CN116428587B - High thermal efficiency catalytic heating device - Google Patents

Abstract

The invention discloses a high-thermal-efficiency catalytic heating device, and relates to the technical field of heating devices. Comprising the following steps: a support for carrying a high thermal efficiency catalytic heating device; the heating component is arranged at one end of the inside of the bracket and ejects high-temperature heating flame by virtue of the output end of the heating component; a supply assembly mounted at the other end of the interior of the holder, and having an output end fixedly connected to and in communication with the input end of the heating assembly, and arranged in accordance therewith for supplying the heating assembly with the necessary gas; the heating assembly includes: the heating furnace head is an output end of the heating assembly, and two heating furnace heads are arranged. The biomass carbonization furnace is heated by using various fuel sources, including diesel oil, biomass oil, waste engine oil and the like, and the dual-stage furnace head is improved to control the mixed combustion ratio to heat the biomass carbonization furnace by matching with the air door.

Description

High thermal efficiency catalytic heating device

Technical Field

The invention relates to the technical field of heating devices, in particular to a high-heat-efficiency catalytic heating device.

Background

The biomass carbonization furnace heating process uses heating device to heat it, and traditional biomass fuel's mode of burning has the emission to and the not high problem of thermal efficiency, and its concrete point lies in:

firstly, fuel cannot be used for heating at multiple points;

secondly, the waste engine oil cannot be used for multi-point heating;

third, multiple fuel sources cannot be used to heat the biomass carbonization furnace.

Based on the above problems, the applicant proposes a novel device for heating biomass carbonization furnace by using multiple fuel sources and controlling the mixed combustion ratio by improving the double-stage furnace head and the air door.

Disclosure of Invention

The present invention is directed to a catalytic heating device with high thermal efficiency, so as to solve the problems set forth in the background art.

In order to achieve the above purpose, the present invention provides the following technical solutions: a high thermal efficiency catalytic heating apparatus comprising:

a support for carrying a high thermal efficiency catalytic heating device;

the heating component is arranged at one end of the inside of the bracket and ejects high-temperature heating flame by virtue of the output end of the heating component;

a supply assembly mounted at the other end of the interior of the holder, and having an output end fixedly connected to and in communication with the input end of the heating assembly, and arranged in accordance therewith for supplying the heating assembly with the necessary gas;

the heating assembly includes:

the heating furnace heads are output ends of the heating assembly, two heating furnace heads are arranged, and the two heating furnace heads are different in specification;

a separation pipe is arranged between the two heating furnace heads, and the separation pipe is an input end of the heating component;

the middle end of the inside of the separation pipe is provided with a baffle plate, the bottom of the separation pipe, which is provided with the baffle plate, is provided with an air conveying pipe, and the air conveying pipe is the output end of the supply assembly;

the air delivery pipe separates and delivers the gas led out from the supply assembly to the inside of the two heating furnace heads by means of a baffle plate.

Further, two connected furnace body panels are arranged outside the bracket near one end where the heating component is arranged;

an ignition coil is arranged between the furnace body panel and the heating furnace end which is positioned in the same vertical plane with the furnace body panel;

the discharge end of the ignition coil is arranged in the heating furnace end, and the power supply end of the ignition coil is electrically connected with the inside of the furnace body panel;

the furnace body panel is used for controlling the work of the heating furnace end by means of the ignition coil.

Further, a connecting frame is fixed at the top end outside the heating furnace end;

the tail end of the connecting frame is fixed with the frame body of the bracket, and the heating furnace end is arranged in the bracket by means of the connecting frame.

Further, an assembly frame is fixed at the middle end of the inner part of the bracket;

the bottom of the assembly frame is fixed with a sleeve ring which is used for limiting the position of the air conveying pipe.

Further, a communication hole is formed in one side of the inner part of the assembly frame, and the assembly frame is provided with two fuel pipes by virtue of the communication hole;

one end of each of the two fuel pipes is correspondingly arranged in the two heating furnace heads, and the other ends of the two fuel pipes are communicated with the discharge end of the supply assembly;

the discharge end of the supply assembly is an oil pump for delivering fuel to the heating assembly.

