CN205403554U - Energy recovery device with bellows tube structure - Google Patents

Abstract

The utility model provides an energy recovery device with bellows tube structure, including shell, high -pressure gas blow pipe, water tank, bellows tube, room and dust collection room are collected to the inside energy that is equipped with of shell, the shell top is equipped with the top cap, the energy is collected the room lateral wall and is equipped with waste gas entry and mounting hole, the dust is collected the room lateral wall and is equipped with exhaust outlet, and the dust is collected the room diapire and is equipped with row ash mouth, the high pressure gas blow pipe inserts through the mounting hole the room is collected to the energy, the water tank is installed and is collected outdoor wall at the energy, the bellows tube is installed indoor wall is collected to the energy, and the bellows tube and the water tank intercommunication. The utility model discloses the high temperature waste gas of emission such as mainly used biomass boiler, limekiln dust -laden recycles, has practiced thrift the energy and has reduced the thermal pollution to the environment simultaneously, has the high -pressure gas blow pipe of spout through the installation, can blow the ash at wire pair the device, has avoided the device to stop up, and the energy recovery who has promoted the device is rateed, and the energy saving and consumption reduction effect is showing.

Description

A kind of energy source recovery apparatus with bellows tube structure

Technical field

This utility model relates to a kind of heat exchanger, is specifically related to a kind of energy source recovery apparatus with bellows tube structure.

Background technology

In the back-end ductworks such as current biomass boiler, limekiln, the recycling of high-temp waste gas is the inexorable trend of development.And existing finned tube energy-saving appliance runs under the flue gas containing dust, often occur that dust accumulation between fin makes energy-saving appliance block, make energy-saving appliance to work, affect body of heater time serious and run.And existing finned tube energy-saving appliance is low to the utilization rate of high-temperature dust waste gas so that the energy can not well be recycled, the dust emission in waste gas can produce serious pollution in air simultaneously.

Utility model content

For the deficiencies in the prior art, the purpose of this utility model is in that to provide a kind of energy source recovery apparatus with bellows tube structure, this device is mainly used for reclaiming the heat in high-temperature dust waste gas, and this device is also equipped with online soot blowing function, the problem efficiently solving energy source recovery apparatus blocking, improve the energy recovery utilization rate of device, it is to avoid huge energy waste and serious thermal pollution.

The technical scheme that the invention for solving the technical problem adopts is as follows:

A kind of energy source recovery apparatus with bellows tube structure, is characterized in that: include shell, water tank, bellows tube；

Described enclosure is provided with energy collection room and dust collection chamber, and wherein energy collection room is positioned at above dust collection chamber, and energy collection room connects with dust collection chamber；Described energy collection room sidewall is provided with the exhaust gas entrance and installing hole that connect with energy collection room；Described dust collection chamber sidewall is provided with the waste gas outlet connected with dust collection chamber, and dust collection chamber diapire is provided with the ash discharging hole connected with dust collection chamber；

Described water tank is fixedly mounted on the outer wall of described energy collection room, and water tank is positioned at the lower section of described exhaust gas entrance and installing hole；Described water tank includes the first water tank and the second water tank that are oppositely arranged；Being provided with dividing plate inside described first water tank, the first water tank is divided into upper and lower two-layer by dividing plate, and the first water tank upper strata is provided with hot water outlet, and the first water tank lower floor is provided with cold water inlet；

Described bellows tube is arranged on described energy collection chamber interior walls, and described first water tank and the second water tank are connected by bellows tube, and are equipped with bellows tube above and below described dividing plate.

Preferably, high pressure blow-gas pipe is also included；Described energy collection room is inserted by described installing hole in described high pressure blow-gas pipe one end, and the high pressure blow-gas tube side wall being positioned at energy collection room is provided with the puff prot of some downward jets, and the high pressure blow-gas pipe other end is provided with valve.

Preferably, described high pressure blow-gas pipe is positioned at above or below described exhaust gas entrance.

Preferably, described exhaust gas entrance is located at the sidewall relative with described high pressure blow-gas pipe.

Preferably, described cover top portion is provided with top cover, and top cover is connected by removably and shell are fixing.

Preferably, the quantity of described bellows tube is no less than two.

