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ZF310 Series VFD Super Performance Food Processing Equipment With Precise Speed Regulation And Stable Operation, Ensuring Worry Free Production

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ZF310 Series VFD Super Performance Food Processing Equipment With Precise Speed Regulation And Stable Operation, Ensuring Worry Free Production

MOQ:	1
Price:	$40
Standard Packaging:	Carton and plywood box packaging
Delivery Period:	3 working days
Payment Method:	L/C,D/A,D/P,MoneyGram,Western Union,T/T
Supply Capacity:	500-10000 per Month

Detail Information

Product Description

Detail Information

Place of Origin

GUANGDONG

Brand Name

ZFENG

Certification

CE、CB、CCC、ISO9001、ISO14001、ISO45001、EN61439、EN61000

Model Number

ZF310 Series

Document

Power:

0.75 ~ 7.5KW

Working Temperature:

-10 ~ 50℃

Power Phase Number:

Single / Three Phase

Nominal Voltage:

220/380V

Control Mode:

SVC/VF

Highlight:

Precise Speed Regulation VFD

Energy Saving Frequency Converter

Stable Operation Servo Drive

Product Description

The dedicated frequency converter for food processing equipment is a device that achieves precise control of motor speed and torque by adjusting the input voltage and frequency of the motor. It plays a core role in improving equipment efficiency, ensuring product quality, energy conservation and consumption reduction, and enhancing production flexibility

Core functions and technical principles

Speed control:By changing the power supply frequency, the motor speed can be infinitely adjusted. For example, in packaging machines or conveyor systems, precise speed adjustment can reduce product loss and energy consumption, and improve energy efficiency by about 15% -25%.

Soft start and smooth shutdown: Avoiding the impact of traditional starting modes on the motor, reducing equipment wear, and extending service life. For example, in mixing equipment, soft start can prevent material splashing and ensure production safety.

Dynamic response and stability: Adopting vector control or direct torque control technology to ensure torque stability of the motor during low-speed or high-speed operation. For example, in cutting machinery, precise speed control can improve cutting accuracy and reduce waste.

Core strengths

Energy conservation and consumption reduction: The efficiency of electricity usage has increased by 20% -50%, significantly reducing operating costs. For example, in a cold storage system, variable frequency drives can adjust the operating frequency of the refrigeration unit according to changes in load, achieving energy-saving goals.

Reduce reactive power loss, optimize grid utilization, and meet the requirements of green production.

Improve production efficiency and flexibility: Real time adjustment of equipment speed to meet the production needs of different batches and products. For example, in grain processing, adjusting equipment operation based on moisture content can improve processing efficiency. Quickly respond to changes in market demand, shorten production change time, and enhance enterprise competitiveness.

Optimize process control: In fermentation, baking and other processes, precise adjustment of temperature, humidity and other parameters. For example, controlling the speed of fans or heating equipment through a frequency converter ensures stable process parameters and improves product quality.

Extend equipment lifespan and reduce maintenance costs: Soft start and soft stop functions reduce motor impact and lower failure rates. Real time monitoring of equipment status, early warning of potential issues, and reducing downtime.

Typical application scenarios

Processing stage

Cutting and mixing: precise control of mechanical speed to ensure uniform processing of food. For example, in meat processing, adjusting the cutting speed through a frequency converter can improve the cutting effect.

Mixing and Fermentation: Optimize the mixing and blending process to improve product consistency. For example, in dairy production, frequency converters are used to adjust the speed of pumps and optimize the mixing effect.

Packaging process

Realize perfect linkage with the production line and improve packaging efficiency. For example, in a bottled beverage production line, a frequency converter controls the speed of the conveyor belt to ensure synchronous transportation of packaging materials and reduce losses.

Cleaning and maintenance

In automatic cleaning equipment, adjust the water flow and pressure according to actual needs to ensure cleaning effectiveness while saving water.

Selection key points: key steps to match requirements and performance

Clarify requirements

Motor power and control accuracy: Select the appropriate frequency converter model based on equipment power (such as 0.4kW-750kW) and speed regulation requirements (such as 0.5Hz-650Hz).

Application scenario: Distinguish between processing, packaging, cleaning and other processes, and select a frequency converter with corresponding functions.

Technical parameter matching

Rated input/output voltage: Ensure that the frequency converter matches the power supply voltage and the rated voltage of the motor.

Overload capacity: Select a frequency converter with the ability to withstand 150% overload for 1 minute based on the instantaneous overload demand of the motor.

Communication interface: According to the requirements of the control system, select a frequency converter that supports communication protocols such as RS485 and Ethernet to achieve remote monitoring and parameter setting.

