CN204802650U - Automatic closed high temperature system of slagging tap - Google Patents

Abstract

The utility model discloses an automatic closed high temperature system of slagging tap. This system is including automatic airtight water supply installation and airtight slag discharging device. This system has adopted automatic logic control, can realize unmanned automatic operation, complete sealed design has been adopted in water supply and two major links of slagging tap, production waste residue smooth discharge under complete airtight environment can be made, be applicable to the former sediment of high temperature, because the material with sediment direct contact is exotic material, indirect contact's spare part is owing to carried out cooling treatment in advance, this system can be in normal work under low malleation, little negative pressure, the ordinary pressure environment, because water supply installation has added the linker, physical characteristic to former sediment is not nitpicking, because adopted the double helix in the design, has effectively overcome the problem that single spiral exists. In a word, should the system of slagging tap overcome the common shortcoming of the equipment of slagging tap at present, and can realize that full automation and consumables cost were low, the manufacturing technology can realize consequently should the system of slagging tap having very strong practicality and feasibility completely.

Description

A kind of automatic closing type high temperature slag-tapping system

Technical field

The utility model relates to a kind of automatic closing type high temperature slag-tapping system.

Background technology

Along with the development of science and technology and automation are in the application of mechanical field, the mankind want the higher of changes persuing to mechanical equipment.In modern industry is produced, the industrial solid waste that all raw materials for production produce after processing process all will be discharged through slag-tapping device, so slag-tapping system becomes the important component part that modern industry is produced, but each production facilities all runs under specific working environment, such as temperature, pressure, humidity etc.The slag-tapping device so selected also will be applicable to corresponding working environment, and this just proposes more strict requirement to slag-tapping system.Through the unremitting effort of R&D worker, a series of slag-tapping device is come out one after another, and mainly comprises cold to slag tap and hot slag-tapping device, airtightly slags tap and uncovered slag-tapping device, normal pressure, negative pressure and high pressure slag-tapping device etc., therefore the research and development of slag-tapping device become the development project of an emphasis in machinery industry.

In recent years, people slag tap for high temperature closure formula and also take multiple technologies means, comprise the means such as helixseal, slag sealing, water-stop, also achieve good effect simultaneously.But still there are some problems, or the engineering properties of slag-tapping system to slag itself has fastidious, such as humidity, grain size etc.; Or out of reach satisfactory sealing performance; Or slag-tapping system operating cost is too high etc.A kind of automatic airtight formula high temperature slag-tapping system designed by the utility model can effectively overcome the above problems, not fastidious to the humidity of slag itself, viscosity and grain size, and native system adopts and automatically to control and auxiliary material is water, so operating cost is also low.Therefore this automatic airtight formula high temperature slag-tapping system is well suited for place in operation in modern industry.

Summary of the invention

The purpose of this utility model is to provide a kind of automatic airtight formula high temperature slag-tapping system, and industrial high temperature waste residue can be made automatically to discharge smoothly under complete enclosed environment, to enhance productivity.

The utility model adopts following technical proposals:

A kind of automatic airtight formula high temperature slag-tapping system, comprises automatic airtight water service and closed slag-discharging device.Wherein automatic airtight water service comprises sealer, cold finger, main water service, secondary water service, external water source, two groups of level sensors, two water inlet controllers and water discharge controllers.Wherein the material of sealer, cold finger can reach corresponding toughness and resistant to elevated temperatures material, such as iron, copper, steel etc., and controller is Common Controller, and other parts material used is common material, such as plastics, iron, copper, steel etc.Closed slag-discharging device comprises squeezer, obturator, shell, double helix auger, synchronous connecting device, dreg-storing box, electrical motor and external power supply.The material of closed slag-discharging device can reach corresponding toughness and resistant to elevated temperatures material, such as iron, copper, steel etc.

