CN216080388U - Assembled organic heat carrier boiler - Google Patents

Abstract

The utility model discloses an assembled organic heat carrier boiler, which comprises: the boiler comprises a boiler body, wherein a support is fixed at the lower end of the boiler body, and one end of the boiler body is connected with a liquid injection pipe; the liquid discharge pipe is connected to one end of the boiler body, which is connected with the liquid injection pipe, and a rotary valve is arranged outside the liquid discharge pipe; and a heater installed at one side of the boiler body, and a controller installed at one side of the heater. This assembled organic heat carrier boiler is provided with the collector tube and can passes through the conduction oil after the heating and pump into wherein, the heat of conduction oil is incessantly gathered in making the collector tube, makes the heat of the interior conduction oil of collector tube keep a higher degree, is convenient for be connected with the equipment that needs the heating, compares this boiler direct heat supply, and the temperature is more stable to after the heating finishes, the waste heat in the collector tube can also flow through out to other if heating equipment heats, carries out reuse to the waste heat.

Description

Assembled organic heat carrier boiler

Technical Field

The utility model relates to the technical field of boilers with heat carriers, in particular to an assembled organic heat carrier boiler.

Background

The organic heat carrier boiler is a novel heat energy conversion device with high-temperature heat conduction oil as a heat-carrying working medium, so the organic heat carrier boiler is also called a heat conduction oil boiler. The organic heat carrier furnace is divided into a liquid phase and a gas phase, and most of the organic heat carrier furnaces are in the liquid phase. The high-temperature heat conduction oil heated by the boiler is continuously heated in the boiler body, the high-temperature heat conduction oil can be cooled only by cutting off the power supply to stop heating when the boiler is not used, and the waste heat of the heat conduction oil after the heating is finished can not be well stored and can not be reused.

After an assembled organic heat carrier boiler on the market heats other equipment in use, high-temperature heat conduction oil of a heating boiler generally circulates between a boiler body and the heated equipment, when heating is required to be stopped, heat supply can be stopped only by cutting off power supply, and heat stored in the heated heat conduction oil cannot be stored, so that energy waste is caused.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an assembled organic heat carrier boiler, which aims to solve the problem that after the assembled organic heat carrier boiler in the market provided by the background art is used for heating other equipment, high-temperature heat conduction oil of a heating pot generally circulates between a boiler body and the heated equipment, when the heating needs to be stopped, the heat supply can be stopped only by cutting off the power supply, and the heat stored in the heated heat conduction oil cannot be stored, so that the energy is wasted.

In order to achieve the purpose, the utility model provides the following technical scheme: an assembled organic heat carrier boiler comprising:

the boiler comprises a boiler body, wherein a support is fixed at the lower end of the boiler body, and one end of the boiler body is connected with a liquid injection pipe;

the liquid discharge pipe is connected to one end of the boiler body, which is connected with the liquid injection pipe, and a rotary valve is arranged outside the liquid discharge pipe;

a heater installed at one side of the boiler body, a controller being installed at one side of the heater;

the inlet wire insulating pipe is connected to one end of the boiler body, which is connected with the liquid discharge pipe;

the boiler comprises a boiler body, a discharge pipe, an outlet insulating pipe, a plurality of parallel circulation pipes, a double-thread connector and a liquid pumping pipe, wherein the outlet insulating pipe is connected to one end, away from the discharge pipe, of the boiler body, the circulation pipes are connected to the upper portion of the outlet insulating pipe, the double-thread connector is connected to one end of each circulation pipe, and the other end of each double-thread connector is connected with the liquid pumping pipe.

Preferably, the liquid injection pipes are uniformly distributed along one side surface of the boiler body at equal intervals, and the liquid injection pipes form a communication structure through the boiler body and the liquid discharge pipe.

Preferably, the boiler body is further provided with:

a heating pipe penetrating inside the boiler body;

the heat collecting tank is connected to the other end of the circulating pipe, a liquid pump is mounted at the upper end of the heat collecting tank, and a control panel is mounted on one side of the heat collecting tank;

a temperature sensor installed inside the heat collecting tank;

and a liquid collecting pipe disposed at an inner lower end of the heat collecting tank.

Preferably, the wire inlet insulating pipe and the wire outlet insulating pipe form a communicating structure through the heating pipe, the end face structure of the heating pipe is an S-shaped structure, and the heating pipe and the liquid injection pipe are parallel to each other.

Preferably, the heat collection box forms a communicating structure through the circulation pipe and the boiler body, the circulation pipe forms a communicating structure through the double-thread connector and the liquid pumping pipe and the liquid pump, and the liquid pumping pipe and the liquid collecting pipe form a communicating structure.

