at 20°C) | ± 3 μm; ± 1 μm |
Grating pitch | 20 μm |
Resolution 1 Vpp | up to 0.1 μm (depending on CNC division factor) |
Resolution absolute measure | 1 μm; 0.1 μm |
Incremental signal | sine wave 1 Vpp (optional) |
Serial interface | SSI or BiSS |
Max. traversing speed | 120 m/min |
Max. acceleration | 30 m/s2 |
Required moving force | < 4 N; ≤ 2.5 N on request |
Protection (IEC 529) | - without compressed air: IP54 - with compressed air: IP64 |
Weight | 0.42 kg + 1.32 kg/m |
Operating temperature | 0...+50°C |
Storage temperature | -20...+70°C |
Permissible vibration (55 to 2000 Hz) | 100 m/s² |
Permissible shock (11 ms) | 150 m/s² |
Permissible humidity (non condensed) | 20...80% |
Power supply | + 5V; ± 5% |
Standard cable length/max. cable length | 2.0 / 25.0 (100m. if power supply is min. 5V) |
Electrical protections | from inversion of power supply polarity; from short circuit on output port |
ACCESSORIES
DRAWINGS
TYPICAL APPLICATIONS
DOWNLOADS
ORDER FORM
L35
The precision sealed linear encoder L35 is used to convert linear displacements of key machine components into electrical signals containing information about the value and direction of the displacements.
The encoder consists of a glass scale installed into a rigid hollow housing and a ball-bearing-guided reading head. To be able to work in harsh environments (cooling liquid, lubricants and chips), the encoder has two rows of sealing lips. Filtered air can be supplied into the housing of the encoder for extra protection from dust.
Characteristic feature of encoder is a rigid housing that provides better resistance to vibration and higher protection grade due two pairs of sealing lips.
Reference mark can be selected by magnet, which moves in horizontal groove on the front side of encoder (optional).
Three versions of output signals are available:
• L35-A - sinusoidal signals, with amplitude approx. 11 μApp.
• L35-AV- sinusoidal signals, with amplitude approx. 1 Vpp.
• L35-F - square-wave signals, type TTL or HTL (standard RS422) with integrated subdividing electronics for interpolation x1, x2, x5, x10, x25, x50.
MECHANICAL DATA
Measuring lengths (ML), mm | 170; 220; 270; 320; 370; 420; 470; 520; 620; 720; 820; 920; 1020; 1140; 1240; 1340; 1440; 1540; 1640; 1740; 1840; 1940; 2040; 2140; 2240; 2340; 2440; 2540; 2640; 2740; 2840; 2940; 3040; 3140; 3240 |
Accuracy grades to any meter within the ML (at 20°C) | - for ML 170 to 2040 mm: ± 5; ±3; ±2 μm |
Grating period | 20 μm; 40 μm |
Reference marks (RI) | - standard for ML ≤ 1020 mm: 35 mm from both ends of ML |
Max. traversing speed | - when interpolation factor is 1,2,5,10: 1 m/s (shortly 2m/s) |
Required moving force with sealing lips | < 5 N |
Protection (IEC 529) | - without compressed air: IP54 - with compressed air (optional): IP64 |
Weight | 0.4 kg + 2.8 kg/m |
Operating temperature | 0...+50°C |
Storage temperature | -20...+70°C |
Permissible vibration (40 to 2000 Hz) | ≤ 150 m/s² |
Permissible shock (11 ms) | ≤ 300 m/s² |
ELECTRICAL DATA
Version | L35-A ∫ 11µApp | L35-AV ∫ 1 Vpp | L35-F Π TTL; Π HTL |
Supply voltage | + 5 V ± 5 % / < 90 mA | + 5 V ± 5 % / < 90 mA | + 5 V ± 5 % / < 120 mA; + 12 V ±5% / < 130 mA |
Light source | LED | LED | LED |
Resolution | Depends on external subdividing electronics | Depends on external subdividing electronics | 5; 2.5; 1; 0.5; 0.2; 0.1 μm (after 4 - fold dividing in subsequent electronics) |
Incremental signals | Two sinusoidal I1 and I2 | Differential sine +A / -A and +B / -B Amplitude at 120 kΩ load: - A = 0.6 - 1.2 V - B = 0.6 - 1.2 V | Differential square-wave U1 / U1and U2 / U2. Signal levels at 20 mA load current: |
Reference signal | One quasi-triangular I0 peek per revolution. Signal magnitude at 1 kΩ load: | One quasi-triangular +R and its complementary -R per revolution. Signals magnitude at 120 Ω load: | One differential square-wave U0 / U0 per revolution. Signal levels at 20 mA load current: |
Maximum operating frequency | 50 kHz (v=1 m/s) | 50 kHz (v=1 m/s) | (50xk) kHz for k = 1, 2, 5, 10 100 kHz for k = 25, 50 |
