JP2019158322A - Endurance boiler device utilizing energy high performance - Google Patents

Abstract

To provide an endurance boiler utilizing energy high performance.SOLUTION: A bottom furnace is especially designed, a porous heating sheet is installed above the bottom surface and a boiler casing sheet and a boiler inner casing are arranged on the porous heating sheet, so that a structure of the porous heating sheet is simple, easily replaceable, and the possibility of boiler container being damaged is reduced and also due to the porous heating sheet and the porous heating plate having a high heat exchanging power, it is possible to realize heating against the boiler and it has a high utilization factor. In addition, since an exclusive bracket supporting fuel within the bottom furnace is installed, it is possible to prevent a problem that air cannot be inputted due to accumulation of fuel and an efficiency of fuel is substantially improved. Since not only a convenient supply of fuel but also agitation members can agitate liquid within the boiler from different directions, it is possible to reduce effectively a formation of scale at a boiler inner wall, protect the boiler, and improve a heat transfer efficiency.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a durable boiler device that uses energy with high efficiency, and belongs to the technical field of boiler equipment.

  A boiler is a type of energy conversion facility and usually includes two main parts: a furnace and a furnace. The hot water or steam generated in the boiler can not only directly provide the thermal energy necessary for industrial production and civilian life, but also can be converted into mechanical energy via a steam power unit, or the mechanical energy can be further converted via a generator. It can also be converted into electrical energy.

  The conventional boiler structure is relatively simple. Usually, an additional furnace may be installed in a large vessel, and a blower is installed as an accessory. However, since the boiler having such a structure relies only on the blower equipment when performing the heating operation, it is often difficult to completely burn the fuel, and if a large amount of fuel is added at one time, fuel is wasted. Is likely to occur. In addition, since the water container is placed directly in the furnace, after use for a long period of time, not only does the scale easily accumulate in the container, but it also tends to burn out. In addition, since such a large container is expensive and difficult to replace, conventional boilers generally have problems of short life and low heat energy exchange efficiency.

  The present invention has been made in view of the above problems, and provides a durable boiler device with high energy use that can extend the service life of a boiler and improve the utilization rate of boiler fuel. Objective.

To achieve the above object, a highly efficient durable boiler apparatus according to the present invention includes a base, a base, a boiler casing sheet, a boiler inner casing, an inner casing support seat, a porous heating sheet, and a bottom furnace member.
A bottom furnace member is installed at the base, and the porous heating sheet is installed above the furnace chamber of the bottom furnace member, and the porous heating sheet is supported by the bottom furnace member by the base. Has been
A boiler casing sheet is supported and installed on the porous heating sheet, a boiler internal casing is installed in the boiler casing sheet, and a plurality of porous heatings are provided on the inner wall of the boiler casing sheet. A cylinder is installed, and the axis of the hole of the porous heating cylinder is installed to face the boiler inner casing;
A thermocouple member extending into the boiler inner casing is fixed to the boiler casing sheet,
In the boiler inner casing, at least one set of stirring members is installed,
A blower member communicating with the furnace chamber is installed below the bottom furnace member,
In the furnace chamber of the bottom furnace member, a fuel bracket member that sufficiently contacts the fuel and the air sent by the air blowing member is installed,
A first circulation pipe, a second circulation pipe 2 and a third circulation pipe extending from the boiler casing sheet are further installed at the top of the boiler inner casing.

  Further preferably, the bottom furnace member includes a bottom furnace, a bottom furnace cover lock, a bottom furnace cover, a fuel supply door and a roll, and the bottom furnace is attached to the base by a high temperature heat-resistant sheet, A heat insulation shell is installed outside the furnace, a bottom furnace cover that can be opened and closed is installed on one side of the bottom furnace, and the porous heating sheet is installed at the top opening of the bottom furnace. A bottom furnace cover lock is installed on the porous heating sheet; the bottom furnace cover is installed so as to be opened and closed by the bottom furnace cover lock; and a fuel supply door is provided outside the bottom furnace cover. The bottom of the fuel supply door is movably installed on the slide rail of the base by the roll, and the cross section of the bottom furnace is a C-type or U-type structure A.

