CN105371496A - Condensation type aluminum silicon alloy heat exchange furnace pipe - Google Patents

Abstract

The invention relates to a condensation type aluminum silicon alloy heat exchange furnace pipe which comprises a front piece, middle pieces and a back piece, wherein the front piece, the middle pieces and the back piece adopt a sealed box structure; a sealed cavity is formed in the middle part; a water inlet and a water outlet are formed in each of the front piece, the middle pieces and the back piece; the water inlets and the water outlets are connected through a water inlet pipe and a water outlet pipe; the water inlets and the water outlets are formed along the diagonal line of a heat exchange furnace pipe body; smoke through holes are formed in the side, near the water outlets, of the heat exchange furnace pipe body; and heat absorption columns are arranged on the upper surfaces and the lower surfaces of the middle pieces. According to the condensation type aluminum silicon alloy heat exchange furnace pipe, two reinforcing ribs are designed inside the furnace pipe, so that the overall compressive strength of the heat exchange furnace pipe pieces is remarkably improved; the flow path and time of liquid passing through the furnace pipe are lengthened, and the time, labor and space are saved in the aspects of assembly, maintenance and cleaning of the complete machine; the consumption is low, the smoke temperature is low, the gas heat is effectively absorbed, the thermal efficiency is high, and the maintenance cost is low.

Description

Condensing alusil alloy heat exchange flue

Technical field

The present invention relates to a kind of module combined type hot-water boiler heat exchange flue specifically, relate to a kind of condensing alusil alloy heat exchange flue.

Background technology

Along with the development in epoch, how environmental protection, efficiently provide heating and domestic hot-water more and more urgent carry out, fire coal changes combustion gas and will meet the current above-mentioned requirements of people.The continuous propelling of the transfering natural gas from the west to the east of state key construction project and " gasification projects ", for gas fired-boiler is added fuel to the flames, within the short several years, domestic numerous producers fall over each other development, develop all kinds of applicable gas fired-boiler.

Module combined type hot-water boiler possesses efficient, durable, reliable, and simple installation, flexibly, operating cost is low, and maintenance and operation is convenient, the advantages such as environment protecting is good, pollution-free, noiselessness.Be widely used in Home Heating and hot water, residential quarters are for warm hot water, and industry and commerce building heating, hot water.

The modular concept of module boiler is just equivalent to monomer cauldron to be split as several arcolas (volume is less than 1m3).Therefore can say that module boiler can reach the scale of steaming arbitrarily ton separate unit boiler by " simple parallel combination " quantitatively, therefore module boiler can replace all kinds of heating and the hot-water boiler of below 10 common at present steaming tons.

The main cause of boiler life length uses cast-iron stove sheet.At present, monomer cauldron adopts steel stove sheet mostly, as everyone knows, cast iron than the acid and alkali-resistance of steel and oxygen corrosion well a lot.National Specification, the service life of steel stove sheet is 14 years, and the life-span of cast-iron stove sheet can for 50 years.Certainly, the life-span length of boiler is also that whether operational management reasonable, and whether operation correct, and operational maintenance obtain OK etc. factor.Boiler has operational management, the control system of a whole set of tight science, and company will carry out technical training to operating personnel, guarantees handling safety, correct.

But existing body of heater single chip architecture is unreasonable, and effectively can not absorb fuel gas calorie, the thermal efficiency is low, install inconvenience, maintenance cost is high.

Summary of the invention

For above-mentioned deficiency of the prior art, the invention provides a kind of rational in infrastructure, condensing alusil alloy heat exchange flue that safety coefficient is high, easy to operate.

The technical solution used in the present invention is:

A kind of condensing alusil alloy heat exchange flue,

Comprise: heat exchange flue body;

Described heat exchange flue body comprises: anter, middle and rear panel;

Described anter, middle, rear panel is seal case structure, middle part is provided with enclosed cavity;

Described anter, middle, rear panel is respectively arranged with water inlet and delivery port; Water inlet is connected with outlet pipe respectively by water inlet pipe with delivery port;

Described water inlet and delivery port are arranged along heat exchange flue body diagonal;

Heat exchange flue body is provided with smoke ventilator near delivery port side;

Described middle upper surface and lower surface are provided with heat absorption post;

Described anter lower surface is provided with heat absorption post;

Described rear panel upper surface is provided with heat absorption post;

Described smoke ventilator sidewall is provided with heat absorption post;

The inherent length direction of described enclosed cavity is horizontally arranged with the first reinforcement and the second reinforcement,

Described first reinforcement extends from left side internal chamber wall to right chamber wall; Gap, right side is provided with between described first reinforcement right-hand end and right side internal chamber wall;

Described first reinforcement upper end is connected with cavity lower surface, and lower end is connected with cavity upper surface;

Described second reinforcement extends from right side internal chamber wall to left chamber wall; Gap, left side is provided with between described second reinforcement left end and left side internal chamber wall;

Described second reinforcement upper end is connected with cavity lower surface, and lower end is connected with cavity upper surface.