Direction of signals | I2 lags I | + B lags + A | U2 lags U1 (displacement from left to right and head position down respective glass scale) |
Standard cable length | 3 m; without connector | 3 m; without connector | 3 m; without connector |
Maximum cable length | 5 m | 25 m | 25 m |
ACCESSORIES
DRAWINGS
TYPICAL APPLICATIONS
DOWNLOADS
ORDER FORM
L35T
The precision sealed linear encoder L35T is used to convert linear displacements of key machine components into electrical signals containing information about the value and direction of the displacements.
The encoder consists of a glass scale installed into a rigid hollow housing and a ball-bearing-guided reading head. To be able to work in harsh environments (cooling liquid, lubricants and chips), the encoder has two rows of sealing lips. Filtered compressed air can be supplied into the housing of encoder for extra protection from dust.
Characteristic feature of encoder is a rigid housing that provides better resistance to vibration and higher protection grade due two pairs of sealing lips.
Mounting of encoder on the object is made through two end housings with built-in devices to enhance the thermal stability.
Reference marks can be selected by magnet, which moves in horizontal groove on the front side of encoder (optional).
Three versions of output signals are available:
• L35T-A - sinusoidal signals, with amplitude approx. 11 μApp.
• L35T-AV -sinusoidal signals, with amplitude approx. 1 Vpp.
• L35T-F - square-wave signals, type TTL or HTL (standard RS422) with integrated subdividing electronics for interpolation x1, x2, x5, x10, x25, x50.
MECHANICAL DATA
Measuring lengths (ML), mm | 170; 220; 270; 320; 370; 420; 470; 520; 620; 720; 820; 920; 1020; 1140; 1240; 1340; 1440; 1540; 1640; 1740; 1840; 1940; 2040; 2140; 2240; 2340; 2440; 2540; 2640; 2740; 2840; 2940; 3040; 3140; 3240 |
Accuracy grades to any meter within the ML (at 20°C) | - for ML 170 to 2040 mm: ± 5; ±3; ±2 μm |
Grating period | 20 μm; 40 μm |
Reference marks (RI) | - standard for ML ≤ 1020 mm: 35 mm from both ends of ML |
Max. traversing speed | - when interpolation factor is 1,2,5,10: 1 m/s (shortly 2m/s) |
Required moving force with sealing lips | < 5 N |
Protection (IEC 529) | - without compressed air: IP54 - with compressed air (optional): IP64 |
Weight | 0.4 kg + 2.8 kg/m |
Operating temperature | 0...+50°C |
Storage temperature | -20...+70°C |
Permissible vibration (40 to 2000 Hz) | ≤ 150 m/s² |
Permissible shock (11 ms) | ≤ 300 m/s² |
ELECTRICAL DATA
Version | L35T-A ∫ µApp | L35-AV ∫ 1 Vpp | L35T-F Π TTL; Π HTL |
Supply voltage | + 5 V ± 5 % / < 90 mA | + 5 V ± 5 % / < 90 mA | + 5 V ± 5 % / < 120 mA; + 12 V ±5% / < 130 mA |
Light source | LED | LED | LED |
Resolution | Depends on external subdividing electronics | Depends on external subdividing electronics |
|
Incremental signals | Two sinusoidal I1 and I2 | Differential sine +A / -A and +B / -B Amplitude at 120 kΩ load: - A = 0.6 - 1.2 V - B = 0.6 - 1.2 V | Differential square-wave U1 / U1and U2 / U2. Signal levels at 20 mA load current: |
Reference signal | One quasi-triangular I0 peek per revolution. Signal magnitude at 1 kΩ load: | One quasi-triangular +R and its complementary -R per revolution. Signals magnitude at 120 Ω load: | One differential square-wave U0 / U0 per revolution. Signal levels at 20 mA load current: |
Maximum operating frequency |
| 50 kHz (v=1 m/s) | (50xk) kHz for k = 1, 2, 5, 10 100 kHz for k = 25, 50 |
Direction of signals | I2 lags I | + B lags + A | U2 lags U1 (displacement from left to right and head position down respective glass scale) |
Standard cable length | 3 m; without connector | 3 m; without connector | 3 m; without connector |
Maximum cable length | 5 m | 25 m | 25 m |
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L37
The precision sealed linear encoder L37 is used to convert linear displacements of key machine components into electrical signals containing information about the value and direction of the displacements.
