CN2619198Y

CN2619198Y - Mutiple water chamber circulation water supply boiler

Info

Publication number: CN2619198Y
Application number: CN 03216980
Authority: CN
Inventors: 李丙成
Original assignee: Individual
Current assignee: Individual
Priority date: 2003-05-06
Filing date: 2003-05-06
Publication date: 2004-06-02
Anticipated expiration: 2013-05-06

Abstract

The utility model relates to a multi water chambers circulating water supply boiler, which pertains to stove field, comprising a water inlet pipe, a water holding chamber and a water outlet pipe. The utility model is characterized in that the water holding chamber is successively provided with a cold water chamber (1), a warm water chamber (8) and a hot water chamber (10) in top-down order, the cold water chamber (1) is communicated with the water inlet pipe (2), the upper end of the cold water chamber (1) is provided with a water overflow port (6) which is communicated with the warm water chamber (8), the upper end of the warm water chamber (8) is provided with a water overflow port (15) which is communicated with the hot water chamber (10), the upper end of the hot water chamber (10) is communicated with the water outlet pipe (16). The utility model successively arranges the cold water chamber, the warm water chamber and the hot water chamber into the water holding chamber in top-down order, which realizes the following circulating flows of the water in the cold water chamber, the warm water chamber and the hot water chamber, the water run into the cold water chamber is preheated by the waste heat of the upper end of the boiler flue, which then flows into the warm water chamber, the temperature of the water is gradually raised in the process of circulating flow from warm water chamber to the hot water chamber; the water run into the hot water chamber can achieves the established temperature when heated a short time, the utility model not only realizes the continuous supply of hot water, but also reduces the energy consumption.

Description

Many hydroeciums periodical feeding boiler

Technical field

The utility model belongs to the cooking stove field, is specifically related to a kind of water heating boiler that has a plurality of sleeves.

Background technology

Prior art is used for the boiler that supplies water in the bathing pool generally by the chamber that is filled with water, form by flue and a combustion chamber of the chamber that is filled with water, and the combustion chamber is connected with flue.Hot gas that coal produces when the internal combustion of combustion chamber is discharged through behind the flue, thereby flue and the water that is filled with water between the chamber are heated.Generally have only the chamber that is filled with water in the housing of existing boiler, water inlet pipe is arranged on the bottom of the chamber that is filled with water, and outlet pipe is arranged on the indoor top that is filled with water, and discharge from outlet pipe on the top that rises to the chamber that is filled with water after water is heated.Because the temperature on flue top is less with the temperature contrast of the water on the top, chamber that is filled with water, therefore, the heat energy on flue top can not fully be absorbed, thereby the thermal efficiency is low, it is longer that the indoor water that is filled with water reaches time of both fixed temperatures, and when water use peak, influence is used like this; And because heat exchanger effectiveness is low, the heat energy utilization rate in the flue is low, the energy consumption height.

The utility model content

For the low drawback of boiler thermal output that overcomes prior art, the utility model provides a kind of many hydroeciums periodical feeding boiler, and this boiler can not only hot water without interruption and thermal efficiency height.

The technical scheme that the utility model adopted is: design a kind of many hydroeciums periodical feeding boiler, comprise water inlet pipe, chamber and outlet pipe are filled with water, indoor cold water chamber, warm water chamber and the hot hydroecium of setting gradually from top to bottom is characterized in that being filled with water, cold water chamber is connected with water inlet pipe, gap is offered in the upper end of cold water chamber, and gap communicates with warm water chamber, and gap is offered in the upper end of warm water chamber, gap communicates with hot hydroecium, and the upper end of hot hydroecium is communicated with outlet pipe.

The utility model can be offered water inlet in the lower end of warm water chamber, and the gap of cold water chamber upper end communicates by the water inlet of water cavity with the warm water chamber lower end; Water inlet is offered in the lower end of hot hydroecium, and the gap of warm water chamber upper end communicates with the water inlet of hot hydroecium lower end by water cavity.

The utility model also can make the upper end of cold water chamber be connected with the lower end of warm water chamber by pipe; The upper end of warm water chamber is connected with the lower end of hot hydroecium by pipe.

For satisfying the water needs better, on outlet pipe, can connect storage tank.