Preferably, the structure of the header pipe is a spiral structure, and both ends of the header pipe are led out from the inside of the heat collection tank and inserted into the inside of the heater.

Preferably, the heat collecting tank is further provided with:

and the heat insulation flame-retardant foam is adhered to the inner side surface of the heat collection box.

Preferably, the heat-insulating flame-retardant foam is tightly attached to the inner side surface of the heat collection box, and a sealing structure is formed between the heat-insulating flame-retardant foam and the liquid collecting pipe.

Compared with the prior art, the utility model has the beneficial effects that: this assembled organic heat carrier boiler is provided with the collector tube and can passes through the conduction oil after the heating and pump into wherein, the heat of conduction oil is incessantly gathered in making the collector tube, makes the heat of the interior conduction oil of collector tube keep a higher degree, is convenient for be connected with the equipment that needs the heating, compares this boiler direct heat supply, and the temperature is more stable to after the heating finishes, the waste heat in the collector tube can also flow through out to other if heating equipment heats, carries out reuse to the waste heat.

The plurality of liquid injection pipes are arranged, so that the matched mineral heat conduction oil or the matched synthetic heat conduction oil can be conveniently and simultaneously injected according to the heating requirement, the heat conduction property of the mixed heat conduction oil is improved, the mixed heat conduction oil is timely discharged through the liquid discharge pipe after being used, and the heat conduction oil is prevented from being precipitated and deteriorated in the boiler body; the heating pipes are arranged in the boiler body in an S shape, the heating area is larger than that of a straight line, the heating efficiency is improved, and the electric loss is reduced.

The circulation pipe is connected with the liquid pumping pipe through the double-thread connector, so that the aperture of the pipeline connection part is reduced, the hydraulic pressure of the heat conduction oil pumped by the liquid pump is improved, the pumped heat conduction oil is accelerated to flow in the spiral liquid collecting pipe arranged at the lower end of the heat collecting box, and the heat loss is slowed down by accelerating the molecular heat movement; the thermal-insulated fire-retardant bubble cotton that separates that sets up can effectively isolated the heat dissipation in the thermal-arrest case, reduces energy loss, and the temperature information that the temperature sensor of thermal-arrest incasement internally mounted monitored can be looked over through control panel, avoids the thermal-arrest incasement high temperature to cause the incident, separates the thermal-insulated fire-retardant bubble cotton and can delay inside liquid circulation when the problem appears, avoids catching a fire, provides safe time for speedily carrying out rescue work.

Drawings

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

FIG. 2 is a schematic sectional perspective view of a boiler body according to the present invention;

FIG. 3 is a schematic sectional perspective view illustrating a heat collecting tank according to the present invention;

fig. 4 is an enlarged perspective view of the junction of the flow tube of the present invention.

In the figure: 1. a boiler body; 2. a heater; 3. a controller; 4. leading in an insulating tube; 5. an outgoing line insulating tube; 6. a liquid injection pipe; 7. a liquid discharge pipe; 8. a support; 9. a flow-through tube; 10. a heat collection tank; 11. heating a tube; 12. a liquid pumping pipe; 13. a liquid pump; 14. a control panel; 15. a temperature sensor; 16. a liquid collecting pipe; 17. heat-insulating flame-retardant foam; 18. a double-threaded connector; 19. the valve is rotated.

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.

