CN112856800A - Computing power type wall-mounted furnace - Google Patents

Abstract

The invention discloses a force calculation type wall-mounted furnace, which relates to the technical field of heating equipment and comprises a furnace-mounted box body, wherein a water tank, a heating unit and a circulating water pump are arranged in the furnace-mounted box body; the heating unit comprises at least one chip, the water in the water tank exchanges heat in the heating unit through the heat generated by the chip, and the water after heat exchange is output through the circulating water pump and exchanges heat with an external system again for heating or supplying heat. The wall-mounted boiler disclosed by the invention can be used for heating by waste heat through the heat generated by the operation of the control chip of the wall-mounted boiler, is high in heat collection efficiency, is better than most of the existing electric boilers in heating efficiency, is good in heating effect, can be used for heating at constant temperature, and is capable of saving the heating cost.

Description

Computing power type wall-mounted furnace

Technical Field

The invention relates to the technical field of heating equipment, in particular to a force calculation type wall-mounted furnace.

Background

The wall-mounted boiler is a gas heating and water heating dual-purpose boiler. The gas wall-mounted stove has a powerful household central heating function, can meet the heating requirements of multiple rooms, can set comfortable temperature at will according to the requirements in each room, can provide large-flow constant-temperature sanitary hot water, and is used in places such as household bathing and kitchens.

The wall-mounted boiler is a gas wall-mounted boiler, is called as a gas wall-mounted heating boiler for short, is a water heater taking natural gas as energy, and has various safety protection measures such as anti-freezing protection, anti-dry heating protection, accidental flameout protection, over-temperature protection, water pump anti-blocking protection and the like. The working principle of the wall-mounted boiler is as follows: when the ignition switch of the wall-mounted boiler enters a working state, the fan is started firstly to enable a negative pressure difference to be formed in the combustion chamber, the wind pressure switch sends an instruction to the water pump, after the water pump is started, the water flow switch sends an instruction to the high-voltage discharger, after the water pump is started, the instruction is sent to the gas proportional valve, and the gas proportional valve starts to be started. The gas proportional valve, the air pressure switch and the smoke sensing switch are in linkage control, the combustion chamber has certain negative pressure gas, the proportional valve can work, and when the smoke sensing switch does not detect that waste gas is discharged within 5 seconds, the gas proportional valve is cut off to stop gas supply, so that the safe use of the gas is ensured.

The existing wall-mounted furnace has low heating efficiency, so that the heating cost is increased.

Disclosure of Invention

In order to solve the problems in the prior art, the wall-mounted boiler supplies heat by using waste heat generated by the operation of the control chip of the wall-mounted boiler, has high heat collection efficiency, has better heating efficiency than most of the existing electric boilers, supplies heat at constant temperature, and saves the heating cost.

In order to achieve the above effects, the invention specifically adopts the following technical scheme:

a force-calculating type wall-hung furnace comprises a furnace-hung box body, a water tank, a heating unit and a circulating water pump are arranged in the furnace-hung box body,

the heating unit is provided with a water inlet and a water outlet, the water tank is communicated with the water inlet through a water pipe, and the water outlet is connected with the water inlet end of the circulating water pump through a water pipe;

the heating unit comprises at least one chip, the water in the water tank exchanges heat in the heating unit through the heat generated by the chip, and the water after heat exchange is output through the circulating water pump and exchanges heat with an external system again for heating or supplying heat.

The heating unit further comprises a heat dissipation device for dissipating heat of the chip, wherein the heat dissipation device comprises a heat dissipation plate, one end of the heat dissipation plate is sealed, and the other end of the heat dissipation plate is provided with a water inlet side and a water outlet side;

the heating panel is provided with the heat dissipation pipeline, the heat dissipation pipeline includes: the water inlet pipeline comprises a plurality of branch water inlet pipelines, a plurality of branch water outlet pipelines and a plurality of communication pipelines, wherein one end of each branch water inlet pipeline is communicated with the water inlet side, one end of each branch water outlet pipeline is communicated with the water outlet side, and the branch water inlet pipelines are communicated with the other ends of the branch water outlet pipelines through communication pipelines;

wherein, the branch water inlet pipelines and the branch water outlet pipelines are parallel to each other, and the distances among the pipelines are equal.

The heating unit further comprises one or more board card module heat dissipation units; the integrated circuit board module radiating unit includes: the heat dissipation plate is arranged between every two adjacent board cards and is respectively attached to two surfaces of the heat dissipation plate; the position of the heat dissipation plate corresponds to the position of the chip on the board card.

The further proposal is that the aperture sizes of the branch water inlet pipelines and the branch water outlet pipelines are the same.

