CN206904984U - Rubbish destructive distillation heating system - Google Patents

Abstract

The utility model discloses rubbish destructive distillation heating system, comprise at least：Body of heater, transport mechanism, heating arrangements, funnel equipment and tilting feed mechanism；The transport mechanism, which runs through, to be arranged in the body of heater；Direction of transfer of the heating arrangements along the transport mechanism is uniformly arranged in the body of heater；The discharging opening of the funnel equipment is located at the top of the tilting feed mechanism；The discharge end of the tilting feed mechanism is located at the top of the feeding mouth of the body of heater.Heating arrangements are uniformly arranged in body of heater along the direction of transfer of transport mechanism, it is achieved thereby that uniformly heating, and then prevent pusher equipment in stove deform and helical blade and outer tube it is stuck can not pusher the problem of generation, make deformation of the pusher equipment after high-temperature heating controllable, heat so as to allow rubbish high temperature in pusher equipment to promote, that is, ensure that being normally carried out for garbage disposal operation.

Description

Rubbish destructive distillation heating system

Technical field

It the utility model is related to environmental technology field, more particularly to rubbish destructive distillation heating system.

Background technology

Rubbish destructive distillation heating system, pushed away using high temperature resistance heating element heater external heating mode heating elevated-temperature seal formula spiral Expect equipment, rubbish is carried out to the refuse disposal installation of high-temperature heating treatment, it is an important step for realizing garbage disposal.

But the heating of existing rubbish destructive distillation heating system be it is uneven, so as to result in pusher equipment deformation with And helical blade and outer tube it is stuck can not pusher the problem of generation, and then hinder being normally carried out for garbage disposal operation.

Utility model content

The utility model solves the technology that can not uniformly heat in the prior art by providing rubbish destructive distillation heating system Problem, realize the technique effect being normally carried out for ensureing garbage disposal operation.

The utility model provides rubbish destructive distillation heating system, comprises at least：Body of heater, transport mechanism, heating arrangements, funnel Equipment and tilting feed mechanism；The transport mechanism, which runs through, to be arranged in the body of heater；The heating arrangements are along the transmission The direction of transfer of mechanism is uniformly arranged in the body of heater；The discharging opening of the funnel equipment is located at the tilting feed mechanism Top；The discharge end of the tilting feed mechanism is located at the top of the feeding mouth of the body of heater.

Further, the heating arrangements include：Hollow tube, centrifugation heating tube, heat-insulation layer and heat-conducting layer；The centrifugation adds Heat pipe is arranged in the hollow tube；The heat-insulation layer and the heat-conducting layer be arranged at the inwall of the hollow tube with it is described from Between heart heating tube, and the heat-insulation layer and the heat-conducting layer are arranged side by side.

Further, the heating arrangements also include：Insulate retainer ring；The centrifugation heating tube is fixed by the insulation Ring is arranged in the hollow tube.

Further, the transport mechanism comprises at least：Transmit body, sealing mechanism and actuating unit；The transmission is originally Body, which runs through, to be arranged in the body of heater；The sealing mechanism is carried out to the material input and material output end of the transmission body Sealing；The clutch end of the actuating unit is connected with the power intake of the transmission body.

Further, the actuating unit comprises at least：PTO, driving wheel, chain and driven pulley；It is described dynamic The clutch end of power output device mechanically connects with the driving wheel；The driven pulley is connected with the transmission body；It is described Driving wheel is connected with the driven pulley by the chain.

Further, the sealing mechanism comprises at least：Cover plate, inner sleeve, overcoat, pedestal and the first sealant；The biography Body is sent through the cover plate and is set in the susceptor；The inner sleeve is enclosed on the outside of the transmission body；The overcoat It is enclosed on the outside of the inner sleeve；First sealant is arranged on the transmission body and the cover plate, the inner sleeve, the base The junction of seat；Coolant circulation chamber is formed by the cover plate, the inner sleeve, the overcoat and the pedestal.

Further, the sealing mechanism also comprises at least：Bearing, bearing block, locking nut and the second sealant；It is described Bearing is arranged in the bearing block；The transmission body penetrates the bearing block；The locking nut locks the bearing block Tightly；Second sealant is arranged on the junction of the locking nut and the bearing block.

