CN109392609B - Automatic high-efficiency energy-saving special machine for fermentation of edible fungus sticks - Google Patents

Abstract

The utility model provides an automatic energy-efficient agaric fungus stick fermentation special machine, includes outer furnace body, installs in the inner chamber of outer furnace body and installs the support on outer furnace body, and the inner chamber is equipped with liquid inner chamber and installs the heating inner chamber in liquid inner chamber, installs on the lower extreme outer peripheral face of outer furnace body in the first inlet tube that leads to in the liquid inner chamber, installs on the upper end outer peripheral face of outer furnace body with the outlet duct of liquid inner chamber intercommunication, characterized by: the heating inner chamber is connected with a smoke output pipe, the smoke output pipe is provided with a transverse section smoke output pipe and a vertical section smoke output pipe, the lower end of the vertical pipe of the smoke output pipe is connected with a dust guiding pipe, the right end of the dust guiding pipe is connected with a dust removing water tank, the upper end of the dust removing water tank is provided with a smoke exhaust pipe, and the lower end of the dust removing water tank is provided with a pair of drain outlets. The special automatic high-efficiency energy-saving machine for fermenting the agaric fungus sticks has the advantages of compact structural design, large heating area, long flue gas flow, good heat transfer effect, low flue gas temperature and low operation cost, and is worthy of popularization.

Description

Automatic high-efficiency energy-saving special machine for fermentation of edible fungus sticks

Technical Field

The invention relates to heating sterilization of edible fungus products, in particular to an automatic efficient energy-saving special machine for edible fungus stick fermentation.

Background

The boiler is an energy conversion device, the energy input to the boiler is chemical energy and electric energy in fuel, the boiler outputs steam high-temperature water or organic heat carrier with certain heat energy, the original meaning of the boiler refers to a water container heated on fire, and the boiler refers to a place where the fuel is combusted.

At present, the existing boiler has low heat production efficiency, only one heating surface is heated, the heating area is limited, the heating rate is very limited, the boiler cannot be circularly heated, the heat energy loss of waste heat emission exists, the combustion dosage is large, and the using effect is poor.

Disclosure of Invention

The invention aims to solve the defects of the prior art, and provides the automatic energy-saving heat-generating boiler device which is convenient to use, realizes high-efficiency heat generation, can fully use heat, improves the efficiency, saves fuel and is convenient and quick.

The invention solves the technical problems by adopting the technical scheme that: the automatic efficient energy-saving special machine for fungus stick fermentation of the agaric comprises an outer furnace body, an inner chamber arranged in the outer furnace body and a bracket arranged on the outer furnace body, wherein the inner chamber is provided with a liquid inner chamber and a heating inner chamber arranged in the liquid inner chamber, a first water inlet pipe communicated with the liquid inner chamber is arranged on the outer peripheral surface of the lower end of the outer furnace body, and an air outlet pipe communicated with the liquid inner chamber is arranged on the outer peripheral surface of the upper end of the outer furnace body, and is characterized in that: the heating inner chamber is connected with a smoke output pipe, the smoke output pipe is provided with a transverse section smoke output pipe and a vertical section smoke output pipe, the lower end of the vertical pipe of the smoke output pipe is connected with a dust guiding pipe, the right end head of the dust guiding pipe is connected with a dust removing water tank, the upper end of the dust removing water tank is provided with a smoke exhaust pipe, and the lower end of the dust removing water tank is provided with a pair of drain outlets; and a control cabinet is arranged on the peripheral surface of the outer furnace body. Like this, this structure sets up and improves boiler operational environment, improve boiler efficiency and life, be equipped with heating inner chamber and liquid inner chamber in the outer furnace body, be connected with the flue gas output tube on the heating inner chamber, so the setting makes the heated area big, the flue gas flow is long, the heat transfer is effectual, the exhaust gas temperature is low, heat the heating inner chamber through the produced hot flue gas of burning, water that exists in the liquid inner chamber and the outer wall contact of the heating inner chamber after being heated, realize the medium heating, simultaneously in order to reduce the impurity in the flue gas, so be connected through leading dirt pipe and dust removal pond in the lower extreme of vertical section flue gas output tube, make the flue gas earlier through pond and water blending, the impurity that produces when getting rid of the burning, cool down the flue gas simultaneously, make the flue gas of discharging do not take impurity, the purity degree is high, can not pollute the environment.