The beneficial effects of the utility model are: because in indoor cold water chamber, warm water chamber, the hot hydroecium of having set gradually from top to bottom that be filled with water, realized that the water in cold water chamber, warm water chamber, the hot hydroecium circulates successively, like this, very hot oven manufacture hot water, flame burn warm water, waste heat burns cold water, the cold water that enters in the cold water chamber is first by the waste heat preheating on boiler flue top, flow to warm water chamber then, water from warm water chamber to the process that hot hydroecium circulates, the temperature of water improves gradually; The water that enters in the hot hydroecium can reach both fixed temperatures after the heating of short time, both realized the without interruption of hot water, has reduced energy consumption again.

Description of drawings

The utility model is described in further detail below in conjunction with drawings and Examples.

Fig. 1 is the structural representation of the utility model embodiment;

Fig. 2 is the A-A view of Fig. 1;

Fig. 3 is the structural representation of another embodiment of the utility model;

Fig. 4 is the structural representation of air regulating board mechanism in the flue shown in Fig. 23.

The specific embodiment

As shown in the figure: 1: cold water chamber, 2: water inlet pipe, 3: flue, 4: water pipe, 5: fire door, 6: gap 7: water cavity, 8: warm water chamber, 9: water inlet, 10: hot hydroecium, 11: fire grate, 12: the ashes chamber, 13: water inlet, 14: water cavity, 15: gap, 16: outlet pipe, 17: main chamber, 18: water pipe, 19: pipe, 20: subsidiary combustion chamber, 21: exhaust steam valve, 22: sewage draining exit, 23: exhaust steam valve, 24: sewage draining exit, 25: sewage draining exit, 26: fuel oil, gas port, 27: air regulating board, 28: connecting rod, 29: pull bar, 30: locating piece, 31: dedusting mouth, 32: pipe, 33: alignment pin.

Embodiment 1

As shown in Figure 1, 2, boiler indoor cold water chamber 1, warm water chamber 8, the hot hydroecium 10 of setting gradually from top to bottom that be filled with water.Gap 6 is offered in the upper end of cold water chamber 1, and water inlet 9 is offered in the lower end of warm water chamber 8, and the gap 6 of cold water chamber 1 upper end communicates by the water inlet 9 of water cavity 7 with warm water chamber 8 lower ends; Water inlet 13 is offered in the lower end of hot hydroecium 10, and the gap 15 of warm water chamber 8 upper ends communicates with the water inlet 13 of hot hydroecium 10 lower ends by water cavity 14.The upper end of hot hydroecium 10 is communicated with outlet pipe 16.

Coal is ignition combustion in main chamber 17, owing to be subjected to the influence of rising thermal current in the flue 3, flame burns downwards, the cinder that does not burn is fallen into the generation thermal current that burns away in the subsidiary combustion chamber 20, thermal current is earlier to the heating of the water in the hot hydroecium 10, then to the heating of the water in the warm water chamber 8, at last to the heating of the water in the cold water chamber 1.Because the water temperature in cold water chamber 1 and the warm water chamber 8 is lower, thereby can distinguish the heat energy that fully effectively absorbs flue 3 tops and middle part.Hot water is discharged from outlet pipe 16, and the water in the warm water chamber 8 flow in the hot hydroecium 10 by gap 15 and water cavity 14; Then, the water in the cold water chamber 1 adds in the warm water chamber 8 by gap 6 and water cavity 7; In cold water chamber 1, replenish cold water in the water inlet pipe 2 again; So constantly circulation.Because the water that adds in the hot hydroecium 10 is heated warm water, thereby be heated to both time weak points of fixed temperature again, so, realized the hot water without interruption of boiler.For satisfying the water needs better, can on outlet pipe 16, connect the storage chamber that is filled with water.

For fully absorbing the heat energy in the flue 3, improve heat exchanger effectiveness, on the top of flue 3 water pipe 4 that communicates with cold water chamber 1 is set, water pipe 4 is horizontally through flue; The same water pipe that communicates with warm water chamber 8 that is provided with in the middle part of flue, this water pipe also is horizontally through flue; The fire that is rearranged by water pipe 18 is set between main chamber 17 and the subsidiary combustion chamber 20 combs, water pipe 18 communicates with hot hydroecium 10.

The residue that burns in the subsidiary combustion chamber 20 for can hook drawing the coal in main chamber 17 and the subsidiary combustion chamber 20, can be offered the fire door 5 that communicates with subsidiary combustion chamber 20 in fire grate 11 is fallen into ashes chamber 12.