Further, the body of heater comprises at least：Grate and furnace lining；The furnace lining comprises at least：Bottom refractory brick, sidepiece Fibre module and top fibers module；The bottom refractory brick is arranged on the bottom of the grate；The sidepiece fibre module is set Put in the side of the grate；The top fibers module is arranged on the top of the grate；The transmission body is through setting In the cavity being made up of the bottom refractory brick, the sidepiece fibre module and the top fibers module；The heater Direction of transfer of the structure along the transmission body is uniformly arranged on the bottom refractory brick, the sidepiece fibre module and the top In fibre module.

Further, the bottom refractory brick comprises at least：First layer refractory brick, second layer refractory brick and third layer diatom Brick；The first layer refractory brick, the second layer refractory brick and the third layer diatom brick are arranged on the grate from top to bottom Bottom；The quality of second layer refractory brick is big described in the mass ratio of the first layer refractory brick；The heating arrangements are arranged on institute State on first layer refractory brick.

Further, also comprise at least：Temperature-measuring part；The temperature-measuring part is arranged on by the bottom refractory brick, described In the cavity of sidepiece fibre module and top fibers module composition.

The one or more technical schemes provided in the utility model, have at least the following technical effects or advantages：

Heating arrangements are uniformly arranged in body of heater along the direction of transfer of transport mechanism, it is achieved thereby that uniformly heating, enters And prevent pusher equipment in stove deform and helical blade and outer tube it is stuck can not pusher the problem of generation, set pusher The standby deformation after high-temperature heating is controllable, heats so as to allow rubbish high temperature in pusher equipment to promote, that is, ensure that Garbage disposal operation is normally carried out.

Brief description of the drawings

Fig. 1 is the front view for the rubbish destructive distillation heating system that the utility model embodiment provides；

Fig. 2 is the side view for the rubbish destructive distillation heating system that the utility model embodiment provides；

Fig. 3 is the structural representation of heating arrangements 15 in the rubbish destructive distillation heating system that the utility model embodiment provides；

Fig. 4 is the front view that body 6 is transmitted in the rubbish destructive distillation heating system that the utility model embodiment provides；

Fig. 5 is the top view that body 6 is transmitted in Fig. 4；

Fig. 6 is the sectional view of the first sealing mechanism in the rubbish destructive distillation heating system that the utility model embodiment provides；

Fig. 7 is the sectional view of second of sealing mechanism in the rubbish destructive distillation heating system that the utility model embodiment provides；

Fig. 8 is the structural representation of grate 5 in the rubbish destructive distillation heating system that the utility model embodiment provides；

Fig. 9 is the front view of furnace lining in the rubbish destructive distillation heating system that the utility model embodiment provides；

Figure 10 is the right view of furnace lining in Fig. 9；

Wherein, the outlet pipes of 1- first, the outlet pipes of 2- second, 3- feed pipes, 4- carbon and clinker pipeline, 5- grates, 6- transmits body, 7- driven pulleys, 8- actuating units, 9- reaction tubes, 10- helical axis, 11- helical blades, 12- furnace roofs, 14- fibers Module, 15- heating arrangements, 16- first layer refractory brick, 17- second layer refractory brick, 18- third layer diatom bricks, 19- inner sleeves, 20- Overcoat, the sealants of 21- first, 22- cover plates, 23- pedestals, 24- bearings, 25- bearing blocks, the sealants of 26- second, 27- locking screws Mother, 28- funnel equipment, 29- tilting feed mechanisms, 30- hollow tubes, 31- centrifugation heating tubes, 32- heat-insulation layers, 33- heat-conducting layers, 34- insulation retainer rings, 35- bodies of heater, 36- fixed seats, 37- terminal plates.

Embodiment

By providing rubbish destructive distillation heating system, solving can not uniformly heat the utility model embodiment in the prior art Technical problem, realize ensure garbage disposal operation the technique effect being normally carried out.