  Further preferably, the fuel bracket member includes a support air permeability bar, a first bent support frame, a second bent support frame, and a C-type exhaust frame, and a bottom portion of the bottom furnace communicates with an exhaust port of the blower member. A C-type exhaust frame is installed above the blow hole, and a support air permeability bar extending upward is installed at the upper end of the C-type exhaust frame. The C-shaped exhaust frame and the support air-permeable bar are provided with air-permeable holes, and the air-permeable holes are provided at the top of the support air-permeable bar, and the first bent support frame and Each of the second bent support frames has a bent structure, and the first bent support frame is installed horizontally on one side of the bottom furnace away from the bottom furnace cover, and the second bent support frame is It is installed on one side close to the bottom furnace cover in the bottom furnace so as to be inclined.

  Further preferably, a plurality of support protrusions are arranged in an array on both the upper and lower ends of the first bent support frame and the second bent support frame.

  Further preferably, the blower member includes a blower, a high-temperature heat-resistant connection pipe and a blower controller, the blower is connected to the bottom furnace internal chamber via the high-temperature heat-resistant connection pipe, and the blower controller is connected to the blower. ing.

  Further preferably, the stirring member includes a stirring driver, a first blade, a second blade, and a third blade, the stirring driver is attached to the boiler casing sheet, and the stirring shaft of the stirring driver is The first blade, the second blade, and the third blade are installed in the stirring shaft at intervals from the inside of the boiler inner casing to the outside in order. Is configured to flow the liquid toward the center of the boiler, the second blade is configured to flow the liquid toward the inner wall of the boiler, and the third blade is configured to flow the liquid to the boiler. It is comprised so that it may flow toward the one side which has attached the stirring drive.

  Further, preferably, the thermocouple member includes an upper thermocouple and a lower thermocouple, and the upper thermocouple and the lower thermocouple are installed so as to be symmetric to the boiler casing sheet, and the upper thermocouple and the lower thermocouple are disposed. Both of the pairs are fixed in a thermocouple protective cover, and the probes of the upper thermocouple and the lower thermocouple extend into the inner casing of the boiler, and a thermocouple fixing flange is attached to the outer end of the thermocouple protective cover. The thermocouple fixing flange is fixed to a boiler casing sheet by a flange frame, and a control line connector connected to the thermocouple is further installed on the thermocouple fixing flange.

  Further preferably, the porous heating cylinder has a cylindrical structure, both ends of the porous heating cylinder are arc-shaped connection connectors, and the porous heating cylinder has a plurality of heat exchanges along its axial direction. The holes are densely opened, and the heat exchange holes are installed toward the boiler inner casing.

  Further preferably, the porous heating cylinder is made of a high temperature heat resistant ceramic or a high temperature heat resistant metal.

Compared with the prior art, preferred effects of the present invention are as follows.
In the present invention, the bottom furnace is specially designed, a porous heating sheet is installed above the bottom furnace, and the boiler casing sheet and the boiler inner casing are provided on the porous heating sheet. The structure of the heating sheet is simple, easy to replace, reduces the possibility of damage to the boiler vessel, and the heat exchange capacity of the porous heating sheet and porous heating plate is strong, so the heating to the boiler should be realized Can be used and the utilization rate is high Further, in the present invention, since a dedicated bracket for supporting the fuel is installed in the bottom furnace, it is possible to prevent a problem that air does not enter due to fuel accumulation, and the efficiency of the fuel is greatly improved. In the present invention, not only the fuel supply is convenient, but also the stirring member can stir the liquid in the boiler from different directions, so that the formation of scale on the boiler inner wall can be effectively reduced. Protect boilers and improve heat transfer efficiency.

It is a figure which shows the structure of the durable boiler apparatus of energy efficient utilization which concerns on this invention. It is a figure which shows the structure of the thermocouple attachment member of the durable boiler apparatus using energy high efficiency based on this invention. It is a figure which shows the structure of the bending | flexion support frame of the durable boiler apparatus using energy high efficiency based on this invention. It is a figure which shows the external structure of the porous heating cylinder of the durable boiler apparatus of high energy utilization which concerns on this invention. It is a figure which shows the cross-section of the porous heating cylinder of the durable boiler apparatus of high energy utilization which concerns on this invention.