The encoder consists of a glass scale installed into a rigid hollow housing and a ball-bearing-guided reading head. To be able to work in harsh environments (cooling liquid, lubricants and chips), the encoder has two rows of sealing lips. Filtered air can be supplied into the housing of the encoder for extra protection from dust. The photoelectric unit of the reading head generates sinusoidal micro-current or square-wave output signals.
Characteristic feature of encoder is a rigid housing that provides better resistance to vibration and higher protection grade due to two pairs of sealing lips.
L37 is fixed to the mounting surface at the midpoint. Reproducible thermal behavior is permitted by flexible fastening elements.
Reference mark can be selected by magnet, which moves in horizontal groove on the front side of encoder (optional).
Three versions of output signals are available:
- L37-А - sinusoidal signals, with amplitude approx. 11 μApp, require an external subdividing electronics.
- L37-АV- sinusoidal signals, with amplitude approx. 1 Vpp, require an external subdividing electronics.
- L37-F - square-wave signals, type TTL or HTL (standard RS422) with integrated subdividing electronics for interpolation x1, x2, x5, x10, x25, x50.
MECHANICAL DATA
Measuring lengths (ML), mm | 140; 240; 340; 440; 540; 640; 740; 840; 940; 1.040; 1.140; 1.240; 1.340; 1.440; 1.540; 1.640; 1.740; 1.840; 2.040; 2.240; 2.440; 2.640; 2.840; 3.040; 3.240 |
Accuracy grades to any meter within the ML (at 20°C) | - for ML 140 to 2040 mm: ± 5; ± 3 (optional) |
Grating period | 20 μm; 40 μm |
Reference marks (RI) | - every 50 mm. |
Max. traversing speed | - when interpolation factor is 1,2,5,10: 1 m/s (shortly 2m/s) |
Required moving force with sealing lips | < 5 N |
Protection (IEC 529) | - without compressed air: IP54 - with compressed air (optional): IP64 |
Weight | 0.4 kg + 2.8 kg/m |
Operating temperature | 0...+50°C |
Storage temperature | -20...+70°C |
Permissible vibration (40 to 2000 Hz) | ≤ 150 m/s² |
Permissible shock (11 ms) | ≤ 300 m/s² |
ELECTRICAL DATA
Version | L37-A 11µApp | L37-AV 1Vpp | L37-F TTL; HTL |
Supply voltage | + 5 V ± 5 % / < 90 mA | + 5 V ± 5 % / < 120 mA | + 5 V ± 5 % / < 120 mA; + 12 V ±5% / < 130 mA |
Light source | LED | LED | LED |
Resolution | Depends on external subdividing electronics | Depends on external subdividing electronics | 5; 2.5; 1; 0.5; 0.2; 0.1 μm (after 4 - fold dividing in subsequent electronics) |
Incremental signals | Two sinusoidal I1 and I2 | Differential sine +A / -A and +B / -B Amplitude at 120 kΩ load: - A = 0.6 - 1.2 V - B = 0.6 - 1.2 V | Differential square-wave U1 / U1and U2 / U2. Signal levels at 20 mA load current: |
Reference signal | One quasi-triangular I0 peek per revolution. Signal magnitude at 1 kΩ load: | One quasi-triangular +R and its complementary -R per revolution. Signals magnitude at 120 Ω load: | One differential square-wave U0 / U0 per revolution. Signal levels at 20 mA load current: |
Maximum operating frequency | 50 kHz (v=1 m/s) | 50 kHz (v=1 m/s) | (50xk) kHz for k = 1, 2, 5, 10 100 kHz for k = 25, 50 |
Direction of signals (displacement from left to right) | I2 lags I | + B lags + A | U2 lags U1 (displacement from left to right and head position down respective glass scale) |
Standard cable length | 3 m; without connector | 3 m; without connector | 3 m; without connector |
Maximum cable length | 5 m | 25 m | 25 m |
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L50
Modular photoelectric sealed linear encoder L50 has measuring length from 3240 mm up to 30040 mm.