The technical scheme in the embodiment of the utility model is in order to solve the above technical problems, general thought is as follows：

Heating arrangements are uniformly arranged in body of heater along the direction of transfer of transport mechanism, it is achieved thereby that uniformly heating, enters And prevent pusher equipment in stove deform and helical blade and outer tube it is stuck can not pusher the problem of generation, set pusher The standby deformation after high-temperature heating is controllable, heats so as to allow rubbish high temperature in pusher equipment to promote, that is, ensure that Garbage disposal operation is normally carried out.

In order to more fully understand above-mentioned technical proposal, below in conjunction with Figure of description and specific embodiment to upper Technical scheme is stated to be described in detail.

The rubbish destructive distillation heating system provided referring to Fig. 1 and Fig. 2, the utility model embodiment, is comprised at least：Body of heater 35, Transport mechanism, heating arrangements 15, funnel equipment 28 and tilting feed mechanism 29；Transport mechanism, which runs through, to be arranged in body of heater 35； Direction of transfer of the heating arrangements 15 along transport mechanism is uniformly arranged in body of heater 35.The discharging opening of funnel equipment 28 is located at tilting The top of feed mechanism 29；The discharge end of tilting feed mechanism 29 is located at the top of the feeding mouth of body of heater 35.

In the present embodiment, funnel equipment 28 is conical hopper, and tilting feed mechanism 29 is that tubular type tilting screw is defeated Send machine.Conical hopper, which is mainly realized, temporarily deposits treated rubbish, supplies following tube-type spiral conveyer.Tubular type is inclined Inclined screw conveyer mainly realizes the transport mechanism that rubbish is sent into body of heater 35.Wherein, conical hopper uses 8mm ordinary steels Coning shape, bottom are provided with the tripodia made by 80 channel-section steels, discharging opening and the tubular type inclined screw conveyor of bottom to coiled sheet Charging aperture is connected.The technical parameter of tubular type inclined screw conveyor is as follows：

In the present embodiment, heating arrangements 15 have multiple.

Referring to Fig. 3, the structure of single heating arrangements 15 is illustrated, heating arrangements 15 include：Hollow tube 30, centrifugation add Heat pipe 31, heat-insulation layer 32 and heat-conducting layer 33；Centrifugation heating tube 31 is arranged in hollow tube 30；Centrifugation heating tube 31 passes through terminal plate 37 draw；Hollow tube 30 is arranged in body of heater 35 by fixed seat 36；Heat-insulation layer 32 and heat-conducting layer 33 are arranged at hollow tube 30 Inwall and centrifugation heating tube 31 between, and heat-insulation layer 32 and heat-conducting layer 33 are arranged side by side.

The structure of heating arrangements 15 is further described, heating arrangements 15 also include：Insulate retainer ring 34；Centrifugation adds Heat pipe 31 is arranged in hollow tube 30 by the retainer ring 34 that insulate.

In the present embodiment, heat-insulation layer 32 is heat-preservation cotton, and heat-conducting layer 33 is magnesium oxide sand, and fixed seat 36 is fixed for ceramics Seat, insulation retainer ring 34 are insulation retainer ring.

The structure of transport mechanism is illustrated, transport mechanism comprises at least：Transmit body 6, sealing mechanism and engine Structure 8；Transmission body 6, which runs through, to be arranged in body of heater 35；Sealing mechanism enters to the material input and material output end that transmit body 6 Row sealing；The power intake of the clutch end of actuating unit 8 and transmission body 6 mechanically connects.

Referring to Fig. 4 and Fig. 5, the structure for transmitting body 6 is illustrated, transmission body 6 comprises at least：Reaction tube 9 and spiral shell Rotating plasma；

Wherein, propeller comprises at least：Helical axis 10 and helical blade 11；Helical axis 10 is solid shafting, using high temperature resistant 2Cr28Ni48W5 centrifugal casting formings, external diameter is110mm, wall thickness 30mm, overall length 6768mm.Welded on helical axis 10 There is helical blade 11, and the thickness of helical blade 11 is 8mm, pitch 150mm, length 5550mm.Need exist for explanation It is that propeller needs to finish, to ensure that concentricity is not more than 0.25mm no more than 0.5mm, linearity.