For automatic airtight water service:

Described sealer is made up of hollow light spherical shell, net and pipe, and the diameter of spherical shell is slightly larger than pipe diameter; Net, for keeping the activity space of spherical shell, makes the effectively closed spherical crown of spherical shell and pipe under shed keep suitable distance; Pipe uses the pipe with the outer tube same size of cold finger, and the upper end of pipe is closed with stewing plate, and sealer is connected with the outer tube of cold finger by transverse pipe.

Described cold finger is made up of inside and outside two-layer pipe, and interior pipe is tracheae, and the interlayer of outer tube and inner layer pipe is as water flow pipeline, and the length of cold finger can control according to the temperature height of slag.

Described main water service comprises sealing radiator, upper top breather pipe, upper jacking water pipe, a pair level sensor, air inlet pipe of going to the bottom, coolant outlet pipe of going to the bottom.Wherein all water pipes and tracheae are common high-temperature resistant tube.The bottom of upper top breather pipe connects with tank top opening, and upper top breather pipe is connected in series with electromagnetic valve A phase by a machinery valve.Upper jacking water pipe connects with tank top, and coolant inlet pipe is connected in series with electromagnetic valve B phase by a machinery valve.For level sensor, a level sensor is connected on water tank bottom to the preceding paragraph suitable distance, and another level sensor is connected on tank top to next section of suitable distance.Air inlet pipe of going to the bottom adopts the structure identical with cold finger with coolant outlet pipe of going to the bottom at this section vertically entering water tank, and nexine pipe leads directly to tank top as tracheae from water tank bottom, and the top of outer coolant outlet pipe connects with water tank bottom opening.The other end of air inlet pipe of going to the bottom is connected with the nexine tracheae in cold finger, and phase connecting leg is connected in series with electromagnetic valve C phase by a machinery valve; Effluent pipe mouth of going to the bottom is connected with the outer tube of cold finger, and the pipeline that is connected has a machinery valve to be connected in series with electromagnetic valve D phase.

Described secondary water service is substantially identical with main water service, difference is: (1) upper top breather pipe has two electromagnetic valves to be connected in series mutually with a machinery valve with upper jacking water pipe respectively, and corresponding electromagnetic valve is labeled as electromagnetic valve A ', electromagnetic valve A " and electromagnetic valve B ', electromagnetic valve B " respectively.(2) for level sensor, the vertical height and position of upper inductor is identical with the upper inductor in main water service, but the position of lower inductor is in the midpoint of two inductor lines of main water service.Other structures are identical with main water service.Corresponding electromagnetic valve in secondary water service is labeled as electromagnetic valve C ' and electromagnetic valve D ' here.

The joining distal ends of the upper jacking water pipe in described major-minor water service is incorporated to main pipeline, is connected in series a machinery valve simultaneously, is then connected with external water source.

Described water inlet controller mode of operation is: when liquid level is just lower than lower inductor, induced signal input control device, then exports control signal by controller, starts electromagnetic valve and makes it open, and open mode remains to when liquid level rises and just touches inductor; Induced signal input control device new subsequently, then export new control signal by controller, Controlling solenoid valve door makes it close, and closed condition to remain to when liquid level declines just lower than lower inductor, goes round and begins again subsequently and repeats this state of a control.

Described water discharge controller mode of operation is: when liquid level is just lower than lower inductor, induced signal input control device, then exports control signal by controller, and Controlling solenoid valve door makes it close, and closed condition remains to when liquid level rises and just touches inductor; Induced signal input control device new subsequently, then export new control signal by controller, starts electromagnetic valve and makes it open, and open mode to remain to when liquid level declines just lower than lower inductor, goes round and begins again subsequently and repeats this state of a control.

Two described water inlet controllers are labeled as respectively into water controller 1 and water inlet controller 2.

Two inductor connection jaws of described water inlet controller 1 connect two level sensors of main water service, and the signal output interface of water inlet controller 1 connects electromagnetic valve A, B of main water service and the electromagnetic valve C ' of secondary water service and D ' respectively.