The encoder is used to convert linear displacements of key machine components into electrical signals containing information about the value and direction of the displacement.
The encoder determines position by detecting light reflected of a metal band. Metal band with 40 μm pitch scale is fixed in rigid aluminium housing with protection lips.
The encoder consists of several separate rigid modules with length up to 2.0 m, which are joined together, and reading head.
Two versions of output signals are available:
•- L50-AV - Sinusoidal signals, with amplitude approx. 1 Vpp, require external
• subdividing electronics. Resolution 0.1 μm is possible with respective external electronics.
•- L50-F - Square-wave signals, with integrated subdividing electronics for interpolation x1, x2, x5, x10.
MECHANICAL DATA
Measuring lengths (ML), mm | from 3240 up to 30040 (length of each module with steps 200 mm) |
Accuracy grades to any meter within the ML (at 20°C) | ± 10 μm/m |
Grating period | 40 μm |
Reference marks (RI) | - C: at coded distance 80 mm |
Max. traversing speed | 1 m/min |
Required moving force with sealing lips | < 6 N |
Protection (IEC 529) | - without compressed air: IP53 - with compressed air (optional): IP64 |
Weight | 1.8 kg + 3.3 kg/m |
Operating temperature | 0...+50°C |
Storage temperature | -20...+70°C |
Permissible vibration (40 to 2000 Hz) | ≤ 100 m/s² |
Permissible shock (11 ms) | ≤ 300 m/s² |
Coefficient of therman expansion | 10.6 x 10-6 °C |
ELECTRICAL DATA
Version | L50-AV ∫ 1 Vpp | L50-F Π TTL |
Supply voltage | + 5 V ± 5 % / 100 mA (120 Ω) | + 5 V ± 5 % / 150 mA (120 Ω) |
Light source | LED | LED |
Resolution | up to 0.1 µm depending on external subdividing electronics | 10; 5; 1; 0.5 μm (after 4 - fold dividing in subsequent electronics) |