Referring to fig. 1-2, the present invention provides a technical solution: an assembled organic heat carrier boiler comprising: the boiler comprises a boiler body 1, wherein a support 8 is fixed at the lower end of the boiler body 1, and one end of the boiler body 1 is connected with a liquid injection pipe 6; a liquid discharge pipe 7 connected to one end of the boiler body 1 to which the liquid injection pipe 6 is connected, and a rotary valve 19 is provided outside the liquid discharge pipe 7; the liquid injection pipes 6 are uniformly distributed along one side surface of the boiler body 1 at equal intervals, and the liquid injection pipes 6 form a communication structure through the boiler body 1 and the liquid discharge pipe 7; the plurality of liquid injection pipes 6 are arranged, so that the matched mineral heat conduction oil or the matched synthetic heat conduction oil can be conveniently and simultaneously injected according to the heating requirement, the heat conduction property of the mixed heat conduction oil is improved, the mixed heat conduction oil is timely discharged through the liquid discharge pipe 7 after being used, and the heat conduction oil is prevented from being precipitated and deteriorated in the boiler body 1; a heater 2 installed at one side of the boiler body 1, a controller 3 being installed at one side of the heater 2; the inlet wire insulating pipe 4 is connected to one end of the boiler body 1, which is connected with the liquid discharge pipe 7; the wire inlet insulating pipe 4 and the wire outlet insulating pipe 5 form a communicating structure through the heating pipe 11, the end surface structure of the heating pipe 11 is an S-shaped structure, and the heating pipe 11 and the liquid injection pipe 6 are parallel to each other; the arranged heating pipes 11 are arranged in the boiler body 1 in an S shape, the heating area is larger than that of a straight line, the heating efficiency is improved, and the electric loss is reduced; the outlet insulating pipe 5 is connected to one end, far away from the liquid discharge pipe 7, of the boiler body 1, a plurality of parallel circulation pipes 9 are connected above the outlet insulating pipe 5, one end of each circulation pipe 9 is connected with a double-thread connector 18, and the other end of each double-thread connector 18 is connected with a pump liquid pipe 12; a heating pipe 11 penetrating inside the boiler body 1; the heat collecting box 10 forms a communicating structure with the boiler body 1 through the circulating pipe 9, the circulating pipe 9 forms a communicating structure with the liquid pump 13 through the double-thread connector 18 and the liquid pumping pipe 12, and the liquid pumping pipe 12 forms a communicating structure with the liquid collecting pipe 16; the circulation pipe 9 is connected with the liquid pumping pipe 12 through the double-thread connector 18, so that the aperture of the pipeline connection part is reduced, the hydraulic pressure of the heat conduction oil pumped by the liquid pump 13 is improved, the pumped heat conduction oil flows in the spiral liquid collecting pipe 16 arranged at the lower end of the heat collecting box 10 at an accelerated speed, and the heat loss is slowed down by accelerating the molecular heat motion.

Referring to fig. 3-4, the present invention provides a technical solution: an assembled organic heat carrier boiler comprising: a heat collecting tank 10 connected to the other end of the circulation pipe 9, a liquid pump 13 installed at an upper end of the heat collecting tank 10, and a control panel 14 installed at one side of the heat collecting tank 10; a temperature sensor 15 installed inside the heat collecting tank 10; a header pipe 16 disposed at an inner lower end of the heat collecting tank 10; the structure of the header pipe 16 is a spiral structure, and both ends of the header pipe 16 are led out from the inside of the heat collecting tank 10 and inserted into the inside of the heater 2; the arranged liquid collecting pipe 16 can pump heated heat-conducting oil into the liquid collecting pipe 16 through the liquid pump 13, so that the heat of the heat-conducting oil in the liquid collecting pipe 16 is accumulated ceaselessly, the heat of the heat-conducting oil in the liquid collecting pipe 16 is kept at a higher degree, the heat-conducting oil is convenient to be connected with equipment needing heating, the temperature is more stable compared with the direct heat supply of a boiler, and after the heating is finished, the waste heat in the liquid collecting pipe 16 can also flow out to heat other heating equipment, such as heating equipment, and the waste heat is reused; a heat insulating and flame retardant foam 17 adhered to an inner side surface of the heat collecting tank 10; the heat insulation flame-retardant foam 17 is tightly attached to the inner side surface of the heat collection box 10, and a sealing structure is formed between the heat insulation flame-retardant foam 17 and the liquid collecting pipe 16; the arranged heat-insulation flame-retardant foam 17 can effectively isolate the heat loss in the heat collection box 10, the energy loss is reduced, the temperature information monitored by the temperature sensor 15 arranged in the heat collection box 10 can be checked through the control panel 14, the safety accident caused by overhigh temperature in the heat collection box 10 is avoided, when the problem occurs, the heat-insulation flame-retardant foam 17 can delay the circulation of internal liquid, the fire is avoided, and the safety time is provided for emergency rescue.