  The technical solutions in the embodiments of the present invention will be described clearly and completely below with reference to the drawings in the embodiments of the present invention. Of course, the described embodiments are only some of the embodiments of the present invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person skilled in the art on the premise that no creative labor is applied belong to the protection scope of the present invention.

As shown in FIG. 1, the energy efficient boiler unit according to the present invention includes a base 17, a base 1, a boiler casing sheet 2, a boiler inner casing 3, an inner casing support seat 4, a porous heating sheet 5, and Including a bottom furnace member,
A bottom furnace member is installed in the base 17, and a porous heating sheet 5 is installed above the furnace chamber of the bottom furnace member. The porous heating sheet 5 is supported by the bottom furnace member by the base 1. And
A boiler casing sheet 2 is supported and installed on the porous heating sheet, and a boiler internal casing 3 is installed in the boiler casing sheet 2. A plurality of porous heating cylinders 11 are installed on the inner wall of the boiler casing sheet, and the hole axis of the porous heating cylinder 11 is installed so as to face the boiler internal casing. And
The boiler casing sheet is fixedly provided with a thermocouple member extending into the boiler inner casing.
At least one set of stirring members is installed in the boiler inner casing,
A blower member communicating with the furnace chamber is installed below the bottom furnace member,
In the furnace chamber of the bottom furnace member, there is further installed a fuel bracket member that sufficiently contacts the fuel and the air sent by the blowing member,
A first circulation pipe 22, a second circulation pipe 23, and a third circulation pipe 24 extending from the boiler casing sheet are further installed at the top of the boiler inner casing.

  In this embodiment, the bottom furnace member includes a bottom furnace 26, a bottom furnace cover lock 12, a bottom furnace cover 13, a fuel supply door 14 and a roll 15, and the bottom furnace 26 is attached to the base 17 by a high temperature heat resistant sheet. A heat insulation shell is installed outside the bottom furnace, a bottom furnace cover 13 that can be opened and closed is installed on one side of the bottom furnace, and a porous heating sheet is installed at the top opening of the bottom furnace. A bottom furnace cover lock 12 is installed on the porous heating sheet 5, and the bottom furnace cover is installed so as to be opened and closed by a bottom furnace cover lock. A fuel supply door 14 is provided outside the bottom furnace cover 13. The lower end of the fuel supply door is movably installed on the base slide rail by a roll 15, and the bottom furnace has a C-shaped or U-shaped cross section.

  As a preferred embodiment, the fuel bracket member includes a support air permeability bar 19, a first bent support frame 20, a second bent support frame 21, and a C-type exhaust frame 25. A C-type exhaust frame 25 is installed above the blow hole, and a support air-permeable bar 19 extending upward is installed at the upper end of the C-type exhaust frame 25. In addition, a vent hole is provided at a connection portion between the C-type exhaust frame 25 and the support air permeability bar, and an air permeability hole is also provided at the top of the support air permeability bar. The second bent support frame 21 has a bent structure, and the first bent support frame 20 is horizontally installed in one side away from the bottom furnace cover in the bottom furnace. Is installed on one side close to the bottom furnace cover at the bottom furnace so as to be inclined upward.

  As shown in FIG. 3, a plurality of support projections 32 are arranged in an array on both the upper and lower ends of the first bent support frame and the second bent support frame.

  As shown in FIG. 1, the blower member includes a blower, a high-temperature heat-resistant connection pipe, and a blower controller. The blower is connected to the bottom furnace internal chamber via the high-temperature heat-resistant connection pipe, and the blower controller is connected to the blower. ing. The stirring member includes a stirring drive 7, a first blade 8, a second blade 9, and a third blade 10, and the stirring drive 7 is attached to the boiler casing sheet, and the stirring shaft of the stirring drive 7 is the inside of the boiler. The first blade 8, the second blade 9 and the third blade 10 are installed on the stirring shaft at intervals from the inside of the boiler inner casing to the outside in order. Is configured to flow toward the center of the boiler, the second blade is configured to flow the liquid toward the inner wall of the boiler, and the third blade is configured to cause the liquid to stir the boiler. It is comprised so that it may flow toward one side which attaches.

