CN207816052U - A kind of pressure fan residual neat recovering system - Google Patents

Abstract

The utility model is related to heat recovery technical fields, and in particular to a kind of pressure fan residual neat recovering system.The recovery system includes pressure fan, wind-heat retracting device, oily heat reclamation device, boiler；The wind medium output end of pressure fan is connected to by pipeline with wind-heat retracting device, is discharged by discharge pipe after the heat exchange of wind-heat retracting device；The oil medium output end of pressure fan be connected to by pipeline with oily heat reclamation device, by oil return pipe forming circuit is connected to pressure fan after oily heat reclamation device exchanges heat；Further include water supply pipe, be connected to successively with wind-heat retracting device, oily heat reclamation device, the temperature after wind-heat retracting device, oily heat reclamation device of the liquid in water supply pipe is increased and flowed into boiler.Heat pipe energy high efficiente callback pressure fan waste heat is used in the utility model, improves that organic efficiency, yield are big, power density is big, small；It is inversely connected with tap water using wind-heat, oil heat and heats the leaving water temperature height of tap water.

Description

A kind of pressure fan residual neat recovering system

Technical field

The utility model is related to heat recovery technical fields, and in particular to a kind of pressure fan residual neat recovering system.

Background technology

Mining production Middle pressure draught fan is pneumatic equipment and powered tools as one of main power-equipment, wherein Using be widely screw press wind.Amount of heat is will produce in the operational process of screw pressure fan, lubricating oil band need to be passed through Go out outside body, it is ensured that pressure fan work normally, at this time oil temperature usually between 80~100 DEG C, the partial heat usually as Waste heat, again energy waste in heat dissipation to environment, is not only caused, can also cause ambient heat by air-cooled or water cooling form Pollution.

Utility model content

One main purpose of the utility model is to overcome at least one defect in the prior art, provides a kind of pressure wind Machine residual neat recovering system.

In order to realize that above-mentioned technical proposal, the utility model use following technical scheme：

One side according to the present utility model provides a kind of pressure fan residual neat recovering system, including：Pressure fan, wind-heat Retracting device, oily heat reclamation device, boiler；

Wherein, the wind medium output end of the pressure fan is connected to wind-heat retracting device by pipeline, is returned through the wind-heat It is discharged by discharge pipe after receiving apparatus heat exchange；The oil medium output end of the pressure fan is connected to by pipeline with oily heat reclamation device, Forming circuit is connected to pressure fan by oil return pipe after the oily heat reclamation device heat exchange；

Further include water supply pipe, is connected to successively with the wind-heat retracting device, oily heat reclamation device, the running water pipe Liquid in the road temperature after the wind-heat retracting device, oily heat reclamation device is increased and is flowed into the boiler.

An embodiment according to the present utility model, the wind-heat retracting device include the first upper cavity, the first lower chamber, Separate and seal using partition board between first upper cavity and the first lower chamber, several heat are installed on the partition board Pipe, the heat pipe upwardly or downwardly extend and extend respectively in first upper cavity and the first lower chamber respectively, and described the One upper cavity both ends are equipped with the first inlet valve and the first flowing water Valve, and first lower chamber both ends are equipped with air inlet valve and go out Air valve, first inlet valve, the first flowing water Valve, air inlet valve, outlet air valve are equipped with temperature sensor, and described the One inlet valve, the first flowing water Valve, air inlet valve, outlet air valve, temperature sensor are electrically connected with controller respectively.

An embodiment according to the present utility model, the oil heat reclamation device include the second upper cavity, the second lower chamber, Separate and seal using partition board between second upper cavity and the second lower chamber, several heat are installed on the partition board Pipe, the heat pipe upwardly or downwardly extend and extend respectively in second upper cavity and the second lower chamber respectively, and described the Two upper cavity both ends are equipped with the second inlet valve, the second flowing water Valve, and second lower chamber is equipped with oil inlet valve and delivery valve Door, second inlet valve, the second flowing water Valve, oil inlet valve, fuel-displaced valve are equipped with temperature sensor, described second into Penstock, the second flowing water Valve, oil inlet valve, fuel-displaced valve, temperature sensor are electrically connected with controller respectively.

An embodiment according to the present utility model, the heat pipe is vertical or tilts through on the partition board.

An embodiment according to the present utility model, the lower half of the heat pipe respectively with the first lower chamber, the second cavity of resorption Body forms evaporator, and top half does not form condenser with the first upper cavity, the second upper cavity.