Embodiment 2

As shown in Figure 3, compare with embodiment 1, the upper end of cold water chamber 1 is connected by the lower end of pipe 19 with warm water chamber 8.The upper end of warm water chamber 8 is connected by the lower end of pipe 32 with hot hydroecium 10.Like this, the water of cold water chamber's 1 internal upper part can directly flow into the bottom of warm water chamber 8 by pipe 19, and the water of warm water chamber 8 internal upper parts can directly flow into the bottom of hot hydroecium 10 by pipe 32.This kind structure is suitable for existing circular boiler is transformed.Pipe 19 and pipe 32 can be located at the outside of body of heater.

Be the discharge indoor gas that accumulates that is filled with water, as shown in Figure 1, the utility model connects an exhaust steam valve 21 on the top of cold water chamber 1, and the top of warm water chamber 23 connects exhaust steam valve 23.Under the situation of needs, the top of hot hydroecium 10 also can connect exhaust steam valve.Be blowdown, can below cold water chamber 1, warm water chamber 8, hot hydroecium 10, sewage draining exit 22,24,25 be set respectively.For removing the dust in the flue 3, the utility model is provided with dedusting mouth 31 below flue.

Along with the raising of people to environmental protection consciousness, people may fuel oil, combustion gas be used as the energy, on main chamber 17, offer fuel oil, gas port like this.

As shown in Figure 4, for regulating the air quantity size in the flue 3, above flue 3, place air regulating board 27, the size of the size of air regulating board and flue 3 tops adapts, air regulating board 27 articulated linkage 28, connecting rod 28 hinged pull bars 29, pull bar 29 should be tied and can only move up and down, and the bottom of pull bar 29 connects alignment pin 33.Spur pull bar 29 downwards, by the effect of hinge linkage, pull bar 29 drives air regulating boards 27 and rotates, and regulates the air port size of flue 3 tops with this.Pull bar 29 is the air port size of the corresponding flue 3 of distance of pulling downwards.Stationary positioned piece 30 on the boiler casing is provided with a lot of grooves on the locating piece 30, will air regulating board 27 can be fixed in the groove on the 33 reeve locating pieces 30 of the alignment pin on the pull bar 29.The quantity representative of groove transfers the progression of wind on the locating piece 30.

The utility model can be provided with two, three or more warm water chamber according to size and other situation of water consumption.These warm water chamber communicate successively, and promptly the top gap of higher level's warm water chamber is communicated with the water inlet of subordinate warm water chamber bottom.The boiler that volume is little, water consumption is little can only be provided with cold water chamber and hot hydroecium, and the top gap of cold water chamber is communicated with the water inlet of hot hydroecium bottom.

Be insulation, the utility model is the ladle cover heat-insulation layer on the outer wall of body of heater.

Claims

1. the boiler of hydroecium periodical feeding more than a kind, comprise water inlet pipe, chamber and outlet pipe are filled with water, indoor cold water chamber (1), warm water chamber (8) and the hot hydroecium (10) of setting gradually from top to bottom is characterized in that being filled with water, cold water chamber (1) is connected with water inlet pipe (2), gap (6) is offered in the upper end of cold water chamber (1), gap (6) communicates with warm water chamber (8), gap (15) is offered in the upper end of warm water chamber (8), gap (15) communicates with hot hydroecium (10), and the upper end of hot hydroecium (10) is communicated with outlet pipe (16).

2. many hydroeciums periodical feeding boiler according to claim 1 is characterized in that water inlet (9) is offered in the lower end of warm water chamber (8), and the gap (6) of cold water chamber (1) upper end communicates by the water inlet (9) of water cavity (7) with warm water chamber (8) lower end.

3. many hydroeciums periodical feeding boiler according to claim 1 is characterized in that water inlet (13) is offered in the lower end of hot hydroecium (10), and the gap (15) of warm water chamber (8) upper end communicates with the water inlet (13) of hot hydroecium (10) lower end by water cavity (14).

4. many hydroeciums periodical feeding boiler according to claim 1 is characterized in that the upper end of cold water chamber (1) is connected by the lower end of pipe (19) with warm water chamber (8).

5. many hydroeciums periodical feeding boiler according to claim 1 is characterized in that the upper end of warm water chamber (8) is connected by the lower end of pipe (32) with hot hydroecium (10).

6. many hydroeciums periodical feeding boiler according to claim 1 is characterized in that outlet pipe (16) upward connects storage tank.