Still further, the necessary gas is air, and the supply assembly further includes: a blower;

and the output end of the fan is fixedly and communicated with one end of the air conveying pipe, and the fan is used for providing positive air pressure for the air conveying pipe so as to achieve the purpose of conveying air to the heating component.

Furthermore, the bottom of the bracket is fixedly provided with a plurality of universal wheels which are uniformly distributed and arranged on two sides of the bottom of the bracket;

an armrest is fixed at one end of the outer part of the bracket, and the armrest changes the position of the bracket by pushing a universal wheel arranged at the bottom of the bracket.

Further, a bearing panel for bearing the supply assembly is fixed at one end, close to the supply assembly, inside the bracket;

the support is fixed with the automatically controlled panel that is used for controlling the supply assembly outside this end.

Compared with the prior art, the invention has the beneficial effects that:

this high thermal efficiency catalytic heating device, through using multiple fuel source heat supply, including diesel oil, living beings oil, old and useless quick-witted oil etc to improve two segmentation furnace ends and cooperate the air door control to mix burning and compare the living beings carbonization stove and heat, compare in traditional heat supply mode, this equipment has that the raw materials of use are wide, emission is low, characteristics such as combustion thermal efficiency is high.

According to the high-heat-efficiency catalytic heating device, the universal wheels are arranged at the bottoms of the supports, and the armrests are arranged at one ends of the outer portions of the supports, so that the working place of the device can be adjusted by the armrests and the universal wheels when the device is in actual use, the applicable place of the device is improved to a certain extent, and the flexibility of the device when the device is in actual use is indirectly improved.

Drawings

FIG. 1 is an isometric view of the present invention;

FIG. 2 is a bottom structural component view of the present invention;

FIG. 3 is a structural view of the mounting assembly of the present invention;

FIG. 4 is a structural view of a heating element of the present invention;

fig. 5 is a structural composition diagram of the supply assembly of the present invention.

In the figure: 1. carrying the assembly; 101. a bracket; 102. assembling a frame; 103. a sleeve ring; 104. an air delivery pipe; 105. a furnace body panel; 2. a universal wheel; 3. a heating assembly; 301. heating the furnace end; 302. a connecting frame; 303. a fuel pipe; 304. an ignition coil; 305. a partition pipe; 4. a supply assembly; 401. a blower; 402. an oil pump; 403. an electric control panel; 5. an armrest; 6. the carrier panel.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

It should be noted that like reference numerals and letters refer to like items in the following figures, and thus once an item is defined or illustrated in one figure, no further detailed discussion or description thereof will be necessary in the following description of the figures.

The traditional biomass fuel combustion mode has the problems of emission and low heat efficiency, so that the applicant provides a novel device which can supply heat by using various fuel sources and heat the biomass carbonization furnace by improving the double-section furnace end and matching with an air door to control the mixed combustion ratio.

Referring to fig. 1-5, the device comprises a support 101 for carrying a high thermal efficiency catalytic heating device;

a heating element 3 installed at one end inside the bracket 101, which ejects high temperature heating flame by means of its own output end;

a supply assembly 4, which is mounted at the other end inside the holder 101, and whose output end is fixed to and communicates with the input end of the heating assembly 3, is provided according to this, for supplying the necessary gas to the heating assembly 3.

In the present application, the necessary gas is air.

As can be seen with reference to fig. 4, in the present application, the heating assembly 3 comprises:

the heating furnace end 301 is the output of heating element 3, and heating furnace end 301 is provided with two, and two heating furnace end 301 specifications are different.

It should be noted that, for convenience of understanding, the two heating jambs 301 are respectively named as a main heating jamb, wherein the jambs are main heaters for heating the biomass reaction chamber, and an auxiliary heating jamb, wherein the jambs are auxiliary heaters for auxiliary heating the biomass reaction chamber;

the fuel pressure of the auxiliary heating furnace is smaller than that of the main heating furnace for design reasons, but no other auxiliary improvement design is made because the two furnace designs are closer.