The heating inner chamber is internally provided with a group of first heated pipes distributed in an array mode, and the ends at two ends of the first heated pipes penetrate through the heating inner chamber. Therefore, the water in the liquid inner chamber does not exist statically, but flows, so that water circulation is realized, and therefore, the water is heated by the outer surface of the pipe, the water can be heated by the inner surface of the pipe, the heating efficiency is improved, and the use effect is good.

The transverse section flue gas output pipe and the vertical section flue gas output pipe are respectively provided with a plurality of waste heat pools, the upper ends of the waste heat pools are provided with openings, and a group of second heat receiving pipes which penetrate through the transverse section flue gas output pipe and are distributed in an array are arranged in the waste heat pools; the waste heat pool on the vertical section smoke output pipe is arranged singly, the waste heat pool is provided with a second water inlet pipe and a water outlet pipe, and a group of third heat receiving pipes which penetrate through the vertical section smoke output pipe and are distributed in an array mode are arranged in the waste heat pool. In this way, the arrangement can fully utilize the residual temperature entering the smoke outlet pipe, and the heat is used to the greatest extent, so that hot water is generated, and the second heat receiving pipe and the third heat receiving pipe are added to improve the heating speed of the water.

Further perfecting, the first heat receiving pipe and the second heat receiving pipe are elliptical straight pipes. Therefore, the elliptical straight pipe has large area, the distance between the upper part and the lower part is small, and the heating is fast, so that the heating efficiency of water is improved.

Further perfecting, the third heated pipe is a circular inclined pipe. Thus, the inclined arrangement is convenient to accelerate the flow speed of water and is heated quickly, so that the heating efficiency of the water is improved.

Further perfecting, a thermometer communicated with the liquid inner chamber is arranged on the outer peripheral surface of the left end of the outer furnace body. Therefore, the water temperature in the liquid inner chamber is monitored at any time, and meanwhile, whether the device is in normal operation or not is also detected.

Further perfecting, a water level pipe communicated with the liquid inner chamber is arranged on the outer peripheral surface of the left end of the outer furnace body. Therefore, the water level can be observed remotely, the anti-pollution capability is strong, and the observed water level is not influenced by water quality.

Further perfecting, the bottom of the heating inner chamber is provided with a furnace screen. Thus, the ventilation property in the furnace is improved, the rising resistance of air is reduced, the suction quantity of air is increased, and the combustion quality is improved.

Further perfecting, a draught fan is arranged between the lower end of the vertical section smoke output pipe and the dust-guiding pipe. Like this, the draught fan rotates through the impeller and produces negative pressure, and then follow the interior extraction air of device for the steam circulation improves the heating effect.

Further perfecting, a spray head water inlet pipe is arranged at the central position of the upper end of the dust removing water tank, the spray head water inlet pipe extends into the dust removing water tank, and a spray head is arranged on the end head of a spray head water inlet pipe in the dust removing water tank. Like this, adopt the shower nozzle can increase the spray area of water, with the flue gas contact is many, realize cooling the flue gas for impurity condensation and quality increase, fall in the pond, thereby improve the dust removal effect.

The beneficial effects of the invention are as follows: the special automatic high-efficiency energy-saving machine for fermenting the agaric fungus sticks has the advantages of compact structural design, large heating area, long flue gas flow, good heat transfer effect, low flue gas temperature and low operation cost, can ensure the purity of the flue gas, realizes environment-friendly emission, and is worth popularizing.