Reaction tube 9 uses resistant to elevated temperatures 2Cr28Ni48W5 centrifugal casting formings, and external diameter is340mm, wall thickness 20mm, length Spend and finished for 6020mm, two end flanges by lathe, and ensure that the concentricity of flange is not more than 0.5mm, so as to effectively improve The installation accuracy of helical axis 10.There are carbon and clinker pipeline 4 (mouth down), the first outlet pipe 1, second to go out on reaction tube 9 Feed channel 2 and feed pipe 3, and be fixed on using welding manner on reaction tube 9, and ensure on the same line and perpendicular to The axis of reaction tube 9, each pipeline are provided with flange, in order to the connection and sealing with external equipment.

Specifically, carbon and clinker pipeline 4 use resistant to elevated temperatures 2Cr28Ni48W5 moulding by casting, and external diameter is340mm, wall thickness For 20mm, length 520mm, the bottom of reaction tube 9 is welded in, it is circular flange in order to connecting with material recycling device to export Connect；First outlet pipe 1 and the second outlet pipe 2 use resistant to elevated temperatures 2Cr28Ni48W5 moulding by casting, and external diameter is 340mm, wall thickness 20mm, length 520mm, be welded in the top of reaction tube 9, export for circular flange in order to gas return Receiving apparatus connects；Feed pipe 3 uses resistant to elevated temperatures 2Cr28Ni48W5 moulding by casting, appearance and size 390mm*320mm* 520mm (length * width * height), is welded in the top of reaction tube 9, import be square flange in order to material transfer equipment Delivery outlet connection.

The structure of material recycling device is illustrated, material recycling device comprises at least：Container, conveying mechanism and vacuum Pump.The material input of container is connected with the outlet of carbon and clinker pipeline 4；Conveying mechanism is arranged in container, in container content There is coolant；Vavuum pump is passed through container.After carbon distribution enters container by the outlet of carbon and clinker pipeline 4, the temperature quilt of carbon distribution Drop to below burning-point.Below 500Pa is evacuated down to by vavuum pump again, to prevent air by material recycling device and carbon and Clinker pipeline 4 enters rubbish destructive distillation heating system.

The structure of actuating unit 8 is illustrated, actuating unit 8 comprises at least：PTO, driving wheel, chain And driven pulley 7；The clutch end of PTO mechanically connects with driving wheel；Driven pulley 7 connects with the machinery of transmission body 6 Connect；Driving wheel is connected with driven pulley 7 by chain.

Specifically, driven pulley 7 mechanically connects with helical axis 10.

In the present embodiment, PTO is motor, and driven pulley 7 is duplex chain wheel (model 2-20AZ17).

The utility model embodiment provides the sealing mechanism of two kinds of structures.

Referring to Fig. 6, the first sealing mechanism comprises at least：Cover plate 22, inner sleeve 19, overcoat 20, pedestal 23 and first seal Layer 21；Transmission body 6 is through cover plate 22 and is arranged in pedestal 23；Inner sleeve 19 is enclosed on the outside of transmission body 6；Overcoat 20 is enclosed on The outside of inner sleeve 19；First sealant 21 is arranged on transmission body 6 and cover plate 22, inner sleeve 19, the junction of pedestal 23；By cover plate 22nd, inner sleeve 19, overcoat 20 and pedestal 23 form coolant circulation chamber.

Specifically, helical axis 10 through cover plate 22 and is arranged in pedestal 23；Inner sleeve 19 is enclosed on the outside of helical blade 11； First sealant 21 is arranged on propeller and cover plate 22, inner sleeve 19, the junction of pedestal 23.Circulate in chamber and inject to coolant Coolant can absorb the conduction heat of propeller and the radiant heat of heating arrangements 15, so as to extend making for the utility model embodiment Use the life-span.

In the present embodiment, there is the lubrication channel for injecting lubricating fluid on pedestal 23, periodically injecting lubricating fluid can protect Demonstrate,prove the normal work of the utility model embodiment.

The thermal expansion problem of propeller main shaft is not only solved by this sealing mechanism, and effectively prevent the outer of gas Let out.Specifically, this sealing mechanism is fixed on the left end of reaction tube 9.