NO		Specifications		ZF310
1	Basic Function	Max frequency	V/F control	0-500Hz
1		Max frequency	Vector control	0-500Hz
2		Carrier frequency		0.8KHz-8KHz
2		Carrier frequency
3		Input frequency resolution	Number setting	0.01Hz
3		Input frequency resolution	Analog settings	Maximum frequency*0.025%
4		Control mode		sensorless vector control (SVC)
				V/F control
				-
5		Starting torque	SVC	0.5Hz/150%
5		Starting torque	FVC	-
6		Speed range	SVC	1:100
6		Speed range	FVC	-
7		Steady speed accuracy	SVC	±5%
7		Steady speed accuracy	FVC	-
8		Torque control accuracy	FVC	-
9		Overload capacity		150% rated current for 60s 170% rated current for 12s 190% rated current for 1.5s
10		Torque increase		Automatic torque boost；
11		V/F curve		Linear type; point-to-multipoint
11		V/F curve		Nth power type
12		V/F separation		Fully separated, semi separated
13		Acceleration and deceleration curve		Linear or S-shaped acceleration and deceleration methods, 4 types of acceleration and deceleration times
13		Acceleration and deceleration curve		(range 0.0-6500.0s)
14		DC brake	frequency	0.00Hz-Max frequency
			time	0.0s-36.0s
			current	0.0%-100.0%
15		Inching control	Frequency range	0.0Hz-50.0Hz
15		Inching control	Acceleration and deceleration time	0.0s-6500.0s
16		Built-in PID		Convenient implementation of closed-loop control system
17		Automatic voltage regulation		maintain a constant output voltage
18		Overvoltage, overcurrent, and stall control		Automatic limitation of current and voltage during operation to prevent frequent overcurrent and overvoltage tripping
19		Current limiting		Reduce overcurrent faults
20		Torque Limitation and Control		Automatically limit torque during operation
20		Torque Limitation and Control		-
21		Simple PLC, multi-stage operation		Built in PLC or control terminal to achieve up to 16 segment speed operation
22		Braking Unit		Built-in braking unit
23	Personal Function	Instantly non-stop		Using load feedback energy to compensate for voltage drop, in order to control the motor to decelerate to a stop state and prevent mechanical damage
24		Current limiting		Avoid overcurrent faults
25		Multi motor switching		A set of motor parameters
26		Timing control	Range	0.0min-6500.0min
27		Multi-threading bus support		Modbus
28		Multi encoder		-
29		Backend control software		Support variable frequency drive parameter operation and virtual oscilloscope function, which enables graphical monitoring of the internal status of the variable frequency drive through the virtual oscilloscope
30	Input/Output	Command Source		Operation panel, control terminal, serial communication port
31		Frequency source		5 type
32		Auxiliary frequency source		5 type
33		Input terminal		5 digit input terminals (1 supports high-speed pulse input up to 50KHz)
				1 analog input terminals (Supports 0-10V voltage input or 0-20mA current input)
				1 knob potentiometer analog input
34		Output terminal		1 high-speed pulse output terminal Supports 0-50kHz square wave signal output
				-
				1 relay output terminal
				1 analog output terminals Supports 0-20mA current output or 0-10V voltage output
				-
35	Display	keyboard		Standard
36		LED display		Display parameters
37		Key locking and function selection		Implement key locking and define the scope of some key functions
38		Protection		Short circuit detection of power on motor, output phase loss protection, overcurrent protection, overvoltage protection, undervoltage protection, overheating protection, overload protection, etc
39		Accessories		Braking resistor
40	Working condition	Environment		Do not expose to direct sunlight and avoid contact with corrosive gases and liquids
41		Altitude		For every 100m increase above 1000m, the rating is reduced by 1%. The maximum altitude for use is 3000m
42		Storage Temperature		-20℃-60℃
43		Working Temperature		-10℃-50℃(>40℃, please reduce the rating for use)
44		Working humidity		<90%RH
45		Vibration		Less than 5.9m/s (0.6g)
46		noise		<50dBA max
47		Communication Port		RS-485
48		EMC		Standard:IEC 61800-3, C3
49		Safety		Standard:IEC 61800-5-1

Tags:

electric motor frequency controller,

closed loop vfd,

vfd servo drive

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OEM VFD

ZF310 Series VFD Super Performance Food Processing Equipment With Precise Speed Regulation And Stable Operation, Ensuring Worry Free Production

MOQ:	1
Price:	$40
Standard Packaging:	Carton and plywood box packaging
Delivery Period:	3 working days
Payment Method:	L/C,D/A,D/P,MoneyGram,Western Union,T/T
Supply Capacity:	500-10000 per Month

Detail Information

Product Description

Detail Information

Place of Origin

GUANGDONG

Brand Name

ZFENG

Certification

CE、CB、CCC、ISO9001、ISO14001、ISO45001、EN61439、EN61000

Model Number

ZF310 Series

Document

ZF310 instruction manual.pdf

Power:

0.75 ~ 7.5KW

Working Temperature:

-10 ~ 50℃

Power Phase Number:

Single / Three Phase

Nominal Voltage:

220/380V

Control Mode:

SVC/VF

Minimum Order Quantity:

Price:

$40

Packaging Details:

Carton and plywood box packaging

Delivery Time:

3 working days

Payment Terms:

L/C,D/A,D/P,MoneyGram,Western Union,T/T

Supply Ability:

500-10000 per Month

Highlight

Precise Speed Regulation VFD

Energy Saving Frequency Converter

Stable Operation Servo Drive

Product Description

Core functions and technical principles

Core strengths

Reduce reactive power loss, optimize grid utilization, and meet the requirements of green production.