  As a more preferred embodiment, as shown in FIGS. 1 and 2, the thermocouple member includes an upper thermocouple 6 and a lower thermocouple 27, and the upper thermocouple and the lower thermocouple are installed symmetrically to the boiler casing sheet. Both the upper thermocouple and the lower thermocouple are fixed in the thermocouple protective cover 28, and the probes of the upper thermocouple and the lower thermocouple extend into the boiler inner casing, and are attached to the outside of the thermocouple protective cover. A thermocouple fixing flange 30 is installed at the end, the thermocouple fixing flange is fixed to the boiler casing sheet by a flange frame, and a control line connector 31 connected to the thermocouple is installed on the thermocouple fixing flange. Has been.

  In this embodiment, as shown in FIGS. 4 to 5, the porous heating cylinder has a cylindrical structure, both ends of the porous heating cylinder are arc-shaped connection connectors, and the porous heating cylinder is along the axial direction thereof. A plurality of heat exchange holes 33 are densely opened, and the heat exchange holes are installed toward the boiler inner casing. The porous heating cylinder is made of a high temperature heat resistant ceramic or a high temperature heat resistant metal.

  In the present invention, the bottom furnace is specially designed, a porous heating sheet is installed above the bottom furnace, and the boiler casing sheet and the boiler inner casing are provided on the porous heating sheet. The structure of the heating sheet is simple, easy to replace, reduces the possibility of damage to the boiler vessel, and the heat exchange capacity of the porous heating sheet and porous heating plate is strong, so the heating to the boiler should be realized Can be used and the utilization rate is high. Further, in the present invention, since a dedicated bracket for supporting the fuel is installed in the bottom furnace, it is possible to prevent a problem that air does not enter due to fuel accumulation, and the efficiency of the fuel is greatly improved. In the present invention, not only the fuel supply is convenient, but also the stirring member can stir the liquid in the boiler from different directions, so that the formation of scale on the boiler inner wall can be effectively reduced. Protect boilers and improve heat transfer efficiency.

  Although the embodiments of the present invention have been shown and described above, various modifications, corrections, substitutions and modifications to these embodiments can be made by those skilled in the art without departing from the principle and technical idea of the present invention. It is understood that the scope of the present invention is limited by the claims and their equivalents.

1 base,
2 boiler casing sheet,
3 Boiler inner casing,
4 inner casing support seat,
5 porous heating sheet,
6 Upper thermocouple,
7 Stirring drive,
8 First blade,
9 Second blade,
10 Third blade,
11 Porous heating cylinder,
12 Bottom furnace cover lock,
13 Bottom furnace cover,
14 Combustion supply door,
15 rolls,
16 air vents,
17 base,
18 Blower member,
19 Support air permeability bar,
20 first bent support frame,
21 second bent support frame,
22 First circulation pipe,
23 Second circulation pipe,
24 Third circulation pipe,
25 C type exhaust frame,
26 bottom furnace,
27 Lower thermocouple,
28 thermocouple protective shell,
29 probes,
30 Thermocouple fixing flange,
31 control line connector,
32 support protrusions,
33 Heat exchange hole.

Claims (9)