An embodiment according to the present utility model, first upper cavity, the second upper cavity side wall on be equipped with and remove Dirty liquid flowing valve, scale removal liquid valve door, the scale removal liquid flowing valve, scale removal liquid valve door are electrically connected with controller respectively.

An embodiment according to the present utility model, the boiler are equipped with third inlet valve, third flowing water Valve, with And it is set to the third inlet valve, the temperature sensor at third flowing water Valve, the third inlet valve, third water outlet Valve and temperature sensor are electrically connected with controller.

An embodiment according to the present utility model further includes：One alarm is electrically connected with the controller.

An embodiment according to the present utility model, the pressure fan, boiler are separately provided, the wind-heat recycling dress It sets, oily heat reclamation device is separately provided or monoblock type setting using split type.

One side according to the present utility model provides a kind of operating method of pressure fan residual neat recovering system, including：

Air inlet valve, outlet air valve, oil inlet valve, fuel-displaced valve are opened, all inlet valves, flowing water Valve are opened, All scale removal liquid flowing valves, scale removal draining valve are closed, the high warm air that pressure fan extrudes enters wind-heat retracting device through pipeline The evaporator of lower part enters air feed pipe network after heat pipe absorbs heat by discharge pipe, and heat pipe absorbs in high warm air after heat inside it Working medium vaporization rises；Tap water enters wind-heat retracting device upper condensator through pipeline, absorbs the heat that heat pipe transmission comes The opposite heat tube first half flow back after cooling makes heat-pipe working medium condensation liquefaction, and the temperature of tap water is increased because absorbing heat；

The high temperature oil of pressure fan enters the evaporator of oily heat reclamation device lower part through pipeline, passes through pipeline after heat pipe absorbs heat The fuel tank for returning pressure fan carries out cycle operation, its internal working medium vaporization rises after heat pipe absorbs oil heat, into condensation Evaporator is returned to after device cooling liquid, pre- hot tap-water enters through pipeline on oily heat reclamation device derived from wind-heat retracting device The heat that condenser, the absorption heat pipe in portion are transmitted from oil is able to continue to heat and heat up；Heated tap water is final It is flowed into boiler by pipeline.

An embodiment according to the present utility model, when pressure fan returning-oil temperature be higher than set temperature when, by increase into The inflow of penstock is adjusted；When pressure fan returning-oil temperature is less than set temperature, by the inflow tune for reducing inlet valve Section.

An embodiment according to the present utility model closes all water inlets of wind-heat retracting device and oily heat reclamation device Valve, flowing water Valve open scale removal liquid flowing valve and carry out scale removal, close scale removal liquid flowing valve after the completion of work to be cleaned, open Cleaning mixture is discharged with tap water for scale removal draining valve, inlet valve.

As shown from the above technical solution, the utility model has at least one of following advantages and good effect：

Heat pipe energy high efficiente callback pressure fan waste heat is used in the utility model, improves that organic efficiency, yield be big, power Density is big, small；It is inversely connected with tap water using wind-heat, oil heat and heats the leaving water temperature height of tap water.

Pressure fan residual neat recovering system described in the utility model has descaling function, ensure that the Effec-tive Function of system.

Description of the drawings

In order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, below will be to embodiment Or attached drawing needed to be used in the description of the prior art is briefly described, it should be apparent that, for ordinary skill people For member, without creative efforts, other drawings may also be obtained based on these drawings.

Fig. 1 is a kind of structure diagram of one embodiment of pressure fan residual neat recovering system described in the utility model；

Fig. 2 is the structural schematic diagram of wind-heat retracting device described in Fig. 1；

Fig. 3 is the structural schematic diagram of oily heat reclamation device described in Fig. 1；

Fig. 4 is the structural schematic diagram of boiler described in Fig. 1；

Fig. 5 is a kind of circuit system schematic diagram of pressure fan residual neat recovering system described in the utility model.

The reference numerals are as follows：

1- pressure fans；2- wind-heat retracting devices；The first upper cavities of 21-；The first inlet valves of 211-；The first outlet valves of 212- Door；213- the first scale removal liquid flowing valves；214- the first scale removal liquid valve doors；The first lower chambers of 22-；221- enters the wind valve；222- Outlet air valve；23- first partitions；The first heat pipes of 24-；3- oil heat reclamation devices；The second upper cavities of 31-；The second inlet valves of 311- Door；The second flowing water Valves of 312-；313- the second scale removal liquid flowing valves；314- the second scale removal liquid valve doors；The second lower chambers of 32-； 321- oil inlet valves；The fuel-displaced valves of 322-；33- second partitions；The second heat pipes of 34-；4- boilers；41- third inlet valves； 42- third flowing water Valves；5- water supply pipes；6- discharge pipes；7- temperature sensors；8- controllers；9- alarms.

