CN209180996U - Heating stove efficient heat-collecting system - Google Patents

Abstract

The utility model discloses a kind of heating stove efficient heat-collecting systems, and including the heat exchanging chamber being connected to combustion chamber of furnace body, heat exchanging chamber is coated with heat exchanging water-jacket, and more choked flow heat exchanger tubes are provided in heat exchanging chamber, and choked flow heat exchanger tube is connected to heat exchanging water-jacket；The end of heat exchanging chamber is provided with smoke discharging pipe, and smoke discharging pipe is coated with the smoke evacuation water jacket being connected to heat exchanging water-jacket, and choked flow heat exchanger tube is layered setting in heat exchanging chamber and the quantity of choked flow heat exchanger tube is successively reduced from bottom to top；The utility model increases on furnace body provided with heat exchanging water-jacket, choked flow heat exchanger tube, smoke evacuation water jacket, when flue gas, which carries heat, to be discharged by smoke discharging pipe, it can be successively by heat exchanging water-jacket, choked flow heat exchanger tube, smoke evacuation water jacket, sufficiently the heat absorption in flue gas is utilized, so that heat makes full use of, the thermal efficiency of heating stove is improved；Wherein, choked flow heat exchanger tube also has the effect of hindering heat quickly through increasing movement travel of the heat in heat exchanging chamber, realize further making full use of for heat.

Description

Heating stove efficient heat-collecting system

Technical field

The utility model relates to heating stove equipment technical field more particularly to a kind of heating stove efficient heat-collecting systems.

Background technique

Vast northern country family warming is most of all to use domestic water heating coal-burning stove for heating stove, can both be used to It cooks, and can be used for band heating and carry out heating, very convenient to use, popularity rate is very high.With the improvement of living standards, People are higher and higher to the performance requirement of hot-water heating coal-burning stove for heating stove, i.e., should seek a kind of safety economize on coal, be pollution-free, the thermal efficiency Stove high, family is easy to use, to meet the market demand of current domestic water heating coal-burning stove for heating stove.

A large amount of flue gases that heating stove generates in the prior art can directly flow away from flue, during flue gas flows away, can carry Amount of heat flows away from flue together, causes dissipated heat more, heat loss excessive velocities, so that the heat generated can not fill Divide and utilize, the thermal efficiency of heating stove is caused to reduce.

Utility model content

The technical problem to be solved by the utility model is to provide a kind of simple structure and reasonable design, make full use of heat Heating stove efficient heat-collecting system.

In order to solve the above technical problems, the technical solution of the utility model is: heating stove efficient heat-collecting system, including with The heat exchanging chamber of combustion chamber of furnace body's connection, the heat exchanging chamber are coated with heat exchanging water-jacket, more choked flows are provided in the heat exchanging chamber Heat exchanger tube, the choked flow heat exchanger tube are connected to the heat exchanging water-jacket；The end of the heat exchanging chamber is provided with smoke discharging pipe, the row Smoke pipeline is coated with the smoke evacuation water jacket being connected to the heat exchanging water-jacket；The choked flow heat exchanger tube is layered in the heat exchanging chamber and sets It sets and the quantity of the choked flow heat exchanger tube is successively reduced from bottom to top.

The choked flow heat exchanger tube is at least provided with two layers as a preferred technical solution,.

The longitudinally displaced arrangement of choked flow heat exchanger tube of adjacent two layers as a preferred technical solution,.

The gap between the choked flow heat exchanger tube of phase same layer exchanges heat less than the choked flow as a preferred technical solution, The outer diameter of pipe.

The choked flow heat exchanger tube is provided with three layers of total six roots of sensation as a preferred technical solution, is distributed in mountain shape.