Typical application scenarios

Processing stage

Packaging process

Cleaning and maintenance

In automatic cleaning equipment, adjust the water flow and pressure according to actual needs to ensure cleaning effectiveness while saving water.

Selection key points: key steps to match requirements and performance

Clarify requirements

Motor power and control accuracy: Select the appropriate frequency converter model based on equipment power (such as 0.4kW-750kW) and speed regulation requirements (such as 0.5Hz-650Hz).

Application scenario: Distinguish between processing, packaging, cleaning and other processes, and select a frequency converter with corresponding functions.

Technical parameter matching

Rated input/output voltage: Ensure that the frequency converter matches the power supply voltage and the rated voltage of the motor.

Overload capacity: Select a frequency converter with the ability to withstand 150% overload for 1 minute based on the instantaneous overload demand of the motor.

NO		Specifications		ZF310
1	Basic Function	Max frequency	V/F control	0-500Hz
1		Max frequency	Vector control	0-500Hz
2		Carrier frequency		0.8KHz-8KHz
2		Carrier frequency
3		Input frequency resolution	Number setting	0.01Hz
3		Input frequency resolution	Analog settings	Maximum frequency*0.025%
4		Control mode		sensorless vector control (SVC)
				V/F control
				-
5		Starting torque	SVC	0.5Hz/150%
5		Starting torque	FVC	-
6		Speed range	SVC	1:100
6		Speed range	FVC	-
7		Steady speed accuracy	SVC	±5%
7		Steady speed accuracy	FVC	-
8		Torque control accuracy	FVC	-
9		Overload capacity		150% rated current for 60s 170% rated current for 12s 190% rated current for 1.5s
10		Torque increase		Automatic torque boost；
11		V/F curve		Linear type; point-to-multipoint
11		V/F curve		Nth power type
12		V/F separation		Fully separated, semi separated
13		Acceleration and deceleration curve		Linear or S-shaped acceleration and deceleration methods, 4 types of acceleration and deceleration times
13		Acceleration and deceleration curve		(range 0.0-6500.0s)
14		DC brake	frequency	0.00Hz-Max frequency
			time	0.0s-36.0s
			current	0.0%-100.0%
15		Inching control	Frequency range	0.0Hz-50.0Hz
15		Inching control	Acceleration and deceleration time	0.0s-6500.0s
16		Built-in PID		Convenient implementation of closed-loop control system
17		Automatic voltage regulation		maintain a constant output voltage
18		Overvoltage, overcurrent, and stall control		Automatic limitation of current and voltage during operation to prevent frequent overcurrent and overvoltage tripping
19		Current limiting		Reduce overcurrent faults
20		Torque Limitation and Control		Automatically limit torque during operation
20		Torque Limitation and Control		-
21		Simple PLC, multi-stage operation		Built in PLC or control terminal to achieve up to 16 segment speed operation
22		Braking Unit		Built-in braking unit
23	Personal Function	Instantly non-stop		Using load feedback energy to compensate for voltage drop, in order to control the motor to decelerate to a stop state and prevent mechanical damage
24		Current limiting		Avoid overcurrent faults
25		Multi motor switching		A set of motor parameters
26		Timing control	Range	0.0min-6500.0min
27		Multi-threading bus support		Modbus
28		Multi encoder		-
29		Backend control software		Support variable frequency drive parameter operation and virtual oscilloscope function, which enables graphical monitoring of the internal status of the variable frequency drive through the virtual oscilloscope
30	Input/Output	Command Source		Operation panel, control terminal, serial communication port
31		Frequency source		5 type
32		Auxiliary frequency source		5 type
33		Input terminal		5 digit input terminals (1 supports high-speed pulse input up to 50KHz)
				1 analog input terminals (Supports 0-10V voltage input or 0-20mA current input)
				1 knob potentiometer analog input
34		Output terminal		1 high-speed pulse output terminal Supports 0-50kHz square wave signal output
				-
				1 relay output terminal
				1 analog output terminals Supports 0-20mA current output or 0-10V voltage output
				-
35	Display	keyboard		Standard
36		LED display		Display parameters
37		Key locking and function selection		Implement key locking and define the scope of some key functions
38		Protection		Short circuit detection of power on motor, output phase loss protection, overcurrent protection, overvoltage protection, undervoltage protection, overheating protection, overload protection, etc
39		Accessories		Braking resistor
40	Working condition	Environment		Do not expose to direct sunlight and avoid contact with corrosive gases and liquids
41		Altitude		For every 100m increase above 1000m, the rating is reduced by 1%. The maximum altitude for use is 3000m
42		Storage Temperature		-20℃-60℃
43		Working Temperature		-10℃-50℃(>40℃, please reduce the rating for use)
44		Working humidity		<90%RH
45		Vibration		Less than 5.9m/s (0.6g)
46		noise		<50dBA max
47		Communication Port		RS-485
48		EMC		Standard:IEC 61800-3, C3
49		Safety		Standard:IEC 61800-5-1

Tags: