CN114320680B - A singlechip heating circuit for high-efficient energy-conserving in living beings granulation machine - Google Patents

Abstract

The invention provides an efficient and energy-saving single chip microcomputer heating circuit for a biomass granulator, and relates to the technical field of single chip microcomputers. The utility model provides a singlechip heating device for high-efficient energy-conserving in living beings granulation machine, includes multifunctional mechanism, multifunctional mechanism is including some firearm, the outside of some firearm is provided with heat accumulation piece, the last fixed surface of heat accumulation piece is connected with casing one. This a singlechip heating circuit for high-efficient energy-conserving in biomass granulator, heat energy through biomass fuel granule burning conversion drives a reciprocating motion of piston rod, what of automatically regulated raw materials entering equipment, accomplish automatically regulated, calculate through the singlechip, compare with the settlement signal that sets up the circuit input, and control ignition circuit's interrupt signal, through burning biomass granule, improve heat energy conversion efficiency, reduce the power consumption when utilizing the resistance wire to heat simultaneously, make whole equipment energy consumption low, reach energy-concerving and environment-protective purpose.

Description

A singlechip heating circuit for high-efficient energy-conserving in living beings granulation machine

Technical Field

The invention relates to the technical field of single-chip microcomputers, in particular to a high-efficiency and energy-saving single-chip microcomputer heating circuit for a biomass granulator.

Background

The high-efficiency energy-saving single chip microcomputer heating circuit in the biomass granulator in the prior art has the following problems:

firstly, in the use process of the biomass granulator in the prior art, hard impurities are doped inside, extra equipment is needed for filtering, so that the energy consumption is increased, a bearing is easily damaged, and a modulator is easily blocked;

second, prior art's singlechip heating circuit can not set up the temperature range through the staff is automatic, and its is intelligent low, and prior art's living beings granulation machine need utilize electric heating device to dry simultaneously, and electric heating device power consumption is great to it is not energy-concerving and environment-protective, and the product percent of pass of living beings granulation machine production is low, and equipment steady operation ability is not high, and the consumption is big, and the productivity is low, and practical scope is low.

In order to solve the problems, the inventor provides a high-efficiency energy-saving single-chip microcomputer heating circuit for a biomass granulator, a piston rod is driven to move back and forth through heat energy converted by combustion of biomass fuel particles, the quantity of raw materials entering equipment is automatically adjusted, automatic adjustment is completed, operation is carried out through a single-chip microcomputer, comparison is carried out with a set signal input by a set circuit, an interrupt signal of an ignition circuit is controlled, the heat energy conversion efficiency is improved by combustion of the biomass particles, meanwhile, the electric energy consumption during heating by using a resistance wire is reduced, the energy consumption of the whole equipment is low, and the purposes of energy conservation and environmental protection are achieved.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides the efficient and energy-saving single chip microcomputer heating circuit for the biomass granulator, which has the advantages of high practicability and high reliability and solves the problems of high practicability and high reliability.

In order to achieve the purposes of high practicability and high reliability, the invention provides the following technical scheme: the utility model provides a singlechip heating device for high-efficient energy-conserving in living beings granulation machine, includes multifunctional mechanism, multifunctional mechanism is including the some firearm, the outside of some firearm is provided with heat accumulation piece, the last fixed surface of heat accumulation piece is connected with casing one, the inside sliding connection of casing one has piston rod one, the middle part sliding connection of piston rod one has the baffle, the last fixed surface of piston rod one is connected with weighing transducer, weighing transducer's upside is provided with sieve one, be provided with sieve two directly over the sieve one, the bottom surface transmission of sieve two is connected with filter plate one, consequently, is inhaled through the inside raw materials of feeding shell, drops on sieve one, filters the great stone of some volume through filter plate one, collects the stone from the shell middle part, carries out first filtration, reduces the equipment maintenance cost.

Preferably, casing one all with piston rod one with spring fixed connection, the bottom surface side of sieve two is provided with the rack, the middle part and the gear drive of filter plate one are connected, filter plate one and recovery tube swing joint, consequently, through piston rod one again through elasticity downstream, inhale the stone, detect through quality sensor, remind through display device, be convenient for collect.

Preferably, still including energy-conserving mechanism, energy-conserving mechanism is including velocity of flow sensor, velocity of flow sensor's downside is provided with the granulation chamber, the inside in granulation chamber is provided with temperature sensor, the downside fixedly connected with smoke chamber in granulation chamber, the outside in smoke chamber is provided with piston rod two, the one end of piston rod two is rotated and is connected with the connecting axle, the downside fixedly connected with intake pipe in granulation chamber, consequently, carry out temperature detection through temperature sensor, the switch of control point firearm, the part living beings granule after through drying is lighted by some firearm once more, is convenient for dry once more, through burning living beings granule, improves heat energy conversion efficiency, reduces the electric energy consumption when utilizing the resistance wire to heat simultaneously for whole equipment energy consumption is low, reaches energy-concerving and environment-protective purpose.

Preferably, a connecting pipeline is arranged on the outer side of the flow velocity sensor and fixedly connected with the granulation cavity, and a second shell is arranged on the outer side of the second piston rod.

Preferably, the air inlet pipe and the connecting pipeline are both fixedly connected with the partition plate, and the smoke cavity is movably connected with the igniter.

Preferably, the feeding device further comprises a shell, the multifunctional mechanism is movably mounted inside the shell, the energy-saving mechanism is movably mounted inside the shell, and the feeding shell is fixedly connected to the upper side of the shell.

Preferably, the multifunctional mechanism is movably connected with the feeding shell.

A circuit for a high-efficient energy-conserving singlechip heating device in living beings granulation machine: the device comprises a singlechip, a display circuit, a humidity detection chip, a temperature detection chip, a weight detection chip, a setting circuit and an ignition circuit;

the display circuit is arranged on the outer surface of the shell, the humidity detection chip is arranged on the inner wall of the feeding shell, the temperature detection chip is arranged on the inner wall of the granulation cavity, the weight detection chip is arranged on the upper surface of the first piston rod, the setting circuit is arranged on the outer surface of the shell, the ignition circuit is arranged at the bottom end of the smoke cavity, and the single chip microcomputer is electrically connected with the display circuit, the humidity detection chip, the temperature detection chip, the weight detection chip, the setting circuit and the ignition circuit;

the setting circuit comprises a key and a resistor, wherein one end of the key is grounded, and the set temperature, humidity and weight are input through a key interrupt signal;

the ignition circuit comprises a microcontroller, a capacitor, a field effect transistor, an inductor, a charge pump and an ignition device, wherein one end of the microcontroller is grounded, the microcontroller is connected with the charge pump in parallel, the charge pump is connected with the capacitor in series, one end of the charge pump is electrically connected with the field effect transistor, the charge pump is connected with the capacitor and the inductor in parallel, the microcontroller is connected with the ignition device in parallel, the microcontroller receives signals through an interrupt signal of the single chip microcomputer, the ignition device is started, and the microcontroller sends the interrupt signal to the single chip microcomputer through an electric quantity signal of the charge pump;

one end of each of the humidity detection chip, the temperature detection chip and the weight detection chip is grounded, and the other end of each of the humidity detection chip, the temperature detection chip and the weight detection chip is connected with a power supply;

the humidity detection chip, the temperature detection chip and the weight detection chip respectively detect humidity, temperature and weight, convert digital signals into analog signals, calculate through the single chip microcomputer, compare the analog signals with set signals input by the setting circuit, display through the display circuit and control interrupt signals of the ignition circuit.

Advantageous effects

Compared with the prior art, the invention provides an efficient and energy-saving single-chip microcomputer heating circuit for a biomass granulator, which has the following beneficial effects:

1. this a singlechip heating circuit for high-efficient energy-conservation in biomass granulator filters the great stone of some volumes through filter plate one, collects the stone from the shell middle part, carries out the filtration for the first time, reduces the plant maintenance cost, and heat energy through biomass fuel particle combustion conversion drives a piston rod reciprocating motion, how much of automatically regulated raw materials entering equipment, completion automatically regulated improves intelligence.

2. This a singlechip heating circuit for high-efficient energy-conserving in living beings granulation machine, detect the chip through humidity, the temperature detects the chip, the weight detects the chip and detects humidity respectively, temperature, weight, and convert digital signal into analog signal, calculate through the singlechip, compare with the settlement signal that sets up the circuit input, show through display circuit, and control ignition circuit's interrupt signal, through burning living beings granule, improve heat energy conversion efficiency, reduce the power consumption when utilizing the resistance wire to heat simultaneously, make whole equipment energy consumption low, reach energy-concerving and environment-protective purpose.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the energy saving mechanism of the present invention;

FIG. 3 is a schematic structural diagram of the multifunctional mechanism of the present invention;

FIG. 4 is an enlarged schematic view of the structure at A in FIG. 1 according to the present invention;

FIG. 5 is a schematic diagram of the circuit structure of the present invention.

In the figure: 1. a housing; 2. a multifunctional mechanism; 21. an igniter; 22. a heat storage block; 23. a first shell; 24. a first piston rod; 25. a partition plate; 26. a weight sensor; 27. a first sieve plate; 28. a second sieve plate; 29. a first filter plate; 3. an energy-saving mechanism; 31. a flow rate sensor; 32. a granulation chamber; 33. a temperature sensor; 34. a smoke chamber; 35. a piston rod II; 36. a connecting shaft; 37. an air inlet pipe; 4. a feed shell.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The first embodiment is as follows:

referring to fig. 1-5, a single chip heating device for efficient energy saving in a biomass granulator comprises a multifunctional mechanism 2, the multifunctional mechanism 2 comprises an igniter 21, a heat storage block 22 is arranged outside the igniter 21, a first shell 23 is fixedly connected to the upper surface of the heat storage block 22, a first piston rod 24 is slidably connected inside the first shell 23, a partition plate 25 is slidably connected to the middle of the first piston rod 24, a weight sensor 26 is fixedly connected to the upper surface of the first piston rod 24, a first sieve plate 27 is arranged on the upper side of the weight sensor 26, a second sieve plate 28 is arranged right above the first sieve plate 27, a first filter plate 29 is connected to the bottom surface of the second sieve plate 28 in a transmission manner, so that raw materials in the first shell 4 are sucked and dropped onto the first sieve plate 27, a part of large-volume stones are filtered through the first filter plate 29, the stones are collected from the middle of the shell 1, the first filtering is performed, the maintenance cost of the equipment is reduced, the first shell 23 and the first piston rod 24 are both fixedly connected to a spring, racks are arranged on the side edges of the bottom surface of the second sieve plate 28, the middle of the first filter plate 29 is connected to a gear transmission, the recovery tube is movably connected to the filter plate 29, so that the stones are moved through the first filter plate 24, the piston rod is convenient for detecting device, and displaying the weight of the stones, and displaying the weight of the stones.

Example two:

referring to fig. 1-5, a single chip heating device for efficient energy saving in biomass granulator comprises a multifunctional mechanism 2, the multifunctional mechanism 2 comprises an igniter 21, a heat storage block 22 is arranged outside the igniter 21, a first shell 23 is fixedly connected to the upper surface of the heat storage block 22, a first piston rod 24 is slidably connected inside the first shell 23, a partition plate 25 is slidably connected to the middle of the first piston rod 24, a weight sensor 26 is fixedly connected to the upper surface of the first piston rod 24, a first sieve plate 27 is arranged on the upper side of the weight sensor 26, a second sieve plate 28 is arranged right above the first sieve plate 27, and a first filter plate 29 is connected to the bottom surface of the second sieve plate 28 in a transmission manner, so that raw materials in the feeding shell 4 are sucked and fall on the first sieve plate 27, a part of large-volume stones are filtered by the first filter plate 29, the stones are collected from the middle of the shell 1 for first filtration, the equipment maintenance cost is reduced, the first shell 23 and the first piston rod 24 are fixedly connected with the spring, the side edge of the bottom surface of the second sieve plate 28 is provided with a rack, the middle part of the first filter plate 29 is connected with the gear in a transmission way, the first filter plate 29 is movably connected with the recovery pipe, therefore, the first piston rod 24 moves downwards through elasticity again to suck stones, the stones are detected through the weight sensor 26 and are reminded through the display device to be convenient to collect, the equipment also comprises the energy-saving mechanism 3, the energy-saving mechanism 3 comprises the flow velocity sensor 31, the lower side of the flow velocity sensor 31 is provided with the granulation cavity 32, the inside of the granulation cavity 32 is provided with the temperature sensor 33, the lower side of the granulation cavity 32 is fixedly connected with the smoke cavity 34, the outer side of the smoke cavity 34 is provided with the second piston rod 35, one end of the second piston rod 35 is rotatably connected with the connecting shaft 36, and the lower side of the granulation cavity 32 is fixedly connected with the air inlet pipe 37, consequently, carry out temperature detection through temperature sensor 33, control some firearm 21's switch, the part living beings granule after through drying is lighted some firearm 21 once more, is convenient for dry once more, through burning living beings granule, improves heat energy conversion efficiency, reduces the electric energy consumption when utilizing the resistance wire to heat simultaneously for whole equipment energy consumption is low, reaches energy-concerving and environment-protective purpose.

Example three:

referring to fig. 1-5, a single chip heating device for efficient energy saving in biomass granulator comprises a multifunctional mechanism 2, the multifunctional mechanism 2 comprises an igniter 21, a heat storage block 22 is arranged outside the igniter 21, a first shell 23 is fixedly connected to the upper surface of the heat storage block 22, a first piston rod 24 is slidably connected inside the first shell 23, a partition plate 25 is slidably connected to the middle of the first piston rod 24, a weight sensor 26 is fixedly connected to the upper surface of the first piston rod 24, a first sieve plate 27 is arranged on the upper side of the weight sensor 26, a second sieve plate 28 is arranged right above the first sieve plate 27, and a first filter plate 29 is connected to the bottom surface of the second sieve plate 28 in a transmission manner, so that raw materials in the feeding shell 4 are sucked and fall on the first sieve plate 27, a part of large-volume stones are filtered by the first filter plate 29, the stones are collected from the middle of the shell 1 for first filtration, the equipment maintenance cost is reduced, the first shell 23 and the first piston rod 24 are fixedly connected with the spring, the side edge of the bottom surface of the second sieve plate 28 is provided with a rack, the middle part of the first filter plate 29 is connected with the gear in a transmission way, the first filter plate 29 is movably connected with the recovery pipe, therefore, the first piston rod 24 moves downwards through elasticity again to suck stones, the stones are detected through the weight sensor 26 and are reminded through the display device to be convenient to collect, the equipment also comprises the energy-saving mechanism 3, the energy-saving mechanism 3 comprises the flow velocity sensor 31, the lower side of the flow velocity sensor 31 is provided with the granulation cavity 32, the inside of the granulation cavity 32 is provided with the temperature sensor 33, the lower side of the granulation cavity 32 is fixedly connected with the smoke cavity 34, the outer side of the smoke cavity 34 is provided with the second piston rod 35, one end of the second piston rod 35 is rotatably connected with the connecting shaft 36, and the lower side of the granulation cavity 32 is fixedly connected with the air inlet pipe 37, therefore, detect the temperature through temperature sensor 33, control the switch of some firearm 21, some biomass particles after through drying are lighted by some firearm 21 once more, be convenient for dry once more, through burning biomass particles, improve heat energy conversion efficiency, reduce the power consumption when utilizing the resistance wire to heat simultaneously, make whole equipment energy consumption low, reach energy-concerving and environment-protective purpose, flow rate sensor 31's the outside is provided with the connecting tube, connecting tube and granulation chamber 32 fixed connection, the piston rod two 35 outsides are provided with casing two, intake pipe 37 and connecting tube all with baffle 25 fixed connection, flue gas chamber 34 and some firearm 21 swing joint, still including shell 1, the inside movable mounting of shell 1 has multifunctional mechanism 2, the inside movable mounting of shell 1 has energy-conserving mechanism 3, the upside fixed connection of shell 1 has feeding shell 4, multifunctional mechanism 2 and feeding shell 4 swing joint.

Example four:

referring to fig. 1-5, a circuit of a single-chip heating device for efficient and energy-saving biomass granulator: comprises a single chip microcomputer, a display circuit, a humidity detection chip, a temperature detection chip, a weight detection chip, a setting circuit and an ignition circuit, wherein the display circuit is arranged on the outer surface of a shell 1, the humidity detection chip is arranged on the inner wall of a feeding shell 4, the temperature detection chip is arranged on the inner wall of a granulation cavity 32, the weight detection chip is arranged on the upper surface of a piston rod I24, the setting circuit is arranged on the outer surface of the shell 1, the ignition circuit is arranged at the bottom end of a smoke cavity 34, the single chip microcomputer is electrically connected with the display circuit, the humidity detection chip, the temperature detection chip, the weight detection chip, the setting circuit and the ignition circuit, the setting circuit comprises a key and a resistor, one end of the key is grounded, the ignition circuit comprises a microcontroller, a capacitor, a field effect tube, an inductor, a charge pump and an ignition device, wherein one end of the microcontroller is grounded, the microcontroller is connected with the charge pump in parallel, the charge pump is connected with the capacitor in series, one end of the charge pump is electrically connected with the field effect tube, the charge pump is connected with the capacitor and the inductor in parallel, the microcontroller is connected with the ignition device in parallel, the microcontroller receives the signal through the interrupt signal of the singlechip to start the ignition device, and the ignition device is started through the electric quantity signal of the charge pump, so that the microcontroller sends an interrupt signal to the singlechip, the display circuit comprises a display screen, one end of each of the humidity detection chip, the temperature detection chip and the weight detection chip is grounded, the other end of each of the humidity detection chip, the temperature detection chip and the weight detection chip is connected with a power supply, the humidity detection chip, the temperature detection chip and the weight detection chip respectively detect the humidity, the temperature and the weight and convert digital signals into analog signals, the single chip computer is used for calculating, comparing with a setting signal input by the setting circuit, displaying through the display circuit and controlling an interrupt signal of the ignition circuit.

The working principle is as follows: when the device is used, the igniter 21 is controlled by the singlechip microcomputer, so that the igniter 21 ignites biomass fuel particles, the biomass fuel particles are fully combusted, the heat storage block 22 absorbs and conducts heat, the lower end of the first shell 23 forms a hot end, the upper end of the first shell 23 forms a cold end, hot air at the lower end of the first shell 23 expands, the first piston rod 24 is pushed to move upwards, the upper end of the first piston rod 24 pushes air to pass through the first sieve plate 27, the first piston rod 24 moves upwards, heat at the lower end of the first shell 23 is dissipated, the first piston rod 24 moves downwards through elasticity, the piston plate on the upper side of the first piston rod 24 moves downwards, the bottom pressure of the second sieve plate 28 is reduced, the second sieve plate 28 is opened, the second sieve plate 28 rotates to drive the rack at the bottom end to rotate, the first sieve plate 29 rotates from inclined to horizontal through meshing, the bottom pressure of the second sieve plate 28 is reduced, raw materials in the feeding shell 4 are sucked and fall onto the first sieve plate 27, a part of large-volume stones are filtered through the first filter plate 29, the stones are collected from the middle of the shell 1, and are filtered for the first time, and the maintenance cost of the device is reduced;

the hot air at the lower end of the first shell 23 expands to push the first piston rod 24 to move upwards, so that the upper end of the first piston rod 24 pushes the air to pass through the first sieve plate 27, the weight of the raw materials on the first sieve plate 27 is light, the internal pressure of an area formed by the piston plate at the upper end of the first piston rod 24 and the partition plate 25 is relatively reduced, the pressure is transmitted through the air inlet pipe 37, negative pressure is transmitted inside the connecting pipeline, the light raw materials on the first sieve plate 27 are sucked into the granulating cavity 32, heavy stones are left on the first sieve plate 27, the first piston rod 24 moves downwards through elasticity again to suck the stones, the stones are detected through the weight sensor 26, and the display device is used for reminding and facilitating collection;

the raw materials are sucked into the granulation cavity 32, the first piston rod 24 reciprocates in the first shell 23, the pressure inside the second shell is changed in a reciprocating mode, the second piston rod 35 is pushed to reciprocate, the connecting shaft 36 is pulled to rotate, impellers on the top end of the connecting shaft 36 are granulated, biomass fuel particles are ignited through the igniter 21, the biomass fuel particles are fully combusted, smoke passes through the smoke cavity 34, the granulation cavity 32 is heated, the internal raw materials are effectively dried, the quantity of the burnt biomass fuel particles and the quantity of converted heat energy can be used for automatically adjusting the quantity of the raw materials entering the equipment, automatic adjustment is completed, intelligence is improved, temperature detection is carried out through the temperature sensor 33, the switch of the igniter 21 is controlled, part of the biomass particles after drying is ignited by the igniter 21 again, secondary drying is facilitated, the biomass particles are combusted, heat energy conversion efficiency is improved, meanwhile, electric energy consumption when the resistance wires are utilized for heating is reduced, the energy consumption of the whole equipment is low, and the purposes of energy conservation and environmental protection are achieved.

To sum up, this a singlechip heating circuit for high-efficient energy-conserving in biomass granulator filters partly bulky stone through filter plate 29, collects the stone from shell 1 middle part, carries out the first filtration, reduces the plant maintenance cost, and heat energy through biomass fuel particle burning conversion drives piston rod 24 reciprocating motion, what of automatically regulated raw materials entering equipment, accomplishes automatically regulated, improves intelligence.

This a singlechip heating circuit for high-efficient energy-conservation in living beings granulation machine, detect the chip through humidity, the temperature detects the chip, the weight detects the chip and detects humidity respectively, temperature, weight, and convert digital signal into analog signal, calculate through the singlechip, compare with the settlement signal that sets up the circuit input, show through display circuit, and control ignition circuit's interrupt signal, through burning living beings granule, improve heat energy conversion efficiency, reduce the electric energy consumption when utilizing the resistance wire to heat simultaneously, make whole equipment energy consumption low, reach energy-concerving and environment-protective purpose.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (3)

1. The utility model provides a singlechip heating device for high-efficient energy-conserving in living beings granulation machine, includes multifunction mechanism (2), its characterized in that: the multifunctional mechanism (2) comprises an igniter (21), a heat storage block (22) is arranged on the outer side of the igniter (21), the upper surface of the heat storage block (22) is fixedly connected with a first shell (23), a first piston rod (24) is connected to the inside of the first shell (23) in a sliding manner, a partition plate (25) is connected to the middle of the first piston rod (24) in a sliding manner, a piston plate is fixedly connected to the upper surface of the first piston rod (24), a weight sensor (26) is arranged on the piston plate, a first sieve plate (27) is arranged on the upper side of the weight sensor (26), a second sieve plate (28) is arranged right above the first sieve plate (27), and a first filter plate (29) is connected to the bottom surface of the second sieve plate (28) in a transmission manner;

the partition plate (25) and the piston rod I (24) are fixedly connected with the spring, a rack is arranged on the side edge of the bottom surface of the sieve plate II (28), the middle part of the filter plate I (29) is in transmission connection with the gear, and the filter plate I (29) is movably connected with the recovery pipe;

the device is characterized by further comprising an energy-saving mechanism (3), wherein the energy-saving mechanism (3) comprises a flow velocity sensor (31), a granulation cavity (32) is arranged on the lower side of the flow velocity sensor (31), a temperature sensor (33) is arranged inside the granulation cavity (32), a smoke air cavity (34) is fixedly connected to the lower side of the granulation cavity (32), a second piston rod (35) is arranged on the outer side of the smoke air cavity (34), one end of the second piston rod (35) is rotatably connected with a connecting shaft (36), and an air inlet pipe (37) is fixedly connected to the lower side of the granulation cavity (32);

a connecting pipeline is arranged on the outer side of the flow velocity sensor (31), the connecting pipeline is fixedly connected with the granulating cavity (32), and a second shell is arranged on the outer side of the second piston rod (35);

the air inlet pipe (37) and the connecting pipeline are fixedly connected and communicated with the first shell (23), and the smoke cavity (34) is movably connected with the igniter (21).

2. The single-chip microcomputer heating device for the efficient and energy-saving biomass granulator according to claim 1, wherein: still including shell (1), the inside movable mounting of shell (1) has multifunction mechanism (2), the inside movable mounting of shell (1) has energy-conserving mechanism (3), the upside fixedly connected with feeding shell (4) of shell (1).

3. The single-chip microcomputer heating device for the efficient and energy-saving biomass granulator according to claim 2, wherein: the multifunctional mechanism (2) is movably connected with the feeding shell (4).

Images