Specific implementation mode

In the description of the present invention, unless otherwise indicated, the meaning of " plurality " is two or more.Term The orientation or state relation of the instructions such as "inner", "upper", "lower" are orientation based on ... shown in the drawings or state relation, merely to just In description the utility model and simplify description, specific side must be had by not indicating or implying the indicated device or element Position, with specific azimuth configuration and operation, therefore should not be understood as limiting the present invention.

In the description of the present invention, it should be noted that unless otherwise clearly defined and limited, term " is pacified Dress ", " connection " shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or be integrally connected；It can Can also be electrical connection to be mechanical connection；It can be directly connected, it can also be indirectly connected through an intermediary.For this For the those of ordinary skill in field, the concrete meaning of above-mentioned term in the present invention is understood as the case may be.

It should be noted that term " first " in the specification and claims of the utility model and above-mentioned attached drawing, " second " etc. is for distinguishing similar object, without being used to describe specific sequence or precedence.It should be appreciated that in this way The data used can be interchanged in the appropriate case, so as to the embodiments of the present invention described herein.

Below in conjunction with the accompanying drawings and specific implementation mode is described in further detail the utility model.

Pressure fan residual neat recovering system embodiment

Referring to Fig. 1~5, Fig. 1 is a kind of structure of one embodiment of pressure fan residual neat recovering system described in the utility model Block diagram, Fig. 2 are the structural schematic diagram of wind-heat retracting device described in Fig. 1, and Fig. 3 is the structure of oily heat reclamation device described in Fig. 1 Schematic diagram, Fig. 4 are the structural schematic diagram of boiler described in Fig. 1, and Fig. 5 is a kind of pressure fan waste heat recovery described in the utility model The circuit system schematic diagram of system.

A kind of pressure fan residual neat recovering system described in the utility model, including：Pressure fan 1, wind-heat retracting device 2, oil heat Retracting device 3, boiler 4, water supply pipe 5 and discharge pipe 6.Wherein, the wind medium output end of the pressure fan 1 passes through pipeline Be connected to wind-heat retracting device 2, through the wind-heat retracting device 2 heat exchange after by discharge pipe 6 discharge, through air feed pipe network (in figure not Show) it is back to the wind medium input terminal of pressure fan 1；The oil medium output end of the pressure fan 1 is filled by pipeline and oily recuperation of heat It sets 3 connections, forming circuit is connected to pressure fan 1 by oil return pipe 7 after the oily heat reclamation device 3 exchanges heat；The tap water Pipeline 5 is connected to the wind-heat retracting device 2, oily heat reclamation device 3 successively, described in the liquid warp in the water supply pipe 5 Temperature is increased and is flowed into the boiler 4 after wind-heat retracting device 2, oily heat reclamation device 3.The wind-heat retracting device 2 with Pipeline between oily heat reclamation device 3 is tap water preheating pipe, by wind-heat retracting device 2 to the water in water supply pipe 5 It is preheated.Further, the pressure fan 1 run when generate high warm air, the temperature of high temperature oil at 100 DEG C or so, wherein Temperature after high temperature air cooling does not require, and the temperature of oil return generally requires control at 60 DEG C -70 DEG C；The temperature of tap water hot water General control is spent within the scope of 50 DEG C -60 DEG C.