The further scheme is that the branch water inlet pipelines and the branch water outlet pipelines are parallel to the long edge of the heat dissipation plate, and the communication pipeline is parallel to the short edge of the heat dissipation plate.

In a further scheme, a flowing heat carrier adopted by the heat dissipation plate is water, antifreeze or a phase-change material.

The further proposal is that an electrical control box is arranged in the furnace hanging box body.

The invention has the beneficial effects that:

the wall-mounted boiler disclosed by the invention can be used for heating by waste heat through the heat generated by the operation of the control chip of the wall-mounted boiler, the heat collection efficiency is high, the heating efficiency is higher than that of most of the existing electric boilers, the heating effect is good, the constant-temperature heating is realized, and the heating cost is saved;

according to the invention, the heat dissipation plate is arranged, and the plurality of parallel branch water inlet pipelines and the plurality of branch water outlet pipelines are arranged in the heat dissipation plate and are uniformly distributed in the heat dissipation plate, so that the flow of water flow from a water flow inlet to a water flow outlet is short, the water flow can be rapidly distributed in the whole heat dissipation plate, and excessive heat generated in the chip work can be timely taken away by the board card and the heat dissipation plate which are arranged alternately, the temperature of the chip is effectively reduced, the safe work of the chip is ensured, the liquid cooling heat dissipation of the chip is realized, the heat dissipation efficiency is high, the overall heat dissipation effect is better, the heat dissipation cost is low, the power consumption is 10% of that of air cooling, the traditional.

Drawings

Fig. 1 is a top view of a wall-hanging stove according to an embodiment of the invention, with the stove cover detached;

FIG. 2 is a perspective view of a heat sink plate according to an embodiment of the present invention;

FIG. 3 is a schematic structural diagram of a water flow passage in a heat sink plate according to an embodiment of the present invention;

FIG. 4 is a schematic diagram of the connection between the heat spreader and the board card according to the embodiment of the present invention;

the attached drawings are marked as follows: 1-hanging a furnace box body; 2-a water tank; 3-a heating unit; 30-chip; 31 a heat dissipation plate; 310-branch water inlet pipeline; 311-branch water outlet pipeline; 32-board card; 4-circulating water pump; 5-an electric control box.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

As shown in fig. 1-4, one embodiment of the invention discloses a force-calculating type wall-hung furnace, which comprises a furnace-hung box body 1, a water tank 2, a heating unit 3 and a circulating water pump 4 are arranged in the furnace-hung box body 1,

the heating unit 3 is provided with a water inlet and a water outlet, the water tank 2 is communicated with the water inlet through a water pipe, and the water outlet is connected with the water inlet end of the circulating water pump 4 through a water pipe;

the heating unit 3 includes at least one chip 30, the water in the water tank 2 is heat-exchanged in the heating unit 3 by the heat generated by the chip 30, and the heat-exchanged water is outputted by the circulating water pump 4 and heat-exchanged with an external system again for heating or supplying heat.

The wall-mounted boiler disclosed by the invention can be used for heating by waste heat through the heat generated by the operation of the control chip of the wall-mounted boiler, the heat collection efficiency is high, the heating efficiency is higher than that of most of the existing electric boilers, the heating effect is good, the constant-temperature heating is realized, and the heating cost is saved;

in this embodiment, the heating unit 3 further includes a heat dissipation device for dissipating heat from the chip 30, the heat dissipation device includes a heat dissipation plate 31, one end of the heat dissipation plate 31 is sealed, and the other end of the heat dissipation plate 31 is provided with a water inlet side and a water outlet side;

the heat dissipation plate 31 is provided with a heat dissipation pipeline including: a plurality of branch water inlet pipelines 310 with one ends communicated with the water inlet side, a plurality of branch water outlet pipelines 311 with one ends communicated with the water outlet side, and the plurality of branch water inlet pipelines 310 are communicated with the other ends of the plurality of branch water outlet pipelines 311 through a communication pipeline;

the branch inlet pipes 310 and the branch outlet pipes 311 are parallel to each other, and the distances between the pipes are equal.

In this embodiment, the heating unit 3 further includes one or more board card module heat dissipation units; the integrated circuit board module radiating unit includes: the heat dissipation plates 31 are arranged between every two adjacent board cards 32, and are respectively attached to two surfaces of each heat dissipation plate 31; the position of the heat dissipation plate 31 corresponds to the position of the chip on the board 32. Through alternate installation of integrated circuit board and heating panel, can in time take away the heat that integrated circuit board or chip produced in the work, the safe work of chip is ensured to effectual reduction chip temperature.