An energy-efficient and durable boiler device including a base, a base, a boiler casing sheet, a boiler inner casing, an inner casing support seat, a porous heating sheet, and a bottom furnace member,
A bottom furnace member is installed at the base, and the porous heating sheet is installed above the furnace chamber of the bottom furnace member, and the porous heating sheet is supported by the bottom furnace member by the base. Has been
A boiler casing sheet is supported and installed on the porous heating sheet, a boiler internal casing is installed in the boiler casing sheet, and a plurality of porous heatings are provided on the inner wall of the boiler casing sheet. A cylinder is installed, and the axis of the hole of the porous heating cylinder is installed to face the boiler inner casing;
A thermocouple member extending into the boiler inner casing is fixed to the boiler casing sheet,
In the boiler inner casing, at least one set of stirring members is installed,
A blower member communicating with the furnace chamber is installed below the bottom furnace member,
In the furnace chamber of the bottom furnace member, a fuel bracket member that sufficiently contacts the fuel and the air sent by the air blowing member is installed,
The top of the boiler inner casing is further provided with a first circulation pipe, a second circulation pipe and a third circulation pipe extending from the boiler casing sheet,
A durable boiler device with high energy efficiency.   The bottom furnace member includes a bottom furnace, a bottom furnace cover lock, a bottom furnace cover, a fuel supply door and a roll, and the bottom furnace is attached to the base by a high-temperature heat-resistant sheet, and the outside of the bottom furnace A heat insulation shell is installed, a bottom furnace cover that can be opened and closed is installed on one side of the bottom furnace, the porous heating sheet is installed in an upper end opening of the bottom furnace, and the porous A bottom furnace cover lock is installed on the heating sheet, the bottom furnace cover is installed so that it can be opened and closed by the bottom furnace cover lock, and a fuel supply door is installed outside the bottom furnace cover, The lower end of the fuel supply door is movably installed on the slide rail of the base by the roll, and the cross section of the bottom furnace has a C-type or U-type structure. Durability boiler apparatus Energy Efficient utilization of claim 1 that.   The fuel bracket member includes a support air permeable bar, a first bent support frame, a second bent support frame, and a C-type exhaust frame, and a ventilation hole communicating with an exhaust port of the blowing member at the bottom of the bottom furnace A C-type exhaust frame is installed above the ventilation hole, and a support air-permeable bar extending upward is installed at the upper end of the C-type exhaust frame. An air-permeable hole is provided at a connection portion between the frame and the support air-permeable bar, and an air-permeable hole is provided at the top of the support air-permeable bar. The first bent support frame and the second bent support frame Are both bent structures, and the first bent support frame is horizontally installed in the bottom furnace on one side away from the bottom furnace cover, and the second bent support frame is inclined upward. Above Part furnace is installed at one side close to the bottom furnace cover in, high energy efficient use of durability boiler apparatus according to claim 2, characterized in that.   4. The energy efficient use durability according to claim 3, wherein a plurality of support protrusions are arranged in an array on both upper and lower ends of the first bent support frame and the second bent support frame. Boiler equipment.   The blower member includes a blower, a high-temperature heat-resistant connection pipe and a blower controller, the blower is connected to a bottom furnace internal chamber via a high-temperature heat-resistant connection pipe, and the blower controller is connected to the blower. The durable boiler apparatus of the high energy use of Claim 1 characterized by these.   The stirring member includes a stirring drive, a first blade, a second blade, and a third blade, and the stirring drive is attached to the boiler casing sheet, and the stirring shaft of the stirring drive is the boiler inner casing. A first blade, a second blade, and a third blade are disposed on the agitation shaft in order from the inside of the boiler inner casing to the outside at intervals, and the first blade supplies liquid to the boiler. The second blade is configured to flow the liquid toward the inner wall of the boiler, and the third blade is configured to flow the liquid to the boiler agitation driver. The durable boiler equipment for effectively using energy according to claim 1, wherein the boiler equipment is configured to flow toward one side to be attached. .   The thermocouple member includes an upper thermocouple and a lower thermocouple, and the upper thermocouple and the lower thermocouple are installed so as to be symmetric with respect to the boiler casing sheet, and both the upper thermocouple and the lower thermocouple are thermocouples. It is fixed inside the protective cover, and the upper and lower thermocouple probes extend into the boiler inner casing, and a thermocouple fixing flange is installed on the outer end of the thermocouple protective cover. The thermocouple fixing flange is fixed to a boiler casing sheet by a flange frame, and a control line connector connected to the thermocouple is further installed on the thermocouple fixing flange. A durable boiler device that effectively uses the energy described in 1.   The porous heating cylinder has a cylindrical structure, both ends of the porous heating cylinder are arc-shaped connection connectors, and a plurality of heat exchange holes are densely opened along the axial direction in the porous heating cylinder. 2. The durable boiler device according to claim 1, wherein the heat exchange hole is installed toward the boiler inner casing.   9. The durable boiler apparatus according to claim 8, wherein the porous heating cylinder is made of a high temperature heat resistant ceramic or a high temperature heat resistant metal.