Incremental signals | Differential sine +A / -A and +B / -B Amplitude at 120 kΩ load: - A = 0.6 - 1.2 V - B = 0.6 - 1.2 V | Differential square-wave U1 / U1 and U2 /U2. Signal levels at 20 mA load current: |
Reference signal | Quasi-triangular R magnitude at 120 Ω load: | One differential square-wave U0 / U0 per revolution. Signal levels at 20 mA load current: |
Direction of signals | B lags A at reading head displacement from left to right | U2 lags U1 at reading head displacement from left to right |
Standard cable length | 4 m | 4 m |
Maximum cable length | 150 m | 50 m |
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二、實(shí)物圖、安裝方法及使用注意事項(xiàng):
1、precizika立陶宛光柵尺實(shí)物圖:
2、precizika立陶宛光柵尺安裝指導(dǎo)
光柵尺線位移傳感器的安裝比較靈活,可安裝在機(jī)床的不同部位。
*般將主尺安裝在機(jī)床的工作臺(tái)(滑板)上,隨機(jī)床走刀而動(dòng),讀數(shù)頭固定在床身上,盡可能使讀數(shù)頭安裝在主尺的下方。其安裝方式的選擇必須注意切屑、切削液及油液的濺落方向。如果由于安裝位置限制必須采用讀數(shù)頭朝上的方式安裝時(shí),則必須增加輔助密封裝置。另外,*般情況下,讀數(shù)頭應(yīng)盡量安裝在相對(duì)機(jī)床靜止部件上,此時(shí)輸出導(dǎo)線不移動(dòng)易固定,而尺身則應(yīng)安裝在相對(duì)機(jī)床運(yùn)動(dòng)的部件上(如滑板)。
光柵尺線位移傳感器安裝基面
安裝光柵尺傳感器時(shí),不能直接將傳感器安裝在粗糙不平的機(jī)床身上,更不能安裝在打底涂漆的機(jī)床身上。光柵主尺及讀數(shù)頭分別安裝在機(jī)床相對(duì)運(yùn)動(dòng)的兩個(gè)部件上。用千分表檢查機(jī)床工作臺(tái)的主尺安裝面與導(dǎo)軌運(yùn)動(dòng)的方向平行度。千分表固定在床身上,移動(dòng)工作臺(tái),要求達(dá)到平行度為0.1mm/1000mm以內(nèi)。如果不能達(dá)到這個(gè)要求,則需設(shè)計(jì)加工*件光柵尺基座。
基座要求做到:(1)應(yīng)加*根與光柵尺尺身長度相等的基座(基座長出光柵尺50mm左右)。(2)該基座通過銑、磨工序加工,其平面平行度0.1mm/1000mm以內(nèi)。另外,還需加工*件與尺身基座等*的讀數(shù)頭基座。讀數(shù)頭的基座與尺身的基座總共誤差不得大于±0.2mm。安裝時(shí),調(diào)整讀數(shù)頭位置,達(dá)到讀數(shù)頭與光柵尺尺身的平行度為0.1mm左右,讀數(shù)頭與光柵尺尺身之間的間距為1~1.5mm左右。
光柵尺線位移傳感器主尺安裝
將光柵主尺用M4螺釘上在機(jī)床安裝的工作臺(tái)安裝面上,但不要上緊,把千分表固定在床身上,移動(dòng)工作臺(tái)(主尺與工作臺(tái)同時(shí)移動(dòng))。用千分表測量主尺平面與機(jī)床導(dǎo)軌運(yùn)動(dòng)方向的平行度,調(diào)整主尺M(jìn)4螺釘位置,使主尺平行度滿足0.1mm/1000mm以內(nèi)時(shí),把M2螺釘上緊。
在安裝光柵主尺時(shí),應(yīng)注意如下三點(diǎn):