Referring to Fig. 7, second of sealing mechanism comprises at least：Bearing 24, bearing block 25, the sealant of locking nut 27 and second 26；Bearing 24 is arranged in bearing block 25；Transmission body 6 penetrates bearing block 25；Locking nut 27 locks bearing block 25；Second Sealant 26 is arranged on the junction of locking nut 27 and bearing block 25, effectively prevent leaking for gas.

Specifically, helical axis 10 penetrates bearing block 25.

In the present embodiment, bearing block 25 uses 2520 hot investment castings, and is provided with into return pipe, the installation of both ends high-temperature bearing Hole need to be finished to ensure that the concentricity of holes is not more than 0.25, and bearing block water cooling primarily serves ensures bearing in high temperature environments 24 normal use.Second sealant 26 is graphite sole.

Specifically, this sealing mechanism is fixed on the right-hand member of reaction tube 9.

Referring to Fig. 8, Fig. 9 and Figure 10, the structure of body of heater 35 is illustrated, body of heater 35 comprises at least：Grate 5 and furnace lining； Furnace lining comprises at least：Bottom refractory brick, sidepiece fibre module and top fibers module；Bottom refractory brick is arranged on the bottom of grate 5 Portion；Sidepiece fibre module is arranged on the side of grate 5；Top fibers module is arranged on the top of grate 5；Transmission body 6 runs through It is arranged in the cavity being made up of bottom refractory brick, sidepiece fibre module and top fibers module；Heating arrangements 15 along transmission this The direction of transfer of body 6 is uniformly arranged in bottom refractory brick, sidepiece fibre module and top fibers module.

The structure of grate 5 is illustrated, grate 5 is outer framework structure, by shaped steel (channel-section steel) and the assembled welding of steel plate Into.Shaped steel group is welded into rectangular frame, and high-quality accurate steel plate is welded in surrounding and bottom on the inside of framework.Furnace roof 12 is welded into by channel-section steel group Rectangular frame.Steel plate and framework using being intermittently welded mode, this structure have solid and reliable, good appearance, non-welding surface seam and The advantages that long term high temperature use is unlikely to deform.

The structure of bottom refractory brick is illustrated, bottom refractory brick comprises at least：First layer refractory brick 16, the second layer are resistance to Firebrick 17 and third layer diatom brick 18；First layer refractory brick 16, second layer refractory brick 17 and third layer diatom brick 18 are from top to bottom It is arranged on the bottom of grate 5；The quality of first layer refractory brick 16 is bigger than the quality of second layer refractory brick 17；Heating arrangements 15 are set On first layer refractory brick 16.

Specifically, the packet of heating arrangements 15 of sidepiece is fixed on furnace wall with refractory ceramics screw rod, and this fixed form is very Firmly, it is durable reliable, easy for installation, the heating arrangements 15 of bottom be directly placed at heavy it is brick into wire setting groove in, so as to just Shaping, welding, replacing when heating arrangements 15 repair.

Fibre module 14 is illustrated, fibre module 14 is made up of ceramic fiber module, (fine using compression packing manner Tie up furnace lining and make compression ratio >=35-40%), thickness >=300mm of heat-insulation layer, so as to ensure module every piece of fibre after building by laying bricks or stones Tie up module 14 to expand in different directions, make mutually to be squeezed into gapless entirety between module, so as to reach intact accumulation of heat effect Fruit, and module construction is convenient and swift, can be directly fixed in the stainless steel anchor studs of the steel plate of grate 5.

The structure of the utility model embodiment is specifically described, also comprised at least：Temperature-measuring part；Temperature-measuring part is set In the cavity being made up of bottom refractory brick, sidepiece fibre module and top fibers module.

In order to improve the automatization level of the utility model embodiment, also comprise at least：Controller；The signal of controller is defeated Enter end to be connected with the signal output end communication of temperature-measuring part, the signal output part of controller and actuating unit 8, heating arrangements 15, The signal input part communication connection of conveying mechanism, vavuum pump, funnel equipment 28, tilting feed mechanism 29.

The structure of the utility model embodiment is further described, using high-power power model to the heating in stove Mechanism 15 is powered heating, and takes air blast cooling but to high-power power model, also respectively by temperature relay, quick Fuse and A.C. contactor realize the measures such as excessively stream, overheat, short-circuit protection.