By adopting the above-described technical solution, heating stove efficient heat-collecting system, is changed including what is be connected to combustion chamber of furnace body Hot chamber, the heat exchanging chamber are coated with heat exchanging water-jacket, and more choked flow heat exchanger tubes, the choked flow heat exchange are provided in the heat exchanging chamber Pipe is connected to the heat exchanging water-jacket；The end of the heat exchanging chamber is provided with smoke discharging pipe, and the smoke discharging pipe is coated with and institute State the smoke evacuation water jacket of heat exchanging water-jacket's connection；The choked flow heat exchanger tube is layered setting and the choked flow heat exchanger tube in the heat exchanging chamber Quantity successively reduce from bottom to top；The beneficial effects of the utility model are: compared with prior art, on the utility model furnace body Increase and be provided with the heat exchanging water-jacket, the choked flow heat exchanger tube, the smoke evacuation water jacket, passes through the smoke evacuation when flue gas carries heat When pipeline is discharged, it can successively pass through the heat exchanging water-jacket, the choked flow heat exchanger tube, the smoke evacuation water jacket, it sufficiently will be in flue gas Heat absorption utilizes, so that heat makes full use of, improves the thermal efficiency of heating stove；Wherein, the choked flow heat exchanger tube also has resistance Hinder heat quickly through effect, that is, movement travel of the heat in the heat exchanging chamber is increased, so that heat is slowly from institute Smoke discharging pipe outflow is stated, increases heat residence time in the heat exchanging chamber, realizes further making full use of for heat；This reality With new structure is simple, design rationally, make full use of the heat of heating stove, improve the thermal efficiency of heating stove.

Detailed description of the invention

Following drawings are only intended to schematically illustrate and explain the present invention, does not limit the model of the utility model It encloses.Wherein:

Fig. 1 is the structural schematic diagram of the utility model embodiment；

Fig. 2 is the structural schematic diagram of the utility model embodiment choked flow heat exchanger tube；

Fig. 3 is the working principle diagram of the utility model embodiment choked flow heat exchanger tube；

In figure: 1- combustion chamber of furnace body；2- heat exchanging chamber；3- heat exchanging water-jacket；4- smoke discharging pipe；5- smoke evacuation water jacket；6- choked flow is changed Heat pipe.

Specific embodiment

With reference to the accompanying drawings and examples, the utility model is further described.In the following detailed description, only pass through Bright mode describes certain exemplary embodiments of the utility model.Undoubtedly, those skilled in the art can be with It recognizes, it, can be with a variety of different modes to described without departing from the spirit and scope of the utility model Embodiment is modified.Therefore, attached drawing and description are regarded as illustrative in nature, rather than the protection for limiting claim Range.

As shown in Figure 1 to Figure 3, heating stove efficient heat-collecting system, including the heat exchanging chamber 2 being connected to combustion chamber of furnace body 1, institute It states heat exchanging chamber 2 and is coated with heat exchanging water-jacket 3, more choked flow heat exchanger tubes 6, the choked flow heat exchanger tube 6 are provided in the heat exchanging chamber 2 It is connected to the heat exchanging water-jacket 3；The end of the heat exchanging chamber 2 is provided with smoke discharging pipe 4, the smoke discharging pipe 4 be coated with The smoke evacuation water jacket 5 that the heat exchanging water-jacket 3 is connected to；The choked flow heat exchanger tube 6 is layered setting and the choked flow in the heat exchanging chamber 2 The quantity of heat exchanger tube 6 is successively reduced from bottom to top；Compared with prior art, the present embodiment increases on furnace body is provided with described change Hot water jacket 3, the choked flow heat exchanger tube 6, the smoke evacuation water jacket 5, when flue gas, which carries heat, to be discharged by the smoke discharging pipe 4, The heat exchanging water-jacket 3, the choked flow heat exchanger tube 6, the smoke evacuation water jacket 5 can successively be passed through, sufficiently by the heat absorption in flue gas It utilizes, so that heat makes full use of, improves the thermal efficiency of heating stove；Wherein, the choked flow heat exchanger tube 6, which also has, hinders heat fast The effect that speed passes through increases movement travel of the heat in the heat exchanging chamber 2, so that heat is slowly from the smoke exhaust pipe Road 4 flows out, and increases heat residence time in the heat exchanging chamber 2, realizes further making full use of for heat；The utility model Simple structure and reasonable design, the heat for making full use of heating stove, improve the thermal efficiency of heating stove.