Preferably, described dust collection chamber outer wall is pyramidal structure.

The beneficial effects of the utility model:

1, by reclaiming the waste heat of high-temp waste gas, utilize this waste-heat cold water, it is to avoid huge energy waste and serious thermal pollution, reduce the operating cost of factory.

2, by installing high pressure blow-gas pipe, it is simple to removing dust device within, what decrease device unpicks and washes frequency, avoid device simultaneously and be subject to the problem that dust blocks and extend and service life of device improve energy utilization rate simultaneously.

3, the profile of bellows tube concave-convex surface, hot air flow is made to form stronger turbulent flow in pipe, thus being greatly improved the coefficient of heat transfer closing surfaces externally and internally, make heat exchanger overall heat exchange efficiency improve 2-3 times than normal light heat exchange of heat pipe, and this device has, and volume is little, the advantage of simple in construction, long service life.

Accompanying drawing explanation

Fig. 1 is side view of the present utility model.

Fig. 2 is the perspective view of this utility model embodiment one.

Fig. 3 is the perspective view of this utility model embodiment two.

Wherein:

1, shell；11, top cover；12, exhaust gas entrance；13, waste gas outlet；14, ash discharging hole；15, energy collection room；16, dust collection chamber；

2, high pressure blow-gas pipe；21, valve；22, puff prot；

3, the first water tank；31, hot water outlet；32, cold water inlet；33, dividing plate；

4, the second water tank；

5, bellows tube.

Detailed description of the invention

Below, in conjunction with accompanying drawing and detailed description of the invention, this utility model is described further:

Specific embodiment one:

As shown in Figure 1-2, the energy source recovery apparatus with bellows tube structure disclosed in the present embodiment, including shell 1, water tank, bellows tube 5；

Described shell 1 is internal is provided with energy collection room 15 and dust collection chamber 16, and wherein energy collection room 15 is positioned at above dust collection chamber 16, and energy collection room 15 connects with dust collection chamber 16.In order to promote the response rate of waste-gas heat, described shell 1 top is provided with top cover 11, and top cover 11 is connected by removably is fixing with shell 1, takes top cover 11 apart and is easy to inside rinser, contributes to the service life of extension fixture.Described energy collection room 15 sidewall is provided with the exhaust gas entrance 12 and installing hole that connect with energy collection room 15, exhaust gas entrance 12 and installing hole can be arranged on the outer wall of shell 1 side, can also being arranged on two sidewalls that shell 1 is relative, wherein mounting hole site is below exhaust gas entrance 12 or lower section.Described dust collection chamber 16 sidewall is provided with the waste gas outlet 13 connected with dust collection chamber 16, and dust collection chamber 16 diapire is provided with the ash discharging hole 14 connected with dust collection chamber 16.

Described water tank is fixedly mounted on the outer wall of described energy collection room 15, and water tank is positioned at the lower section of described exhaust gas entrance 12 and installing hole.Described water tank includes the first water tank 3 and the second water tank 4 being oppositely arranged.Described first water tank 3 is internal is provided with dividing plate 33, and the first water tank 3 is divided into upper and lower two-layer by dividing plate 33, and the first water tank 3 upper strata is provided with hot water outlet 31, and the first water tank 3 lower floor is provided with cold water inlet 32.

Bellows tube 5 is arranged on described energy collection room 15 inwall, the quantity of bellows tube 5 shown in Fig. 2 is two, bellows tube 5 lays respectively at above and below described dividing plate 33, cold water enters the bellows tube 5 below dividing plate 33 from cold water inlet 32, entering the second water tank 4 by bellows tube 5, the water of the second water tank 4 enters the first water tank 3 upper strata by the bellows tube 5 above dividing plate 33 and discharges from hot water outlet 31.

In order to avoid device inside blocks, high pressure blow-gas pipe 2 can also be set, described energy collection room 15 is inserted by described installing hole in high pressure blow-gas pipe 2 one end, high pressure blow-gas pipe 2 sidewall being positioned at energy collection room 15 is provided with the puff prot 22 of some downward jets, and high pressure blow-gas pipe 2 other end is provided with the valve 21 controlling gas.High pressure blow-gas pipe 2 just automatically passed into compression air every four hours, was blown off the dust on bellows tube 5 by air, and dust is discharged by ash discharging hole 14 after falling dust collection chamber 16, the problem that effectively prevent dust blocking.