Two inductor connection jaws of described water discharge controller connect two level sensors of main water service, and the signal output interface of water discharge controller connects electromagnetic valve C, D of main water service and the electromagnetic valve A ' of secondary water service and B ' respectively.

Two inductor connection jaws of described water inlet controller 2 connect two level sensors of secondary water service, the signal output interface connected electromagnetic valve A " and B " respectively of water inlet controller 2.

Needed for described water inlet controller and water discharge controller, external source is 220V source of AC.

Described external water source is that high pressure water tower supplies water or common tap water supply.

Described machinery valve is operationally all often opened.Only has the degree that two machinery valves be connected in series mutually with electromagnetic valve D and D ' can suitably control out according to actual needs, to control water outlet size.

For closed slag-discharging device:

Described double helix auger is industry common double screw auger, and the conter clockwise in double helix auger is connected with from axle drive shaft with the main drive shaft in synchronous connecting device respectively with cw auger.Double helix comprises engagement completely, not exclusively engagement and does not engage three kinds of mesh form completely, selects suitable engagement duplex form according to the situation of slag own.

Described synchronous connecting device is fully enclosed synchronous connecting device, and synchronous connecting device is connected with a horizontal opening of shell.

Its specification of described shell and double helix auger match, another horizontal opening of shell is connected with the one end open of obturator, and at correct position place, the upper end opening of shell, opening shape size is identical with dreg-storing box bottom opening, the upper end open of shell and the lower ending opening weld together of dreg-storing box.

Described closed unit integral finish is identical with the housing outlet of closed double helix auger, and the other end opening of obturator is connected with the import of squeezer again.

Described squeezer is that import is large, goes out young.

Described dreg-storing box surrounding is closed, there are three openings on upper top, an opening closes in advance closed slag-draining device to manually add waste residue, another opening is as slag inlet, directly be connected with production facilities slag-drip opening, the communication port of the 3rd opening and sealer, is connected with the sealer of airtight water service.

Described electrical motor is common three-phase alternating current motor, and the double helix auger under power requirement and normal working matches.

Accompanying drawing explanation

Accompanying drawing 1 is the schematic three dimensional views of automatic closing type high temperature slag-tapping system described in the utility model;

Accompanying drawing 2 is the three-dimensional structure figure of automatic closing type high temperature slag-tapping system described in the utility model;

Accompanying drawing 3 is the parts constructional drawing of automatic airtight water service described in the utility model;

Accompanying drawing 4abcde is the parts constructional drawing of automatic airtight slag-draining device described in the utility model;

Accompanying drawing 5 is the front view of the utility model embodiment automatic airtight water service used;

Accompanying drawing 6 is the partial side view of the utility model embodiment automatic airtight water service used;

Accompanying drawing 7 is the front view of the utility model embodiment automatic airtight water service used sealer;

Accompanying drawing 8ab is the front view of the utility model embodiment closed slag-discharging device used;

Accompanying drawing 9ab is the birds-eye view of the utility model embodiment closed slag-discharging device used;

Accompanying drawing 10 is the lateral plan of the utility model embodiment closed slag-discharging device obturator used.

1. closed slag-discharging devices in Fig. 1,2. automatic airtight water service.

3. sealers in Fig. 2, 4. cold finger, 5. the coolant outlet pipe of going to the bottom of main water service, 6. the air inlet pipe of going to the bottom of main water service, 7. lower discharging tube and lower inlet duct multiple unit tube, 8. main lower level sensor, 9. Your Majesty's level sensor, 10. main water box, the upper top breather pipe of 11. main water services, the upper jacking water pipe of 12. main water services, the upper top breather pipe of 13. secondary water services, 14. secondary water tanks, 15. secondary upper level sensors, 16. secondary lower level sensors, the upper jacking water pipe of 17. secondary water services, the coolant outlet pipe of going to the bottom of 18. secondary water services, the air inlet pipe of going to the bottom of 19. secondary water services, 20. outside tap water interfaces, 21. external high pressure water towers, 22. water inlet controllers, 23. water inlet controllers, 24. water discharge controllers, 25. squeezers, 26. obturators, 27. shells, 28. dreg-storing box, 29. double helix synchronization links devices, 30. electrical motors.