Described heat absorption post shapes is: cylindrical, conical, rhombus, triangle or ellipse.

The distribution of described heat absorption post gradually reduces from water inlet to delivery port quantity, density progressively reduces.

Described heat exchange flue body material is alusil alloy.

The beneficial effect of hinge structure of the present invention:

Condensing alusil alloy heat exchange flue of the present invention, flue indoor design two reinforcements, are divided into high-temperature region, middle warm area, low-temperature space in heat exchange flue, significantly promote the entire compression intensity of recuperative furnace bladder; And achieve flue internal watercourses liquid zero remain; Add liquid through the flow path of flue and time, the composite design mode of flue is better than import flue integral type and installs, the aspect such as assembling, maintenance, cleaning of complete machine is achieved save time, laborsaving, save space; Low consumption, low cigarette temperature, effectively absorb fuel gas calorie, the thermal efficiency is high.Maintenance cost is low.

Accompanying drawing explanation

Fig. 1 is the decomposition texture schematic diagram of condensing alusil alloy heat exchange flue of the present invention;

Fig. 2 is the anter perspective view of condensing alusil alloy heat exchange flue of the present invention;

Fig. 3 is the middle sheet perspective view of condensing alusil alloy heat exchange flue of the present invention;

Fig. 4 is the rear panel perspective view of condensing alusil alloy heat exchange flue of the present invention;

Fig. 5 is the middle sheet plan structure schematic diagram of condensing alusil alloy heat exchange flue of the present invention;

Fig. 6 is the water flow structure schematic diagram of condensing alusil alloy heat exchange flue of the present invention.

Critical piece symbol description in accompanying drawing:

In figure:

1, anter 2, middle

3, rear panel 4, water inlet

5, delivery port 6, water inlet pipe

7, outlet pipe 8, smoke ventilator

9, absorb heat post 10, first reinforcement

11, the second reinforcement 12, first endotherm section

13, the second endotherm section 14, the 3rd endotherm section.

Detailed description of the invention

Referring to drawings and Examples, the present invention will be described in detail:

Accompanying drawing 1-6 is known, a kind of condensing alusil alloy heat exchange flue,

Comprise: heat exchange flue body;

Described heat exchange flue body comprises: anter 1, middle 2 and rear panel 3;

Described anter 1, middle 2, rear panel 3 in seal case structure, middle part is provided with enclosed cavity;

Described anter 1, middle 2, rear panel 3 is respectively arranged with water inlet 4 and delivery port 5; Water inlet 4 is connected with outlet pipe 7 respectively by water inlet pipe 6 with delivery port 5;

Described water inlet 4 and delivery port 5 are arranged along heat exchange flue body diagonal;

Heat exchange flue body is provided with smoke ventilator 8 near delivery port 5 side;

Described middle 2 upper surfaces and lower surface are provided with heat absorption post 9;

Described anter 1 lower surface is provided with heat absorption post 9;

Described rear panel 3 upper surface is provided with heat absorption post 9;

Described smoke ventilator 8 sidewall is provided with heat absorption post 9;

The inherent length direction of described enclosed cavity is horizontally arranged with the first reinforcement 10 and the second reinforcement 11;

Described first reinforcement 10 extends from left side internal chamber wall to right chamber wall; Gap, right side is provided with between described first reinforcement 10 right-hand end and right side internal chamber wall;

Described first reinforcement 10 upper end is connected with cavity lower surface, and lower end is connected with cavity upper surface;

Described second reinforcement 11 extends from right side internal chamber wall to left chamber wall; Gap, left side is provided with between described second reinforcement 11 left end and left side internal chamber wall;

Described second reinforcement 11 upper end is connected with cavity lower surface, and lower end is connected with cavity upper surface.

Described heat absorption post 9 shape is: cylindrical, conical, rhombus, triangle or ellipse.

The distribution of described heat absorption post 9 gradually reduces from water inlet to delivery port quantity, density progressively reduces.