Drawings

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

fig. 2 is a schematic plan view of the inside of the present invention.

Reference numerals illustrate: the device comprises an outer furnace body 1, an inner chamber 2, a support 3, a liquid inner chamber 4, a heating inner chamber 5, a water inlet pipe 6, an air outlet pipe 7, a smoke output pipe 8, a transverse smoke output pipe 8-1, a vertical smoke output pipe 8-2, a dust guiding pipe 9, a dust removing water tank 10, a smoke discharging pipe 11, a sewage outlet 12, a first heat receiving pipe 13, a waste heat tank 14, a second heat receiving pipe 15, a third heat receiving pipe 16, a thermometer 17, a water level pipe 18, a furnace screen 19, an induced draft fan 20, a spray nozzle water inlet pipe 21, a spray nozzle 22, a second water inlet pipe 23, a water outlet pipe 24 and an outer control cabinet 25.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

Referring to the drawings: the automatic efficient energy-saving special machine for fungus stick fermentation comprises an outer furnace body 1, an inner chamber 2 arranged in the outer furnace body 1 and a bracket 3 arranged on the outer furnace body 1, wherein the inner chamber 2 is provided with a liquid inner chamber 4 and a heating inner chamber 5 arranged in the liquid inner chamber 4, the outer peripheral surface of the lower end of the outer furnace body 1 is provided with a first water inlet pipe 6 communicated with the liquid inner chamber 4, the outer peripheral surface of the upper end of the outer furnace body 1 is provided with an air outlet pipe 7 communicated with the liquid inner chamber 4, the heating inner chamber 5 is connected with a flue gas output pipe 8, the flue gas output pipe 8 is provided with a transverse flue gas output pipe 8-1 and a vertical flue gas output pipe 8-2, the lower end of the vertical pipe of the flue gas output pipe 8 is connected with a dust guide pipe 9, the right end of the dust guide pipe 9 is connected with a dust removal water tank 10, the upper end of the dust removal water tank 10 is provided with a smoke exhaust pipe 11, and the lower end of the dust removal water tank 10 is provided with a pair of drain ports 12; a control cabinet 25 is arranged on the peripheral surface of the outer furnace body 1;

The heating inner chamber 5 is internally provided with a group of first heat receiving pipes 13 distributed in an array manner, and the ends at the two ends of the first heat receiving pipes 13 penetrate through the heating inner chamber 5;

The transverse section flue gas output pipe 8-1 and the vertical section flue gas output pipe 8-2 are respectively provided with a plurality of waste heat pools 14, the waste heat pools 14 on the transverse section flue gas output pipe 8-1 are provided with openings at the upper ends, and a group of second heat receiving pipes 15 distributed in an array penetrating through the transverse section flue gas output pipe 8-1 are arranged in the waste heat pools 14; the waste heat pond 14 on the vertical section flue gas output pipe 8-2 is arranged singly, the waste heat pond 14 is provided with a second water inlet pipe 23 and a water outlet pipe 24, and a group of third heat receiving pipes 16 which penetrate through the vertical section flue gas output pipe 8-2 and are distributed in an array are arranged in the waste heat pond 14.

The first heat receiving pipe 13 and the second heat receiving pipe 15 are external elliptic straight pipes.

The third heat receiving pipe 16 is a circular inclined pipe.

A thermometer 17 is installed on the left end outer peripheral surface of the outer furnace body 1 to be communicated with the liquid inner chamber 4.

A water level pipe 18 is provided on the left end outer peripheral surface of the outer furnace body 1 to the liquid chamber 4.

The bottom of the heating chamber 5 is provided with a furnace screen 19.

An induced draft fan 20 is arranged between the lower end of the vertical section flue gas output pipe 8-2 and the dust-guiding pipe 9.