(1) 在裝主尺時(shí),如安裝超過1.5M以上的光柵時(shí),不能象橋梁式只安裝兩端頭,尚需在整個(gè)主尺尺身中有支撐。(2)在有基座情況下安裝好后,用*個(gè)卡子卡住尺身中點(diǎn)(或幾點(diǎn))。(3)不能安裝卡子時(shí),用玻璃膠粘住光柵尺身,使基尺與主尺固定好。
光柵尺線位移傳感器讀數(shù)頭的安裝
在安裝讀數(shù)頭時(shí),*先應(yīng)讀數(shù)頭的基面達(dá)到安裝要求,然后再安裝讀數(shù)頭,其安裝方法與主尺相似。后調(diào)整讀數(shù)頭,使讀數(shù)頭與光柵主尺平行度在0.1mm之內(nèi),其讀數(shù)頭與主尺的間隙控制在1~1.5mm以內(nèi)。
光柵尺線位移傳感器限位裝置
光柵線位移傳感器全部安裝完以后,*定要在機(jī)床導(dǎo)軌上安裝限位裝置,以免機(jī)床加工產(chǎn)品移動(dòng)時(shí)讀數(shù)頭沖撞到主尺兩端,從而損壞光柵尺。另外,用戶在選購光柵線位移傳感器時(shí),應(yīng)盡量選用超出機(jī)床加工尺寸100mm左右的光柵尺,以留有余量。
光柵尺線位移傳感器檢查
光柵線位移傳感器安裝完畢后,可接通數(shù)顯表,移動(dòng)工作臺(tái),觀察數(shù)顯表計(jì)數(shù)是否正常。
在機(jī)床上選取*個(gè)參考位置,來回移動(dòng)工作點(diǎn)至該選取的位置。數(shù)顯表讀數(shù)應(yīng)相同(或回零)。另外也可使用千分表(或百分表),使千分表與數(shù)顯表同時(shí)調(diào)至零(或記憶起始數(shù)據(jù)),往返多次后回到初始位置,觀察數(shù)顯表與千分表的數(shù)據(jù)是否*。
通過以上工作,光柵尺線位移傳感器的安裝就完成了。但對(duì)于*般的機(jī)床加工環(huán)境來講,鐵屑、切削液及油污較多。因此,傳感器應(yīng)附帶加裝護(hù)罩,護(hù)罩的設(shè)計(jì)是按照傳感器的外形截面放大留*定的空間尺寸確定,護(hù)罩通常采用橡皮密封,使其具備*定的防水防油能力。
3、precizika立陶宛光柵尺使用注意事項(xiàng)
(1)光柵尺傳感器與數(shù)顯表插頭座插拔時(shí)應(yīng)關(guān)閉電源后進(jìn)行。
(2)盡可能外加保護(hù)罩,并及時(shí)清理濺落在尺上的切屑和油液,嚴(yán)格防止任何異物進(jìn)入光柵尺傳感器殼體內(nèi)部。
(3)定期檢查各安裝聯(lián)接螺釘是否松動(dòng)。
(4)為延長防塵密封條的壽命,可在密封條上均勻涂上*薄層硅油,注意勿濺落在玻璃光柵刻劃面上。
(5) 為光柵尺傳感器使用的可靠性,可每隔*定時(shí)間用酒*清洗擦拭光柵尺面及指示光柵面,保持玻璃光柵尺面清潔。
(6) 光柵尺傳感器嚴(yán)禁劇烈震動(dòng)及摔打,以免破壞光柵尺,如光柵尺斷裂,光柵尺傳感器即失效了。
(7) 不要自行拆開光柵尺傳感器,更不能任意改動(dòng)主柵尺與副柵尺的相對(duì)間距,否則*方面可能破壞光柵尺傳感器的*度;另*方面還可能造成主柵尺與副柵尺的相對(duì)摩擦,損壞鉻層也就損壞了柵線,以而造成光柵尺報(bào)廢。
(8) 應(yīng)注意防止油污及水污染光柵尺面,以免破壞光柵尺線條紋分布,引起測量誤差。
(9) 光柵尺傳感器應(yīng)盡量避免在有嚴(yán)重腐蝕作用的環(huán)境中工作,以免腐蝕光柵鉻層及光柵尺表面,破壞光柵尺質(zhì)量。
三、常見故障及維修內(nèi)容:
1、“軟斷線”報(bào)警。
2、移動(dòng)機(jī)床某*軸時(shí)發(fā)生“跟隨誤差過大”報(bào)警。
3、機(jī)床某*軸移動(dòng)時(shí)機(jī)床震動(dòng)比較厲害數(shù)據(jù)不平穩(wěn)。
4、光柵尺找不到原點(diǎn)(也稱零點(diǎn)或參考點(diǎn))。
5、在使用過程中產(chǎn)生25000異常報(bào)警。
6、機(jī)床某*軸光柵尺在測量過程中數(shù)據(jù)丟失或計(jì)數(shù)不準(zhǔn)。