Referring to fig. 3 and 4, in the present application, a separation tube 305 is installed between two heating jambs 301, the separation tube 305 is an input end of the heating assembly 3, a baffle plate is disposed at a middle end of an inner portion of the separation tube 305, an air conveying tube 104 is installed at a bottom portion of the separation tube 305 where the baffle plate is disposed, the air conveying tube 104 is an output end of the supply assembly 4, and it is necessary to supplement that the air conveying tube 104 separately conveys the gas led out from the supply assembly 4 to the inner portions of the two heating jambs 301 by means of the baffle plate.

As can be seen with further reference to fig. 5, in the present application the feed assembly 4 comprises: a blower 401;

wherein the output end of the blower 401 is fixed to and communicated with one end of the air delivery pipe 104, and is used for providing positive air pressure for the air delivery pipe 104 to achieve the purpose of delivering air to the heating assembly 3.

It should be emphasized that, in the present application, the fan 401 is used to convey the air of adjustable total amount to the dual-stage burner via the air conveying pipe 104, so as to indirectly complete the control of the mixed combustion ratio, and compared with the traditional heat supply mode, the heat efficiency of the actual combustion is improved to a certain extent.

Embodiment 1,

Referring to fig. 2 and 3, in the present application, two connected furnace body panels 105 are installed at the outer portion of the bracket 101 near one end where the heating assembly 3 is installed, wherein an ignition coil 304 is installed between the furnace body panels 105 and the heating furnace end 301 in the same vertical plane, and it is to be added that a discharge end of the ignition coil 304 is disposed inside the heating furnace end 301, and a power supply end of the ignition coil 304 is electrically connected with the inner portion of the furnace body panels 105; it should be noted that, in the present application, the furnace body panel 105 is used to control the operation of the heating furnace end 301 by means of the ignition coil 304.

Embodiment II,

Referring to fig. 4, in the present application, a connecting frame 302 is fixed to the top of the heating burner 301; wherein the end of the connecting frame 302 is fixed to the frame body of the bracket 101, and the heating burner 301 is installed inside the bracket 101 by means of the connecting frame 302.

Third embodiment,

Referring to fig. 3, in the present application, an assembling frame 102 is fixed at the middle end of the inside of the bracket 101, a sleeve ring 103 is fixed at the bottom of the assembling frame 102, which is used for limiting the position of an air conveying pipe 104, a communication hole is formed on one side of the inside of the assembling frame 102, two fuel pipes 303 are installed on the assembling frame 102 via the communication hole, one ends of the two fuel pipes 303 are correspondingly installed inside the two heating furnace heads 301, and the other ends of the two fuel pipes 303 are communicated with the discharge end of the supply assembly 4.

Fourth embodiment,

Referring to fig. 5, in the present application, the discharge end of the supply assembly 4 is an oil pump 402 for delivering fuel to the heating assembly 3, wherein the oil pump 402 can be filled with fuel including diesel oil, biomass oil, waste engine oil, and the like during actual use.

In addition, as shown in fig. 5, in a most preferred embodiment, a flow dividing plate may be installed at the feed hopper of the oil pump 402 during actual use, so that when fuel is added, the fuel enters different fuel pipes 303 according to different lateral positions of fuel addition, and thus, by the arrangement, the two heating furnace heads 301 can use different fuels for combustion during actual use.

Fifth embodiment (V),

Referring to fig. 1 and 2, in the present application, a plurality of universal wheels 2 are fixed at the bottom of a bracket 101, and the plurality of universal wheels 2 are uniformly distributed and installed at both sides of the bottom of the bracket 101, wherein an armrest 5 is fixed at one end of the outer portion of the bracket 101, and the armrest 5 changes the position of the bracket 101 by pushing the universal wheels 2 installed at the bottom of the bracket 101.

It is emphasized that the universal wheel 2 is installed through the bottom of the support 101, and the handrail 5 is installed at one end outside the support 101, so that the working place of the device can be adjusted by means of the handrail 5 and the universal wheel 2 when the device is in actual use, the applicable place of the device is improved to a certain extent, and the flexibility of the device when the device is in actual use is indirectly improved.