A spray head water inlet pipe 21 is arranged at the central position of the upper end of the dust removing water tank 10, the spray head water inlet pipe 21 extends into the dust removing water tank 10, and a spray head 22 is arranged on the end head of the spray head water inlet pipe 21 in the dust removing water tank 10.

While the invention has been shown and described with reference to a preferred embodiment, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the scope of the invention.

Claims (5)

1. The utility model provides an automatic high-efficient energy-conserving agaric fungus stick fermentation special machine, including outer furnace body (1), install inner chamber (2) in outer furnace body (1) and install support (3) on outer furnace body (1), inner chamber (2) are equipped with liquid inner chamber (4) and install heating inner chamber (5) in liquid inner chamber (4), install on the lower extreme outer peripheral face of outer furnace body (1) in first inlet tube (6) that lead to in liquid inner chamber (4), install outlet duct (7) with liquid inner chamber (4) intercommunication on the upper end outer peripheral face of outer furnace body (1), characterized by: a smoke output pipe (8) is connected to the heating inner chamber (5), the smoke output pipe (8) is provided with a transverse section smoke output pipe (8-1) and a vertical section smoke output pipe (8-2), the lower end of the vertical pipe of the smoke output pipe (8) is connected with a dust guiding pipe (9), the right end head of the dust guiding pipe (9) is connected with a dust removing water tank (10), the upper end of the dust removing water tank (10) is provided with a smoke exhaust pipe (11), and the lower end of the dust removing water tank (10) is provided with a pair of drain outlets (12); a control cabinet (25) is arranged on the outer peripheral surface of the outer furnace body (1);

The heating inner chamber (5) is internally provided with a group of first heat receiving pipes (13) distributed in an array manner, and the ends at the two ends of the first heat receiving pipes (13) penetrate through the heating inner chamber (5);

Waste heat tanks (14) are arranged on the transverse section flue gas output pipe (8-1) and the vertical section flue gas output pipe (8-2), the number of the waste heat tanks (14) on the transverse section flue gas output pipe (8-1) is multiple, openings are formed in the upper ends of the waste heat tanks, and a group of second heat receiving pipes (15) which penetrate through the transverse section flue gas output pipe (8-1) and are distributed in an array are arranged in the waste heat tanks (14); the waste heat pool (14) on the vertical section flue gas output pipe (8-2) is arranged singly, a second water inlet pipe (23) and a water outlet pipe (24) are arranged on the waste heat pool (14), and a group of third heat receiving pipes (16) which penetrate through the vertical section flue gas output pipe (8-2) and are distributed in an array are arranged in the waste heat pool (14);

A water level pipe (18) for detecting the internal temperature of the liquid chamber (4) is arranged on the outer peripheral surface of the left end of the outer furnace body (1);

an induced draft fan (20) is arranged between the lower end of the vertical section flue gas output pipe (8-2) and the dust guiding pipe (9);

A spray head water inlet pipe (21) is arranged at the central position of the upper end of the dust removing water tank (10), the spray head water inlet pipe (21) extends into the dust removing water tank (10), and a spray head (22) is arranged on the end head of the spray head water inlet pipe (21) in the dust removing water tank (10).

2. The automatic, efficient and energy-saving special machine for fermentation of agaric sticks of claim 1, which is characterized in that: the first heat receiving pipe (13) and the second heat receiving pipe (15) are outer elliptic straight pipes.

3. The automatic, efficient and energy-saving special machine for fermentation of agaric sticks of claim 1, which is characterized in that: the third heat receiving pipe (16) is a circular inclined pipe.

4. The automatic, efficient and energy-saving special machine for fermentation of agaric sticks of claim 1, which is characterized in that: the outer peripheral surface of the left end of the outer furnace body (1) is provided with a thermometer (17) communicated with the liquid inner chamber (4).

5. The automatic, efficient and energy-saving special machine for fermentation of agaric sticks of claim 1, which is characterized in that: the bottom of the heating inner chamber (5) is provided with a furnace screen (19).