7、開機(jī)后,出現(xiàn)某*軸正反方向運(yùn)動(dòng)正常,但機(jī)床無法進(jìn)行回參考點(diǎn)。
8、機(jī)床出現(xiàn)某*軸緩慢向正方向運(yùn)動(dòng),系統(tǒng)無報(bào)警。
9、某*軸在回參考點(diǎn)不準(zhǔn)的現(xiàn)象,但是使用半閉環(huán)回參考點(diǎn)*。
10、光柵尺出現(xiàn)“445”報(bào)警。
11、當(dāng)某*軸執(zhí)行返參考點(diǎn)指令時(shí),出現(xiàn)1160報(bào)警。
12、光柵尺不計(jì)數(shù)或者計(jì)數(shù)不準(zhǔn)。
、、、、、、
四、產(chǎn)品銷售、維修及網(wǎng)點(diǎn):
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保修*年(除天災(zāi)、電壓不穩(wěn)定、人為使用不當(dāng)不保修)
JSC Precizika Metrology普瑞斯卡*成立于1991年,是歐洲立陶宛與美國的*家合資*,歷史。從事設(shè)計(jì)、生產(chǎn)各種編碼器、光柵及光柵制品。PRECIZIKA的直線光柵和碼盤是歐美多數(shù)主流光柵尺和編碼器廠家的*關(guān)鍵部品,同時(shí)PRECIZIKA給他們做部分光柵尺和旋轉(zhuǎn)編碼器的OEM產(chǎn)品。PRECIZIKA產(chǎn)品的特點(diǎn)是*度*,分辨率*,質(zhì)量穩(wěn)定,*有系列光柵尺和編碼器產(chǎn)品都具有方波和正弦波兩種輸出方式可選擇。PRECIZIKA產(chǎn)品在數(shù)控機(jī)床、轉(zhuǎn)臺(tái)、測量儀器及各種自動(dòng)化領(lǐng)域內(nèi)應(yīng)用廣泛。立陶宛普瑞斯卡PRECIZIKA編碼器
產(chǎn)品范圍:立陶宛普瑞斯卡PRECIZIKA編碼器
立陶宛普瑞斯卡PRECIZIKA光柵、普瑞斯卡PRECIZIKA直線光柵尺、普瑞斯卡PRECIZIKA編碼器、普瑞斯卡PRECIZIKA、普瑞斯卡PRECIZIKA旋轉(zhuǎn)編碼器、普瑞斯卡PRECIZIKA角度編碼器、普瑞斯卡PRECIZIKA數(shù)顯表、普瑞斯卡PRECIZIKA編碼盤
主要型號(hào):
A28、A36、A42M、A75M、AK50、A58、AK58、A58H、A58H1、A58HE、A58HM、A90H、A110、A170、A170H、AM36、AM58、L18、L18B、L18C、L18T、L23、LK24、L35、L35T、L50、MT、CMT、PCMT、CS 3000-3、CS 5500
蘇州澤升*密機(jī)械儀器有限**經(jīng)銷立陶宛普瑞斯卡PRECIZIKA光柵、普瑞斯卡PRECIZIKA直線光柵尺、普瑞斯卡PRECIZIKA編碼器、普瑞斯卡PRECIZIKA、普瑞斯卡PRECIZIKA旋轉(zhuǎn)編碼器、普瑞斯卡PRECIZIKA角度編碼器、普瑞斯卡PRECIZIKA數(shù)顯表、普瑞斯卡PRECIZIKA編碼盤。歡迎有需求的客戶前來咨詢、洽談!
蘇州澤升*密機(jī)械儀器有限*是*家集研發(fā)、工程、銷售、技術(shù)服務(wù)于*體的現(xiàn)代化企業(yè),是*自動(dòng)化領(lǐng)域具競爭力的設(shè)備供應(yīng)商。*主要經(jīng)營歐美和日韓 等發(fā)達(dá)*的機(jī)電*體化設(shè)備、*分析檢測儀器、環(huán)境與新能源工業(yè)設(shè)備及電動(dòng)工具等工控自動(dòng)化產(chǎn)品。 憑借**的技術(shù)與商務(wù)團(tuán)隊(duì), *在為客戶帶來*產(chǎn)品的同時(shí)還可提供自動(dòng)化工程技術(shù)服務(wù)及成套解決方案。
如果你對(duì)precizika光柵尺|precizika光柵尺價(jià)格|precizika光柵尺維修感興趣,想了解更詳細(xì)的產(chǎn)品信息,填寫下表直接與廠家聯(lián)系: |