CN210463211U

CN210463211U - Heating stove cooling system

Info

Publication number: CN210463211U
Application number: CN201921520629.3U
Authority: CN
Inventors: 刘冬强; 王林丽
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-09-12
Filing date: 2019-09-12
Publication date: 2020-05-05
Anticipated expiration: 2029-09-12

Abstract

The utility model provides a heating stove cooling system, including furnace body and furnace, furnace's left and right, back wall and furnace body are encircleed respectively between the wall and are synthesized heat dissipation chamber, establish the pipe of discharging fume of many vertical ranges respectively in left and right heat dissipation intracavity, and every upper portion of discharging fume the pipe communicates with furnace respectively, and every lower part of discharging fume the pipe all communicates with the chamber of discharging fume, and the chamber of discharging fume passes through the exhaust fan and outdoor intercommunication in the furnace body, and the fan of blowing in the furnace body is connected with left and right heat dissipation chamber, and left and right heat dissipation chamber's upper portion communicates with the play thermovent on the furnace body respectively. The utility model discloses the heat is better to indoor radiating effect, and the thermal efficiency utilization ratio is higher, can practice thrift a large amount of fuels, reduces the use cost of heating stove to the produced cigarette of fuel burning can not enter into indoorly in the thorax in the use, has ensured the clean health of room air, is favorable to people's health.

Description

Heating stove cooling system

Technical Field

The utility model relates to a heating stove, concretely relates to heating stove cooling system.

Background

The heat generated by the existing heating furnace fuel after combustion in the hearth is mainly radiated by the hearth through the radiating port, and because the radiating surface of the hearth is limited, a lot of heat energy is directly discharged outdoors through the discharge flue, so that a large amount of heat is wasted, the heat efficiency utilization rate is low, and the fuel waste is large.

Disclosure of Invention

The utility model aims to solve the technical problem of providing a heating stove cooling system that the radiating effect is good, the thermal efficiency is high.

In order to solve the technical problem, the utility model discloses the technical scheme who takes is: a heating furnace heat dissipation system comprises a furnace body and a hearth, wherein a heat dissipation cavity is respectively enclosed between the left, right and rear walls of the hearth and the wall of the furnace body, a plurality of vertically arranged smoke exhaust pipes are respectively arranged in the left and right heat dissipation cavities, the upper part of each smoke exhaust pipe is respectively communicated with the hearth, the lower part of each smoke exhaust pipe is communicated with the smoke exhaust cavity, and the smoke exhaust cavity is communicated with the outside through an air exhaust fan in the furnace body; the blowing fan in the furnace body is connected with the left and right heat dissipation cavities, and the upper parts of the left and right heat dissipation cavities are respectively communicated with the heat outlet on the furnace body.

A shutter type hot air wind direction adjusting plate is arranged at a heat outlet on the furnace body.

And a heat conducting plate is also arranged at the heat outlet on the furnace body.

The upper end of the smoke exhaust pipe is a closed end.

The heating furnace heat dissipation system designed by the technical scheme is adopted in the utility model, heat released by fuel combustion in the hearth is released into each heat dissipation cavity in the process that the heat descends in a plurality of smoke exhaust pipes under the action of the air draft fan, then the heat is dissipated from the heat outlet under the action of the air draft fan, and meanwhile, the furnace wall also has a certain heat dissipation effect; on the other hand, the heat is also radiated to the indoor through the furnace door. The utility model discloses the heat that the back was taken away through the exhaust cigarette of tub of discharging fume in the combustion of fuel then reduces a lot in furnace, and most heat is all followed a heat release, compares with traditional heating stove heat dissipation, the utility model discloses the heat is better to indoor radiating effect, and the thermal efficiency utilization ratio is higher, can practice thrift a large amount of fuels, reduces the use cost of heating stove. In the using process, the utility model discloses the produced cigarette of fuel burning in the furnace can not enter into indoorly, has ensured the clean health of room air, is favorable to people's health.

Drawings

Fig. 1 shows a schematic front view of the heat dissipation system of the heating stove of the present invention;

fig. 2 shows a schematic side view of the heat dissipation system of the heating stove of the present invention;

fig. 3 shows a schematic top view of the heat dissipation system of the heating stove of the present invention.