The high-temp waste gas of dust-laden such as discharge such as pot biomass boiler, limekiln etc. enters into energy collection room 15 by exhaust gas entrance 12, waste gas bellows tube 5 of traverse stainless steel in energy collection room 15 carries out heat exchange, transfer heat to bellows tube 5, bellows tube 5 absorbs the heat of waste gas makes EGT decline, and then discharges from waste gas outlet 13.Cold water enters into the first water tank 3 lower floor from cold water inlet 32, cold water enters the second water tank 4 by the bellows tube 5 below dividing plate 33, cold water absorbs the heat of waste gas in the process of circulation by bellows tube 5, then pass through the bellows tube 5 above dividing plate 33 and enter the first water tank 3 upper strata, finally discharge from the hot water outlet 31 on the first water tank 3 upper strata, cold water is in the bellows tube 5 pipeline process of circulation, and the heat constantly being absorbed waste gas by bellows tube 5 makes water temperature raise.

Specific embodiment two

Shown in Fig. 1 and Fig. 3, the difference of the present embodiment and embodiment one is, energy collection room 15 is internal is provided with four bellows tubes 5.Two bellows tubes 5 below dividing plate 33 are used for passing into cold water, and two bellows tubes 5 above dividing plate 33 are used for discharging hot water, improve energy recovery utilization rate further, effectively prevent huge energy waste.

In this utility model, bellows tube 5 quantity is not limited to above two structure, it is possible to arrange corresponding bellows tube 5 quantity according to different demands.

For a person skilled in the art, can technical scheme as described above and design, make other various corresponding changes and deformation, and all these change and deformation all should belong within this utility model scope of the claims.

Claims (7)

1. there is an energy source recovery apparatus for bellows tube structure, it is characterized in that: include shell, water tank, bellows tube；

Described enclosure is provided with energy collection room and dust collection chamber, and wherein energy collection room is positioned at above dust collection chamber, and energy collection room connects with dust collection chamber；Described energy collection room sidewall is provided with the exhaust gas entrance and installing hole that connect with energy collection room；Described dust collection chamber sidewall is provided with the waste gas outlet connected with dust collection chamber, and dust collection chamber diapire is provided with the ash discharging hole connected with dust collection chamber；

Described water tank is fixedly mounted on the outer wall of described energy collection room, and water tank is positioned at the lower section of described exhaust gas entrance and installing hole；Described water tank includes the first water tank and the second water tank that are oppositely arranged；Being provided with dividing plate inside described first water tank, the first water tank is divided into upper and lower two-layer by dividing plate, and the first water tank upper strata is provided with hot water outlet, and the first water tank lower floor is provided with cold water inlet；

Described bellows tube is arranged on described energy collection chamber interior walls, and described first water tank and the second water tank are connected by bellows tube, and are equipped with bellows tube above and below described dividing plate.

2. the energy source recovery apparatus with bellows tube structure according to claim 1, is characterized in that: also include high pressure blow-gas pipe；Described energy collection room is inserted by described installing hole in described high pressure blow-gas pipe one end, and the high pressure blow-gas tube side wall being positioned at energy collection room is provided with the puff prot of some downward jets, and the high pressure blow-gas pipe other end is provided with valve.

3. the energy source recovery apparatus with bellows tube structure according to claim 2, is characterized in that: described high pressure blow-gas pipe is positioned at above or below described exhaust gas entrance.

4. the energy source recovery apparatus with bellows tube structure according to claim 3, is characterized in that: described exhaust gas entrance is located at the sidewall relative with described high pressure blow-gas pipe.

5. the energy source recovery apparatus with bellows tube structure according to claim 1, is characterized in that: described cover top portion is provided with top cover, and top cover is connected by removably and shell are fixing.

6. the energy source recovery apparatus with bellows tube structure according to claim 1, is characterized in that: the quantity of described bellows tube is no less than two.

7. the energy source recovery apparatus with bellows tube structure according to claim 1, is characterized in that: described dust collection chamber outer wall is pyramidal structure.