In order to realize the warning function of the utility model embodiment, also comprise at least：Warning device；The signal of warning device The signal output end communication of input and controller connects.When monitoring that the temperature in stove is higher by temperature threshold by temperature-measuring part When, controller issues a signal to warning device, carries out overtemperature alarm, and turn off the power supply to heating arrangements 15.

In the present embodiment, warning device can be buzzer and/or alarm lamp.

For the heating load of real-time exhibition equipment or the operating mode of transmission operation, also comprise at least：Presentation device；Displaying is set Standby signal input part and the signal output end communication of controller connect.

In the present embodiment, presentation device can be display screen and/or voice broadcast equipment.

The operation principle of the utility model embodiment is illustrated：

After the temperature of rubbish destructive distillation heating system first is heated into 1100 DEG C, then by house refuse by broken bag, iron removaling, wind Choosing removes stone, ceramics, glass, the inorganic matter such as metal in rubbish, is then crushed, sorted, drying and processing, and by rubbish Size controlling in below 30mm.The rubbish after drying is sent into rubbish destructive distillation by feed pipe 3 by feed arrangement again to add Hot systems, then rubbish is continuously inwardly promoted by the transmission body 6 in rubbish destructive distillation heating system and heated.Rubbish passes through height Temperature heating after caused gas by the first outlet pipe 1 and the second outlet pipe 2 be collected processing utilize, caused carbon and Lime-ash carries out recycling utilization by carbon and clinker pipeline 4.

Explanation is needed exist for, the utility model embodiment is using multistage heating mode, you can exists according to rubbish Gas caused by different temperatures sets different temperature sections, then each temperature section is heated respectively, so as to save the energy, Realize the maximum effectiveness of the recovery of caused gas after rubbish heats.

【Technique effect】

1st, direction of transfer of the heating arrangements 15 along transport mechanism is uniformly arranged in body of heater 35, it is achieved thereby that uniformly adding Heat, so prevent pusher equipment in stove deform and helical blade 11 and outer tube it is stuck can not pusher the problem of generation, Make deformation of the pusher equipment after high-temperature heating controllable, heat so as to allow rubbish high temperature in pusher equipment to promote, It ensure that being normally carried out for garbage disposal operation.

2nd, the utility model embodiment is by the use to centrifuging heating tube 31, not only homogeneous heating and quick heating, and Repair and replacement are convenient, directly extract bad centrifugation heating tube 31 from hollow tube 30 out, change new, do not influence work.

3rd, the transfer rate for transmitting body 6 can be adjusted by adjusting the output frequency of motor, so as to Rubbish is targetedly handled according to different rubbish and different temperatures, so as to improve the place of the utility model embodiment Manage efficiency.

4th, coolant circulation chamber is provided with one end of transmission body 6, two-way height is used in the other end of transmission body 6 Warm bearing 24, and dynamic sealing is carried out using graphite packing, it can not turn under the high temperature conditions so as to solve transmission body 6 simultaneously The problem of the problem of the problem of dynamic, transmission body 6 poorly sealed when high temperature rotates and helical axis 10 stretch under high temperature transmission.

5th, using heat-insulation layer of the fibre module 14 as body of heater 35, temperature heat loss is less than 5%, maximally utilise Heat energy, so as to reduce production cost, handle the miscellaneous equipment energy-conservation 50% of equal quantity of refuse.

6th, by the use to temperature-measuring part, the function that the temperature feedback of the utility model embodiment is adjusted is realized.

7th, by the use to controller, the automatization level of the utility model embodiment is improved.

Although having been described for preferred embodiment of the present utility model, those skilled in the art once know substantially Creative concept, then other change and modification can be made to these embodiments.So appended claims are intended to be construed to wrap Include preferred embodiment and fall into having altered and changing for the scope of the utility model.

Obviously, those skilled in the art can carry out various changes and modification without departing from this practicality to the utility model New spirit and scope.So, if these modifications and variations of the present utility model belong to the utility model claims and Within the scope of its equivalent technologies, then the utility model is also intended to comprising including these changes and modification.