In the utility model, the wind-heat retracting device 2 include the first upper cavity 21, the first lower chamber 22, described first Separate and seal using first partition 23 between upper cavity 21 and the first lower chamber 22, several are installed on the partition board 23 First heat pipe 24, first heat pipe 24 upwardly or downwardly extend and extend respectively to first upper cavity 21 and the respectively In one lower chamber 22,21 both ends of the first upper cavity are equipped with the first inlet valve 211 and the first flowing water Valve 212, and described the One lower chamber, 22 both ends are equipped with air inlet valve 221 and outlet air valve 222.First inlet valve 211, the first flowing water Valve 212, valve 221 is entered the wind, outlet air valve 222 is equipped with temperature sensor 7, first inlet valve 211, the first flowing water Valve 212, valve 221, outlet air valve 222, temperature sensor 7 is entered the wind to be electrically connected with controller 8 respectively.In the utility model, institute It is identical as the structure of wind-heat retracting device 2 to state oily heat reclamation device 3, specifically：The oil heat reclamation device 3 includes the second epicoele Body 31, the second lower chamber 32 are separated and are sealed using second partition 33 between second upper cavity, 31 and second lower chamber 32, Several the second heat pipes 34 are installed on the second partition 33, second heat pipe upwardly or downwardly extends and divides respectively It does not extend in second upper cavity, 31 and second lower chamber 32,31 both ends of the second upper cavity are equipped with the second inlet valve 311, the second flowing water Valve 312, second lower chamber 32 are equipped with oil inlet valve 321 and fuel-displaced valve 322, second water inlet Valve 311, the second flowing water Valve 312, oil inlet valve 321, fuel-displaced valve 322 are equipped with temperature sensor 7, second water inlet Valve 311, the second flowing water Valve 312, oil inlet valve 321, fuel-displaced valve 322, temperature sensor 7 are electrical with controller 8 respectively Connection.All inlet valves, flowing water Valve, air inlet valve, outlet air valve, oil inlet valve, delivery valve are controlled by controller 8 Door, scale removal liquid flowing valve, the unlatching of scale removal liquid valve door, closing and fluids within pipes flow velocity.

In the utility model, first heat pipe 24 is extended vertically through in the first partition 23, and the second heat pipe 34 is vertical Through on the second partition 33.So design, heat are lost at least in transmission process.Certainly, first heat pipe 24, Second heat pipe 34 can also be obliquely installed.It should be noted that first heat pipe 24 must not be arranged in parallel with first partition 23, Second heat pipe 34 must not be arranged in parallel with second partition 33.In the utility model, the lower half and first of first heat pipe 24 Lower chamber 22 forms evaporator, and the lower half of the second heat pipe 34 forms evaporator, first heat pipe 24 with the second lower chamber 33 The first half and the first upper cavity 21 form condenser, the first half of the second heat pipe 34 and the second upper cavity 31 composition condenser. First heat pipe 24, the second heat pipe 34 are the heat transfer elements that heat transfer is realized by the phase transformation of therein working fluid, are existing There is equipment.In the utility model, the working fluid in the heat pipe 4 is water.

In the utility model, the water in the first heat pipe 24 being set in the first lower chamber 22 becomes water by " heat absorption " and steams Gas is moved upward to the top of the first heat pipe 24, that is, is moved upward in the first heat pipe 24 for being set to the first upper cavity 21, Vapor carries heat during this；When vapor encounters the first heat pipe 24 for being set to the first upper cavity 21, vapor by The water that gaseous state is transformed into liquid is attached on the inner wall of the first heat pipe 24；Under the effect of gravity, the water of liquid is in the first heat pipe 24 Inner wall is from top to bottom back to the lower half of the first heat pipe 24.Wherein, vapor is transformed into complete during liquid water by gaseous state At " heat release ", the tap water entered in the first upper cavity 21 takes away heat in flow process, realizes that the wind medium of compressor 1 is defeated The recycling of the heat of the gas of outlet output.Similarly, the water in the second heat pipe 34 in the second lower chamber 32 is set to by " inhaling Heat " becomes the top that vapor is moved upward to the second heat pipe 34, that is, to be moved upward to and be set to the second of the second upper cavity 31 In heat pipe 34, vapor carries heat in the process；It is set to the second heat pipe 34 of the second upper cavity 31 when vapor encounters When, the water that vapor is transformed into liquid by gaseous state is attached on the inner wall of the second heat pipe 34；Under the effect of gravity, the water of liquid exists Second heat pipe, 34 inner wall is from top to bottom back to the lower half of the second heat pipe 34.Wherein, vapor is transformed into liquid water by gaseous state During complete " heat release ", the tap water entered in the second upper cavity 31 takes away heat in flow process, realizes compressor 1 Oil medium output end output fluid heat recycling.