In the present embodiment, the pipe diameters of the branch water inlet pipes 310 and the branch water outlet pipes 311 are the same. The aperture can be as large as possible and the number can be as large as possible within the allowable range of the size of the heat dissipation plate and the strength of the pipeline wall.

In this embodiment, the branch inlet pipes 310 and the branch outlet pipes 311 are parallel to the long sides of the heat sink, and the communication pipes are parallel to the short sides of the heat sink.

In this embodiment, the flowing heat carrier used in the heat dissipation plate is water, antifreeze or phase change material. Through setting up foretell flow heat carrier, promote radiating efficiency.

In this embodiment, an electrical control box 5 is further provided in the furnace suspension box 1. The accurate operation of each part is controlled through the electric control box.

In the specific implementation process, the temperature of the chip is measured to be 58.5 ℃, the temperature of the outlet water is measured to be 55 ℃, the temperature of the water tank is measured to be 55 ℃, the temperature of the return water is measured to be 44 ℃, and the temperature of the room temperature is measured to be 27 ℃.

The heat dissipation plate is arranged to dissipate heat of the chip, and the plurality of parallel branch water inlet pipelines and the plurality of branch water outlet pipelines are arranged in the heat dissipation plate and are uniformly distributed in the heat dissipation plate, so that the flow of water flow from the water flow inlet to the water flow outlet is short, the water flow can be rapidly distributed in the whole heat dissipation plate, the heat dissipation efficiency is high, the integral heat dissipation effect is better, the traditional fan can be replaced, the noise is reduced, and the energy consumption is reduced.

Finally, only specific embodiments of the present invention have been described in detail above. The invention is not limited to the specific embodiments described above. Equivalent modifications and substitutions by those skilled in the art are also within the scope of the present invention. Accordingly, equivalent alterations and modifications are intended to be included within the scope of the invention, without departing from the spirit and scope of the invention.

Claims (7)

1. The utility model provides a calculation power type hanging stove, includes hanging stove box (1), its characterized in that:

a water tank (2), a heating unit (3) and a circulating water pump (4) are arranged in the furnace hanging box body (1),

the heating unit (3) is provided with a water inlet and a water outlet, the water tank (2) is communicated with the water inlet through a water pipe, and the water outlet is connected with the water inlet end of the circulating water pump (4) through a water pipe;

the heating unit (3) comprises at least one chip (30), heat exchange is carried out on water in the water tank (2) in the heating unit (3) through heat generated by heating of the chip (30), and the water after heat exchange is output through the circulating water pump (4) and is used for heating or supplying heat after heat exchange is carried out with an external system again.

2. A power-calculating fireplace as claimed in claim 1, wherein:

the heating unit (3) further comprises a heat dissipation device for dissipating heat of the chip (30), the heat dissipation device comprises a heat dissipation plate (31), one end of the heat dissipation plate (31) is sealed, and the other end of the heat dissipation plate (31) is provided with a water inlet side and a water outlet side;

the heating panel (31) is provided with a heat dissipation pipeline, the heat dissipation pipeline includes: the water inlet pipeline comprises a plurality of branch water inlet pipelines (310) with one ends communicated with a water inlet side, a plurality of branch water outlet pipelines (311) with one ends communicated with a water outlet side, wherein the branch water inlet pipelines (310) are communicated with the other ends of the branch water outlet pipelines (311) through communicating pipelines;

wherein, the branch water inlet pipelines (310) and the branch water outlet pipelines (311) are parallel to each other, and the distances between the pipelines are equal.

3. A power operated fireplace as claimed in claim 1 or claim 2 wherein:

the heating unit (3) further comprises one or more board card module heat dissipation units; the integrated circuit board module radiating unit includes: the heat dissipation plates (31) are mounted between every two adjacent board cards (32), and the board cards are respectively attached to two surfaces of each heat dissipation plate (31); the position of the heat dissipation plate (31) corresponds to the position of a chip on the board card (32).

4. A power-calculating fireplace as claimed in claim 2, wherein:

the pipe aperture sizes of the branch water inlet pipes (310) and the branch water outlet pipes (311) are the same.

5. A power-calculating fireplace as claimed in claim 2, wherein:

the branch water inlet pipelines (310) and the branch water outlet pipelines (311) are parallel to the long edge of the heat dissipation plate, and the communication pipelines are parallel to the short edge of the heat dissipation plate.

6. A power-calculating fireplace as claimed in claim 2, wherein:

the flowing heat carrier adopted by the heat dissipation plate is water, antifreeze or phase-change material.

7. A power-calculating fireplace as claimed in claim 1, wherein:

an electrical control box (5) is also arranged in the furnace hanging box body (1).

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