Claims (10)

1. a kind of rubbish destructive distillation heating system, it is characterised in that comprise at least：Body of heater, transport mechanism, heating arrangements, funnel are set Standby and tilting feed mechanism；The transport mechanism, which runs through, to be arranged in the body of heater；The heating arrangements are along the conveyer The direction of transfer of structure is uniformly arranged in the body of heater；The discharging opening of the funnel equipment is located at the tilting feed mechanism Top；The discharge end of the tilting feed mechanism is located at the top of the feeding mouth of the body of heater.

2. rubbish destructive distillation heating system as claimed in claim 1, it is characterised in that the heating arrangements include：Hollow tube, from Heart heating tube, heat-insulation layer and heat-conducting layer；The centrifugation heating tube is arranged in the hollow tube；The heat-insulation layer and the heat conduction Layer is arranged between the inwall of the hollow tube and the centrifugation heating tube, and the heat-insulation layer and the heat-conducting layer are set side by side Put.

3. rubbish destructive distillation heating system as claimed in claim 2, it is characterised in that the heating arrangements also include：Insulation is solid Determine ring；The centrifugation heating tube is arranged in the hollow tube by the insulation retainer ring.

4. rubbish destructive distillation heating system as claimed in claim 1, it is characterised in that the transport mechanism comprises at least：Transmission Body, sealing mechanism and actuating unit；The transmission body, which runs through, to be arranged in the body of heater；The sealing mechanism is to the biography The material input and material output end for sending body are sealed；The clutch end of the actuating unit and the transmission body Power intake connection.

5. rubbish destructive distillation heating system as claimed in claim 4, it is characterised in that the actuating unit comprises at least：Power Output device, driving wheel, chain and driven pulley；The clutch end of the PTO connects with the active wheel mechanical Connect；The driven pulley is connected with the transmission body；The driving wheel is connected with the driven pulley by the chain.

6. rubbish destructive distillation heating system as claimed in claim 4, it is characterised in that the sealing mechanism comprises at least：Cover plate, Inner sleeve, overcoat, pedestal and the first sealant；The transmission body is through the cover plate and sets in the susceptor；In described It is enclosed on the outside of the transmission body；The overcoat is enclosed on the outside of the inner sleeve；First sealant is arranged on described Transmit body and the cover plate, the inner sleeve, the junction of the pedestal；By the cover plate, the inner sleeve, the overcoat and institute State pedestal composition coolant circulation chamber.

7. rubbish destructive distillation heating system as claimed in claim 6, it is characterised in that the sealing mechanism also comprises at least：Axle Hold, bearing block, locking nut and the second sealant；The bearing is arranged in the bearing block；The transmission body penetrates institute State bearing block；The locking nut locks the bearing block；Second sealant is arranged on the locking nut and described The junction of bearing block.

8. rubbish destructive distillation heating system as claimed in claim 4, it is characterised in that the body of heater comprises at least：Grate and stove Lining；The furnace lining comprises at least：Bottom refractory brick, sidepiece fibre module and top fibers module；The bottom refractory brick is set In the bottom of the grate；The sidepiece fibre module is arranged on the side of the grate；The top fibers module is arranged on The top of the grate；The transmission body is through being arranged on by the bottom refractory brick, the sidepiece fibre module and described In the cavity of top fibers module composition；Direction of transfer of the heating arrangements along the transmission body is uniformly arranged on the bottom In portion's refractory brick, the sidepiece fibre module and the top fibers module.

9. rubbish destructive distillation heating system as claimed in claim 8, it is characterised in that the bottom refractory brick comprises at least：The One layer of refractory brick, second layer refractory brick and third layer diatom brick；The first layer refractory brick, the second layer refractory brick and described Third layer diatom brick is arranged on the bottom of the grate from top to bottom；The second layer described in the mass ratio of the first layer refractory brick is resistance to The quality of firebrick is big；The heating arrangements are arranged on the first layer refractory brick.

10. rubbish destructive distillation heating system as claimed in claim 8, it is characterised in that also comprise at least：Temperature-measuring part；It is described Temperature-measuring part is arranged on the cavity being made up of the bottom refractory brick, the sidepiece fibre module and the top fibers module In.