In the utility model, it is equipped with the first scale removal liquid flowing valve 213 on the side wall of first upper cavity 21, first removes Dirty liquid valve door 214, the first scale removal liquid flowing valve 213, the first scale removal liquid valve door 214 electrically connect with controller 8 respectively It connects.The second scale removal liquid flowing valve 313, the second scale removal liquid valve door 314 are equipped on the side wall of second upper cavity 31, it is described Second scale removal liquid flowing valve 313, the second scale removal liquid valve door 314 are electrically connected with controller 8 respectively.Further, described One scale removal liquid flowing valve 213 is located at the upside of the first scale removal liquid valve door 214, and the second scale removal liquid flowing valve 313 is located at institute State the upside of the second scale removal liquid valve door 314.So design, is conducive to by the first scale removal liquid flowing valve 213, the second scale removal feed liquor The cleaning mixture discharge that valve 313 enters.Preferably, the first scale removal liquid valve door 214 is located at first upper cavity 21 Bottom, the second scale removal liquid valve door 314 are located at the bottom of second upper cavity 31.In the utility model, the boiler 4 is set There are third inlet valve 41, third flowing water Valve 42, and is set to the third inlet valve 41, at third flowing water Valve 42 Temperature sensor 7, the third inlet valve 41, third flowing water Valve 42 and temperature sensor 7 electrically connect with controller 8 It connects.The controller 7 is existing equipment, and ATmega64 controllers may be used.In addition, also using a report in the utility model Alert device 9, is electrically connected with the controller 8, and alarm signal can be sent out by the way that alarm 9 is arranged.

A kind of operating method of pressure fan residual neat recovering system described in the utility model, includes the following steps：

Air inlet valve 221, outlet air valve 222, oil inlet valve 321, fuel-displaced valve 322 are opened by controller 8, opens institute Some inlet valves, flowing water Valve close all scale removal liquid flowing valves, scale removal draining valve, the high warm air that pressure fan 1 extrudes The evaporator for entering 2 lower part of wind-heat retracting device through pipeline enters air duct after the heat absorption of the first heat pipe 24 by discharge pipe 6 Net, the first heat pipe 24 absorb its internal working medium vaporization rising after heat in high warm air；Tap water enters through water supply pipe 5 2 upper condensator of wind-heat retracting device absorbs 24 first half of the first heat pipe of heat pair that the transmission of the first heat pipe 24 comes and cools down, It flows back after making 24 working fluid condensate of the first heat pipe, the temperature of tap water is increased because absorbing heat；

The high temperature oil of pressure fan 1 enters the evaporator of 2 lower part of oily heat reclamation device through pipeline, after the heat absorption of the second heat pipe 34 The fuel tank (not shown) that pressure fan 1 is returned by pipeline carries out cycle operation, and the second heat pipe 34 absorbs after oily heat inside it Working medium vaporization rises, into condenser cooling liquid after return to evaporator, originally from the derived preheating of wind-heat retracting device 2 The heat that water enters the condenser on 3 top of oily heat reclamation device through pipeline, the second heat pipe 34 of absorption is transmitted from oil is able to Continue to heat and heat up；Heated tap water is flowed into eventually by pipeline in boiler 4.Hot water in the boiler 4 can Using as daily bath cleaning water.

Wherein, when controller 81 returning-oil temperature of pressure fan is monitored by being set to the temperature sensor 7 of fuel-displaced valve 322 When higher than set temperature, the second inlet valve 311 that controller 8 just controls the first cavity 31 increases inflow；When the temperature The returning-oil temperature of degree Sensor monitoring to pressure fan 1 just controls the second inlet valve 311 when being less than set temperature and reduces inflow.

When the temperature sensor 7 of the second upper cavity 31 monitors leaving water temperature less than set temperature range, the second lower chamber When 32 temperature sensor 7 monitors that returning-oil temperature is higher than set temperature range, illustrate the second heat pipe 34 in the second lower chamber 32 On incrustation scale it is serious, the controller 8 sends out alarm signal by alarm 9, after pressure fan 1 shuts down controller 13 close The first inlet valve 211, the first flowing water Valve 212, the second inlet valve 311, the second flowing water Valve 312 are closed, first is opened and removes Dirty liquid flowing valve 213, the second scale removal liquid flowing valve 313 make cleaning mixture respectively enter the first upper cavity 21, in the second upper cavity 31 Carry out scale removal work.After equal scale removal work terminates (general using timing), the controller 8 closes the first scale removal liquid flowing valve 213, the second scale removal liquid flowing valve 313 opens the first inlet valve 211, the first scale removal liquid valve door 214 with tap water by first Cleaning mixture discharge in upper cavity 21, waits and closes the first scale removal liquid valve door 214 after rinsing well；Open the first flowing water Valve 212, the cleaning mixture in second upper cavity 31 is discharged for the second inlet valve 311, the second scale removal liquid valve door 314, waits flushings dry The second scale removal liquid valve door 314 is closed after net, opening the second flowing water Valve 312 when waiting for pressure fan 1 next time of operation carries out pressure wind 1 waste heat recovery of machine works.