The choked flow heat exchanger tube 6 is at least provided with two layers；The longitudinally displaced arrangement of the choked flow heat exchanger tube 6 of adjacent two layers. Referring to figs. 2 and 3, in the present embodiment, the choked flow heat exchanger tube 6 is provided with three layers of total six roots of sensation, is distributed in mountain shape, the present embodiment Working principle are as follows: when heat out of described combustion chamber of furnace body 1 come out after, be first into the choked flow heat exchanger tube of lowermost layer On 6, it is no longer upward vertical movement that heat can be broken up first by the choked flow heat exchanger tube 6 of the bottom, and described in order to avoid Cornering maneuver can occur for choked flow heat exchanger tube 6, when moving to layer second from the bottom, can also due to touch choked flow heat exchanger tube 6 and by Compel cornering maneuver, and so on, it continues up, until discharge；In heat motion process, it is primarily due to the choked flow and changes It, can be to the choked flow heat exchanger tube 6 and the heat exchange in heat motion process with the presence of water in heat pipe 6 and the heat exchanging water-jacket 3 Water is heated in water jacket 3, is forced cornering maneuver additionally, due to heat, increases movement road of the heat in the heat exchanging chamber 2 Journey is absorbed and used so that heat rests in 2 body of heat exchanging chamber more.

Gap between the choked flow heat exchanger tube 6 of phase same layer is less than the outer diameter of the choked flow heat exchanger tube 6, i.e., from most upper Layer is looked to lowest level, and gap is not present known to observation between the choked flow heat exchanger tube 6, guarantees heat not directly vertically upward Discharge, but can at least have a cornering maneuver (choked flow heat exchanger tube 6 in addition to being located at bottom both ends, due to position There are gaps between the choked flow heat exchanger tube 6 at bottom both ends and the heat exchanging water-jacket 3, therefore heat can be hung down by gap It directly moves upwards, but during moving upwards, heat can mainly be absorbed by the heat exchanging water-jacket 3, therefore discharge vertically upward It is seldom to outdoor heat, can be ignored).

During heat is moved out from the combustion chamber of furnace body 1, the heat in the combustion chamber of furnace body 1 can compare It is more far from the heat in the combustion chamber of furnace body 1, it is needed positioned at the choked flow heat exchanger tube 6 close to 1 one layers of the combustion chamber of furnace body More cornering maneuvers are wanted, the choked flow heat exchanger tube 6 far from 1 one layers of the combustion chamber of furnace body needs less cornering maneuver, Therefore, it is greater than close to the quantity of the choked flow heat exchanger tube 6 of 1 one layers of the combustion chamber of furnace body far from the combustion chamber of furnace body 1 one The quantity of the choked flow heat exchanger tube 6 of layer.

The quantity of the choked flow heat exchanger tube 6 is more, gap is smaller, and technical effect is better, but the cost manufactured can rise.Institute State choked flow heat exchanger tube 6 quantity selection, gap setting be those skilled in the art without creative work i.e. The technical solution that can be obtained, all should be within the protection scope of this patent.

The advantages of basic principles and main features and the utility model of the utility model have been shown and described above.Current row The technical staff of industry is described in above embodiments and description it should be appreciated that the present utility model is not limited to the above embodiments Only illustrate the principles of the present invention, on the premise of not departing from the spirit and scope of the utility model, the utility model is also It will have various changes and improvements, these various changes and improvements fall within the scope of the claimed invention.The utility model Claimed range is defined by the appending claims and its equivalent thereof.

Claims (5)

1. heating stove efficient heat-collecting system, including the heat exchanging chamber being connected to combustion chamber of furnace body, it is characterised in that: the heat exchanging chamber It is coated with heat exchanging water-jacket, more choked flow heat exchanger tubes, the choked flow heat exchanger tube and the heat-exchanging water are provided in the heat exchanging chamber Set connection；The end of the heat exchanging chamber is provided with smoke discharging pipe, and the smoke discharging pipe is coated with to be connected to the heat exchanging water-jacket Smoke evacuation water jacket；The choked flow heat exchanger tube be layered in the heat exchanging chamber setting and the choked flow heat exchanger tube quantity from bottom to top Successively reduce.

2. heating stove as described in claim 1 efficient heat-collecting system, it is characterised in that: the choked flow heat exchanger tube is at least arranged Have two layers.

3. heating stove as claimed in claim 2 efficient heat-collecting system, it is characterised in that: the choked flow of adjacent two layers exchanges heat Manage longitudinally displaced arrangement.

4. heating stove as claimed in claim 3 efficient heat-collecting system, it is characterised in that: the choked flow of phase same layer exchanges heat Gap between pipe is less than the outer diameter of the choked flow heat exchanger tube.

5. heating stove as claimed in claim 4 efficient heat-collecting system, it is characterised in that: the choked flow heat exchanger tube is provided with three The total six roots of sensation of layer, is distributed in mountain shape.