Embodiment six,

As can be seen from fig. 5, in the present application, a carrying panel 6 for carrying the supply assembly 4 is fixed to an end of the stand 101 near the supply assembly 4, wherein an electric control panel 403 for controlling the supply assembly 4 is fixed to the stand 101 at the outside of the end.

It should be added that the top of the carrying panel 6 carries the oil pump 402 and the fan 401, and the electric control panel 403 is electrically connected with the oil pump 402 and the fan 401.

The working place of the device is adjusted, the applicable place of the device is improved to a certain extent, and the flexibility of the device in actual use is indirectly improved.

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

Claims (5)

1. A high thermal efficiency catalytic heating apparatus, comprising:

the bracket is used for bearing the high-heat-efficiency catalytic heating device;

the heating component is arranged at one end inside the bracket, and ejects high-temperature heating flame by virtue of the output end of the heating component;

a supply assembly installed at the other end of the inside of the bracket, communicating with the heating assembly, and supplying necessary gas to the heating assembly;

the heating assembly includes:

the heating device comprises heating components, wherein two heating furnace heads are arranged, the two heating furnace heads are different in specification, a separation pipe is arranged between the two heating furnace heads, the separation pipe is an input end of the heating components, a baffle plate is arranged at the middle end of the inside of the separation pipe, an air conveying pipe is arranged at the bottom of the position where the baffle plate is arranged on the separation pipe, the air conveying pipe is an output end of the supply component, and the air conveying pipe separates and conveys gas led out from the supply component into the two heating furnace heads by virtue of the baffle plate;

the discharge end of the supply assembly is an oil pump and is used for conveying fuel to the heating assembly, different fuels are input to the heating assembly when the oil pump is in operation, the feeding end of the oil pump is a feeding funnel, a splitter plate is arranged at the feeding funnel, and the splitter plate is used for enabling the fuel to enter different fuel pipes according to different lateral positions of fuel addition when the fuel is added, so that two heating furnace heads use different fuels for combustion when in operation;

the middle end of the inside of the bracket is fixedly provided with an assembly frame, the bottom of the assembly frame is fixedly provided with a sleeve ring, the sleeve ring is used for limiting the position of the air conveying pipe, one side of the inside of the assembly frame is provided with a communication hole, the assembly frame is provided with two fuel pipes by means of the communication hole, one ends of the two fuel pipes are correspondingly arranged in the two heating furnace heads, and the other ends of the two fuel pipes are communicated with the discharge end of the supply assembly;

the supply assembly further includes: and the fan is used for conveying air to the heating component through the air conveying pipe.

2. A high thermal efficiency catalytic heating apparatus as defined in claim 1, wherein: two connected furnace body panels are arranged at one end, close to the heating assembly, of the outer part of the bracket;

an ignition coil is arranged between the furnace body panel and the heating furnace end which is positioned in the same vertical plane with the furnace body panel;

the discharge end of the ignition coil is arranged in the heating furnace end, and the power supply end of the ignition coil is electrically connected with the inside of the furnace body panel;

the furnace body panel is used for controlling the work of the heating furnace end by means of the ignition coil.

3. A high thermal efficiency catalytic heating apparatus as defined in claim 1, wherein: a connecting frame is fixed at the top end of the outer part of the heating furnace end;

the tail end of the connecting frame is fixed with the frame body of the bracket, and the heating furnace end is arranged in the bracket by means of the connecting frame.

4. A high thermal efficiency catalytic heating apparatus as defined in claim 1, wherein: the bottom of the bracket is fixedly provided with a plurality of universal wheels which are uniformly distributed and arranged on two sides of the bottom of the bracket;

an armrest is fixed at one end of the outer part of the bracket, and the armrest changes the position of the bracket by pushing a universal wheel arranged at the bottom of the bracket.

5. A high thermal efficiency catalytic heating apparatus as defined in claim 1, wherein: a bearing panel for bearing the feeding assembly is fixed at one end, close to the feeding assembly, inside the bracket;

the support is fixed with the automatically controlled panel that is used for controlling the supply assembly outside being close to the one end of supply assembly.