In conclusion using heat pipe energy high efficiente callback pressure fan waste heat in the utility model, organic efficiency, recycling are improved Amount is big, power density is big, small；It is inversely connected with tap water using wind-heat, oil heat and heats the leaving water temperature height of tap water.This Pressure fan residual neat recovering system described in utility model has descaling function, ensure that the Effec-tive Function of system.

It should be appreciated that the utility model is not limited in its application to the detailed construction and arrangement of component proposed in this paper Mode.The utility model can have other embodiment, and can realize and execute in many ways.Aforesaid deformation form It is fallen in the scope of the utility model with modification.It should be appreciated that the utility model disclosed and defined herein extends It is mentioned to text and/or drawings or all alternative combinations of two or more apparent independent features.It is described herein Embodiment illustrate to become known for realize the best mode of the utility model, and those skilled in the art will be enable to utilize The utility model.

Claims (9)

1. a kind of pressure fan residual neat recovering system, which is characterized in that including：Pressure fan, wind-heat retracting device, oily recuperation of heat dress It sets, boiler；

Wherein, the wind medium output end of the pressure fan is connected to wind-heat retracting device by pipeline, recycles dress through the wind-heat It is discharged by discharge pipe after displacement heat；The oil medium output end of the pressure fan is connected to, with oily heat reclamation device through institute by pipeline It states and forming circuit is connected to pressure fan by oil return pipe after oily heat reclamation device exchanges heat；

Further include water supply pipe, is connected to successively with the wind-heat retracting device, oily heat reclamation device, in the water supply pipe Liquid after the wind-heat retracting device, oily heat reclamation device temperature increase and flow into the boiler.

2. a kind of pressure fan residual neat recovering system according to claim 1, which is characterized in that the wind-heat retracting device packet The first upper cavity, the first lower chamber are included, separates and seals using partition board between first upper cavity and the first lower chamber, in institute It states and several heat pipes is installed on partition board, the heat pipe upwardly or downwardly extends and extends respectively to first epicoele respectively In body and the first lower chamber, first upper cavity both ends are equipped with the first inlet valve and the first flowing water Valve, under described first Cavity both ends are equipped with air inlet valve and outlet air valve, first inlet valve, the first flowing water Valve, air inlet valve, outlet valve Door is equipped with temperature sensor, first inlet valve, the first flowing water Valve, air inlet valve, outlet air valve, temperature sensor It is electrically connected respectively with controller.

3. a kind of pressure fan residual neat recovering system according to claim 1, which is characterized in that the oil heat reclamation device packet The second upper cavity, the second lower chamber are included, separates and seals using partition board between second upper cavity and the second lower chamber, in institute It states and several heat pipes is installed on partition board, the heat pipe upwardly or downwardly extends and extends respectively to second epicoele respectively In body and the second lower chamber, second upper cavity both ends are equipped with the second inlet valve, the second flowing water Valve, second cavity of resorption Body is equipped with oil inlet valve and fuel-displaced valve, and second inlet valve, the second flowing water Valve, oil inlet valve, fuel-displaced valve are all provided with Have a temperature sensor, second inlet valve, the second flowing water Valve, oil inlet valve, fuel-displaced valve, temperature sensor respectively with Controller is electrically connected.

4. a kind of pressure fan residual neat recovering system according to claim 2 or 3, which is characterized in that the heat pipe it is vertical or It tilts through on the partition board.

5. a kind of pressure fan residual neat recovering system according to claim 2 or 3, which is characterized in that the lower half of the heat pipe Portion respectively with the first lower chamber, the second lower chamber form evaporator, top half not with the first upper cavity, the second upper cavity group At condenser.

6. a kind of pressure fan residual neat recovering system according to claim 5, which is characterized in that first upper cavity, Scale removal liquid flowing valve, scale removal liquid valve door, the scale removal liquid flowing valve, scale removal liquid valve door are equipped on the side wall of two upper cavities It is electrically connected respectively with controller.

7. a kind of pressure fan residual neat recovering system according to claim 1, which is characterized in that the boiler is equipped with third Inlet valve, third flowing water Valve, and it is set to the third inlet valve, the temperature sensor at third flowing water Valve, The third inlet valve, third flowing water Valve and temperature sensor and controller are electrically connected.

8. a kind of pressure fan residual neat recovering system according to claim 2,3,6 or 7, which is characterized in that further include：

One alarm is electrically connected with the controller.

9. a kind of pressure fan residual neat recovering system according to claim 1, which is characterized in that the pressure fan, boiler It is separately provided, the wind-heat retracting device, oily heat reclamation device are separately provided or monoblock type setting using split type.