Detailed Description

The heat dissipation system of the heating stove of the present invention will be specifically described with reference to the accompanying drawings.

Referring to fig. 1 to 3, the heat dissipation system of the heating stove of the present invention comprises a stove body 4 and a hearth 12 disposed in the stove body 4, wherein the front end of the hearth 12 is a stove body door 3. A left heat dissipation cavity 10 is enclosed between the left wall of the hearth 12 and the wall of the furnace body 4, a right heat dissipation cavity 15 is enclosed between the right wall of the hearth 12 and the wall of the furnace body 4, and a rear heat dissipation cavity 9 is enclosed between the rear wall of the hearth 12 and the wall of the furnace body 4. A plurality of vertically arranged smoke exhaust pipes 2 are arranged in the left heat dissipation cavity 10, the upper part of each smoke exhaust pipe 2 is communicated with the hearth 12 through a channel 11, the lower part of each smoke exhaust pipe 2 is communicated with the smoke exhaust cavity 5, and the upper end of each smoke exhaust pipe 2 is a closed end. Similarly, a plurality of vertically arranged smoke exhaust pipes 14 are arranged in the right heat dissipation cavity 15, the upper part of each smoke exhaust pipe 14 is communicated with the hearth 12 through a channel 13, the lower part of each smoke exhaust pipe 14 is communicated with the smoke exhaust cavity 5, and the upper end of each smoke exhaust pipe 14 is a closed end. The smoke exhaust cavity 5 is communicated with the outside through an air draft fan 6 arranged in the furnace body 4, and the air draft fan 6 exhausts smoke generated by fuel combustion in the heating furnace hearth 12 from a smoke exhaust port of the furnace body 4. Thus, the smoke generated by the combustion of the fuel under the action of the exhaust fan 6 is exhausted to the outside through an independent closed channel. The blowing fan 7 arranged in the furnace body 4 is connected with the left heat dissipation cavity 10 and the right heat dissipation cavity 15 through pipe channels, and the upper parts of the left heat dissipation cavity 10 and the right heat dissipation cavity 15 are respectively communicated with a heat outlet on the furnace body 4. The heat released by the fuel combustion in the hearth 12 is released into the heat dissipation cavity through the smoke exhaust pipe, and the air blowing fan 7 blows air into the heat dissipation cavity to blow out the heat from the heat outlet of the furnace body 4 through the heat dissipation cavity. Because the smoke exhaust channel and the heat exhaust channel are two relatively independent closed channels, smoke released by fuel combustion cannot be discharged into a room through the heat outlet, and the cleanness and sanitation of the indoor environment are ensured.

The utility model discloses the hot-blast wind direction regulating plate 1 that is the venetian blind formula is established to play hot junction department on furnace body 4, and in order to make the heat dissipation even, play hot junction department on furnace body 4 still is equipped with heat-conducting plate (not shown in the figure), and the heat-conducting plate can be with the indoor different directions of heat outlet direction from furnace body 4, ensures that the indoor distribution of heat is even, makes the room temperature rise fast.

Claims

1. A heating furnace heat dissipation system comprises a furnace body and a hearth and is characterized in that a heat dissipation cavity is respectively enclosed between the left, right and rear walls of the hearth and the wall of the furnace body, a plurality of vertically arranged smoke exhaust pipes are respectively arranged in the left and right heat dissipation cavities, the upper part of each smoke exhaust pipe is respectively communicated with the hearth, the lower part of each smoke exhaust pipe is communicated with the smoke exhaust cavity, and the smoke exhaust cavity is communicated with the outside through an air exhaust fan in the furnace body; the blowing fan in the furnace body is connected with the left and right heat dissipation cavities, and the upper parts of the left and right heat dissipation cavities are respectively communicated with the heat outlet on the furnace body.

2. The heating furnace heat dissipation system as defined in claim 1, wherein a louver-type hot air direction adjusting plate is provided at a heat outlet of the furnace body.

3. A heating furnace heat dissipation system as defined in claim 1 or 2, wherein a heat conducting plate is further provided at the heat outlet of the furnace body.

4. The heating furnace heat dissipation system as defined in claim 1, wherein the upper end of the smoke exhaust pipe is closed.