Liquid Level Control Sensor- HB Series | #111495_1


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111495_1

Liquid Level Control Sensor- HB Series | #111495_1

HBLT-A1-8


Especificaciones técnicas

  • Características del cable: Cable Size: 3 x 0.34 mm2~ Cable Glands: PG7 / M8~ Cable Resistance: 500 Ω/Km
  • Tamaño de la rosca de la conexión (pulg): 1” BSPP
  • Longitud (mm): 800mm
  • Material: Liquid Parts: AISI 304 / PTFE~ Electronic Parts: Nylon 6 (PA)
  • Salida de señal: Analog: 4-20 mA
  • Indicador de gráficos de barras LED: Not Applicable- Bargraph Not Included
  • Tipo de configuración: Push Bottom
  • Tensión: 24 V AC/DC ±10%
  • Máxima resistencia de carga eléctrica: 500 Ohm
  • Certificaciones: CE Certification: EN 61000-2~ GOST-R: No 0903044~ EMC Emission: ENG61000-3-2~ EMC Immunity: EN61000-4-2
  • Presión máxima (bares): 100bar
  • Longitud (pulg): N/A
  • Número de modelo: HBLT-A1-8
  • Consumo de energía: 30 mA
  • Funcionamiento del sistema: Programmable
  • Tipo de conexión: Plug: DIN 43650- 4 Pins
  • Tipo: Level Transmitter
  • Número de modelo: HBLT-A1-8
  • Tipo de productos: Level Transmitter
  • Presión de trabajo máxima: 100 bar
  • Temperatura ambiente mínima: -30 °C
  • Temperatura ambiente máxima: 50 °C
  • Temperatura mínima del líquido: -50 °C
  • Temperatura máxima del líquido: 80 °C
  • Tipo de indicador: Not Applicable- Bargraph Not Included
  • Tipo de operación: Programmable
  • Voltaje de entrada: 24 V AC/DC + 10%
  • Consumo de energía: 30 mA
  • Tipo de conexión: Plug: DIN 43650- 4 Pins
  • Máxima resistencia de carga eléctrica: 500 Ohm
  • Salida de señal: Analog: 4-20 mA
  • Tipo de cable: Cable Size: 3 x 0.34 mm2, Cable Glands: PG7 / M8, Cable Resistance: 500 Ω/Km
  • Cumplimiento con especificaciones: CE Certification: EN 61000-2, GOST-R: No 0903044, EMC Emission: ENG61000-3-2, EMC Immunity: EN61000-4-2
  • Configuración: Push Bottom
  • Longitud: n/a, 800 mm
  • Tamaño de la rosca de la conexión: 1” BSPP inch
  • Materiales de fabricación: Liquid Parts: AISI 304 / PTFE, Electronic Parts: Nylon 6 (PA)

Información del artículo

Vapor Quality Sensor
HBDX is a new revolutionary, patent-pending sensor technology, and it is thus the first sensor in the world capable of measuring the relationship between vapor and liquid a refrigeration system. The sensor measures the degree of dryness, “X”, of the gas in the gas pipes, and the value is converted into a 4-20 mA analogue signal corresponding to “X”. The HBDX measures the dryness of the gas in the range X = 0.85...1.05.
The sensor is available in two variants, "Rod Style” for installation in a pipe elbow and “In-line” for welding into the suction pipe.

The sensor offers very precise measurements and provides instant read-outs of the gas quality, making it useable in most evaporators (plate, pipe, and air evaporators).
The sensor’s microprocessor also functions as a controller, enabling the direct control of a modulating motor valve, thereby bypassing the external controller or the PLC. The controller can be set up with all the parameters that are necessary for regulating a modulating motor valve or a stepper motor valve. The sensor is available with a cable for direct supply to and control of the motor valve, or as a sensor where the signal is sent to the external controller/PLC.

The sensor cannot measure actual overheating, but with proper installation and system design, overheating can be reduced or eliminated, thus leading to substantial energy savings.

Markets:
• Industrial Refrigeration

Features and Benefits:
• The vapor quality sensor allows for the operation of DX ammonia technology with minimal “superheat”.
• A dry suction pipe from the freezer minimizes loss of pressure in risers and provides increased flexibility of the pipe installation.
• 30 to 50 times less refrigerant required (ammonia systems), following the installation of the vapor quality sensor and the construction of the system based on DX technology.
• Measures vapor quality in refrigeration systems – measures the relationship between gas and liquid.
Application:
• Useable in most evaporators (plate, pipe, and air evaporators)

NH3/CO2 Leakage Switch
HBAC is used for detecting leakage in cascade systems. The sensor triggers an alarm if there is an NH3 leak in the CO2 part. A leak results in several hours of cleaning the pipes and heat exchanger. If a CO2 leak occurs in the NH3 part, salt crystals are formed. These salt crystals are very corrosive and lead to clogging of the parts. If the leak is not stopped in time, it can lead to extensive damage to
the heat exchanger, pipes, and pump.
The sensor detects even very small leaks.
Markets:
• Industrial Refrigeration
Features and Benefits:
• CO2 leakage detection in NH3 cascade heat exchanger
• Simple to install with a sleeve. A cost-optimized solution
• LED indication for power and alarm status
• Single Shared design that make it easy to install and diagnostics. The electronic part can be easily removed from the mechanical part by two small screws.
Applications:
• Detecting leakage in cascade systems
Defrost Sensor
HBDF is a simple solution for energy-optimal automatic defrosting of evaporators. It results in energy savings of approximately 10%, thus quickly recouping its cost. The sensor measures the thickness of ice deposits between the fins and sends a 4-20mA signal to the system's PLC. The 4 mA signal is emitted when the evaporator is free of ice. The defrost point is set according to the evaporator type and the amount of moisture, and it is determined based on a visual assessment of the ice deposits on the evaporator.
The sensor can be installed in less than one hour, on both new and old evaporators. It can be installed when the system is in operation, and therefore, system shutdown is not necessary. The electronic part is mounted on the evaporator's frame using 2 screws. The mechanical part consists of a thin Teflon-coated wire, which is installed between the fins of the evaporator. HBDF is available in 3 variants, with a 10m, 20m, and 30m wire respectively.
Markets:
• Industrial Refrigeration
Features and Benefits:
• Provides energy savings of up to 40 %, compared with conventional defrosting.
• Reduces downtime and minimizes system defrost time.
• Split design, which makes the sensor easy to install and service. The electronic part can be separated from the mechanical part.
• Can be installed on all evaporator types from all manufactures.
Application:
• Energy-optimal automatic defrosting of evaporators

Temperature Sensor
HBTS is a temperature sensor in accordance with DIN 60751, and it is available in two variants, PT100 and PT1000 – DIN B – class 3. The sensor is designed for the refrigeration industry where servicing of the electronics can be carried out without emptying the system of refrigerant. The sensor is delivered with a 60 & 90 mm sensor element length and a 6 mm sensor diameter.
Markets:
• Commercial Refrigeration
Features and Benefits:
• 4-wire PT100 or PT1000 sensor element DIN B class 1/3 - DIN 60751
• Refrigeration industry design - max pressure 150 bar.
• Temperature area: -50..+130°C
• M12 plug connection - DIN 0627
Application:
• Within the refrigeration industry where servicing of the electronics can be carried out without emptying the system of refrigerant

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São José dos Campos

SP

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12247-015

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