Described heat exchange flue body material is alusil alloy.

Condensing alusil alloy heat exchange flue of the present invention separates the high-temperature region in heat exchange flue, middle warm area, low-temperature space; Every sheet heat exchange flue heat absorption post is divided into three phases, and quantity and the density of heat absorption post increase with the lifting in stage, and 1,2 stages were transition endotherm section, and 3 sections is the abundant absorption condensation section of flue gas.

Flue mounting means is combined type, is divided into anter, middle, rear panel.The quantity regulating of sheet during power can increase on request or reduce.Flue entirety is connected and fixed by water inlet pipe and outlet pipe, and this installation method can make condensing heat-exchange flue sheet keep with one heart, being easy to sealing.Sheet and sheet centre add O type circle and seal, and the attached outer silk in water inlet pipe and water outlet pipe two ends adds nut and fixes to clamp, and water inlet pipe and water outlet pipe two ends internal thread is connected with outside water route.The connection of interior outer water channel is by Inlet and outlet water stainless steel tube 360 ° of mouth of a river UNICOMs.These 360 ° of water route connected modes utilize and realize evenly supplying water and draining to flue, do not need locating and orienting, and are easy to install.

Every sheet heat exchange flue heat absorption post, is divided into three phases, that is: first stage, second stage and phase III from delivery port to water inlet, and quantity and the density of heat absorption post increase with the lifting in stage; 1,2 stages were transition endotherm section, and 3 sections is the abundant absorption condensation section of flue gas.This design flue-gas temperature progressively reduces, and effectively can absorb heat, realize condensation, reaches the energy-saving and environmental protection on practical significance.

The connected mode of cabinet and heat exchange flue unit is fixed by mounting platform, this fixed form solves the fixing limitation of old-fashioned flue, can carry out horizontal, longitudinal being bi-directionally connected according to cabinet, middle flue saves mounting platform, reduces the total quality of heat-exchange unit.

Flue indoor design two reinforcements, reinforcement ends drooped down, separates the high-temperature region in heat exchange flue, middle warm area, low-temperature space.The entire compression intensity of this design heat exchanging flue sheet has remarkable lifting; And achieve flue internal watercourses liquid zero remain; Add liquid through the flow path of flue and time, promote the thermal efficiency.

The composite design mode of this flue is better than import flue integral type and installs, the aspect such as assembling, maintenance, cleaning of complete machine is achieved save time, laborsaving, save space; Low consumption, low cigarette temperature, started the New Times of domestic energy-saving and environmental protection.

Claims (4)

1. a condensing alusil alloy heat exchange flue, is characterized in that:

Comprise: heat exchange flue body;

Described heat exchange flue body comprises: anter, middle and rear panel;

Described anter, middle, rear panel is seal case structure, middle part is provided with enclosed cavity;

Described anter, middle, rear panel is respectively arranged with water inlet and delivery port; Water inlet is connected with outlet pipe respectively by water inlet pipe with delivery port;

Described water inlet and delivery port are arranged along heat exchange flue body diagonal;

Heat exchange flue body is provided with smoke ventilator near delivery port side;

Described middle upper surface and lower surface are provided with heat absorption post;

Described anter lower surface is provided with heat absorption post;

Described rear panel upper surface is provided with heat absorption post;

Described smoke ventilator sidewall is provided with heat absorption post;

The inherent length direction of described enclosed cavity is horizontally arranged with the first reinforcement and the second reinforcement,

Described first reinforcement extends from left side internal chamber wall to right chamber wall; Gap, right side is provided with between described first reinforcement right-hand end and right side internal chamber wall;

Described first reinforcement upper end is connected with cavity lower surface, and lower end is connected with cavity upper surface;

Described second reinforcement extends from right side internal chamber wall to left chamber wall; Gap, left side is provided with between described second reinforcement left end and left side internal chamber wall;

Described second reinforcement upper end is connected with cavity lower surface, and lower end is connected with cavity upper surface.

2. condensing alusil alloy heat exchange flue according to claim 1, is characterized in that: described heat absorption post shapes is: cylindrical, conical, rhombus, triangle or ellipse.

3. condensing alusil alloy heat exchange flue according to claim 1, is characterized in that: the distribution of described heat absorption post gradually reduces from water inlet to delivery port quantity, density progressively reduces.

4. condensing alusil alloy heat exchange flue according to claim 1, is characterized in that: described heat exchange flue body material is alusil alloy.