The working principle is as follows: for the assembled organic heat carrier boiler, firstly, the boiler body 1 is horizontally and stably placed in a dry working environment through a bracket 8 to avoid the accumulation of surrounding sundries, then, heat conducting oil is injected into the boiler body 1 through an injection pipe 6, a heater 2 is arranged at one side of the boiler body 1 and is communicated with the boiler body 1 through an inlet wire insulating pipe 4 and an outlet wire insulating pipe 5, a heating pipe 11 is connected with the inlet wire insulating pipe 4 and the middle part where the insulating pipe appears, the heating pipe 11 is electrified and heated by using a controller 3 to heat the heat conducting oil injected into the boiler body 1, then, a circulating pipe 9 is respectively connected with a pump liquid pipe 12 arranged on equipment to be heated and a heat collecting box 10, the circulating pipe 9 is connected with the pump liquid pipe 12 through a double-thread connector 18, the aperture of the connecting part is reduced, and the hydraulic pressure of the heat conducting oil pumped by a liquid pump 13 is improved, the pumped heat conduction oil is enabled to flow in a spiral liquid collecting pipe 16 arranged at the lower end of the heat collecting box 10 in a speed increasing mode, heat loss is reduced by matching heat insulation flame-retardant foam 17 filled in the heat collecting box 10, the temperature monitored by a temperature sensor 15 (model: Kenzhi FT-H20) embedded in the heat collecting box 10 can be monitored through a control panel 14, a liquid pump 13 can be conveniently closed in time to reduce the entering of high-temperature heat conduction oil, when heating is about to be finished, the heater 2 can be closed, heating is carried out through the residual temperature of the high-temperature heat conduction oil in the heat collecting pipe in the heat collecting box 10, the high-temperature heat conduction oil can be communicated to other equipment needing heating at any time for heating, when the boiler is not used for a long time, a rotary valve 19 on a liquid discharge pipe 7 can be opened to discharge the heat conduction oil, and heat conduction oil is prevented from being precipitated and deteriorated.

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 utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. An assembled organic heat carrier boiler, comprising:

the boiler comprises a boiler body (1), wherein a support (8) is fixed at the lower end of the boiler body (1), and one end of the boiler body (1) is connected with a liquid injection pipe (6);

the liquid discharge pipe (7) is connected to one end of the boiler body (1) connected with the liquid injection pipe (6), and a rotary valve (19) is arranged outside the liquid discharge pipe (7);

a heater (2) installed at one side of the boiler body (1), a controller (3) being installed at one side of the heater (2);

the inlet wire insulating pipe (4) is connected to one end, connected with the liquid discharge pipe (7), of the boiler body (1);

the boiler comprises a boiler body (1), an outlet insulating tube (5) connected to one end, far away from a liquid discharge pipe (7), of the boiler body (1), a plurality of parallel circulation pipes (9) are connected to the upper portion of the outlet insulating tube (5), a double-thread connector (18) is connected to one end of each circulation pipe (9), and a pump liquid pipe (12) is connected to the other end of each double-thread connector (18).

2. An assembled organic heat carrier boiler according to claim 1, characterized in that: annotate liquid pipe (6) and be equidistance evenly distributed along a side surface of boiler body (1), and annotate liquid pipe (6) and pass through to constitute the connectivity between boiler body (1) and fluid-discharge tube (7).

3. An assembled organic heat carrier boiler according to claim 1, characterized in that: the boiler body (1) is further provided with:

a heating pipe (11) that penetrates the inside of the boiler body (1);

the heat collecting tank (10) is connected to the other end of the circulating pipe (9), a liquid pump (13) is installed at the upper end of the heat collecting tank (10), and a control panel (14) is installed on one side of the heat collecting tank (10);

a temperature sensor (15) mounted inside said heat collecting tank (10);

a header pipe (16) disposed at an inner lower end of the heat collecting tank (10).

4. An assembled organic heat carrier boiler according to claim 3, characterized in that: the inlet wire insulating tube (4) is communicated with the outlet wire insulating tube (5) through a heating tube (11), the end face structure of the heating tube (11) is an S-shaped structure, and the heating tube (11) is parallel to the liquid injection tube (6).

5. An assembled organic heat carrier boiler according to claim 3, characterized in that: the heat collection box (10) is communicated with the boiler body (1) through a circulation pipe (9), the circulation pipe (9) is communicated with a liquid pump (13) through a double-thread connector (18) and a liquid pumping pipe (12), and the liquid pumping pipe (12) is communicated with a liquid collecting pipe (16).

6. An assembled organic heat carrier boiler according to claim 3, characterized in that: the structure of the liquid collecting pipe (16) is a spiral structure, and two ends of the liquid collecting pipe (16) are led out from the interior of the heat collecting box (10) and inserted into the interior of the heater (2).

7. An assembled organic heat carrier boiler according to claim 3, characterized in that: the heat collection box (10) is further provided with:

and the heat insulation flame-retardant foam (17) is adhered to the inner side surface of the heat collection box (10).

8. An assembled organic heat carrier boiler according to claim 7, characterized in that: the heat-insulating flame-retardant foam (17) is tightly attached to the inner side surface of the heat collection box (10), and a sealing structure is formed between the heat-insulating flame-retardant foam (17) and the liquid collecting pipe (16).

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