31. electromagnetic valve A in Fig. 3, 32. Your Majestys push up breather pipe machinery valve, 33. go to the bottom air inlet pipe, 34. electromagnetic valve A ", 35. electromagnetic valve A ', 36. secondary upper top breather pipe machinery valves, 37. electromagnetic valve D, 38. electromagnetic valve C, 39. main coolant outlet pipe machinery valves of going to the bottom, 40. main air inlet pipe machinery valves of going to the bottom, 41. Your Majesty's jacking water pipe machinery valves, 42. electromagnetic valve D ', 43. pairs are gone to the bottom coolant outlet pipe machinery valve, 44. electromagnetic valve B, 45. pairs are gone to the bottom air inlet pipe machinery valve, 46. electromagnetic valve C ', 47. electromagnetic valve B ', 48. secondary upper jacking water pipe machinery valves, 49. electromagnetic valve B ", 50. spherical shells, 51. nets, 52. sealing organ pipes, the outer water pipe of 53. condensers, 54. condenser internal layer tracheaes.

Scheming a in Fig. 4 abcde is 25. squeezers, and figure b is 26. obturators, and figure c is 27. shells, and figure d is 28. dreg-storing box, and figure e is 29 double helix synchronous connecting devices; 55. squeezer imports, 56. squeezer outlets, 57. obturator integral finish, 58. shell horizontal openings, 59. shell upper sheds, 60. close slag inlet in advance, 61. slag inlets, 62. with the communication port of airtight water service sealer, 63. conter clockwise augers, 64. cw augers, 65. main drive shafts, 66. from axle drive shaft, the bearing of 67. additional sealing arrangements, 68. are synchronously engaged gear, 69. belt pulleys, 70. driving bands.

Remove at the bottom of the tank wall of 14. secondary water tanks and case in Fig. 5.Scheme the front view that a is 1. closed slag-discharging devices in Fig. 8 ab, figure b is the front view of 29. double helix synchronous connecting devices.Scheme the birds-eye view that a is 1. closed slag-discharging devices in Fig. 9 ab, figure b is the birds-eye view of 29. double helix synchronous connecting devices.

Detailed description of the invention

Automatic airtight formula high temperature slag-tapping system comprises airtight deslagging device 1 and automatic airtight water service 2 in FIG.

Sealer 3 in fig. 2, cold finger 4, the coolant outlet pipe 5 of going to the bottom of main water service, the air inlet pipe 6 of going to the bottom of main water service, lower discharging tube and lower inlet duct multiple unit tube 7, main lower level sensor 8, Your Majesty's level sensor 9, main water box 10, the upper top breather pipe 11 of main water service, the upper jacking water pipe 12 of main water service, the upper top breather pipe 13 of secondary water service, secondary water tank 14, level sensor 15 in pair, secondary lower level sensor 16, the upper jacking water pipe 17 of secondary water service, the coolant outlet pipe 18 of going to the bottom of secondary water service, the air inlet pipe 19 of going to the bottom of secondary water service, water inlet controller 22, water inlet controller 23, water discharge controller 24 is the major part of automatic airtight water service 2, outside tap water interface 20, external high pressure water tower 21 is the accessory of automatic airtight water service 2, squeezer 25, obturator 26, shell 27, dreg-storing box 28, double helix synchronous connecting device 29, electrical motor 30 are the main composition parts of airtight deslagging device 1.

As shown in Figure 2 and Figure 3.Sealer 3 is made up of hollow light spherical shell 50, net 51 and pipe 52, and the diameter of spherical shell 51 is slightly larger than pipe 52 diameter; Net 51, for keeping the activity space of spherical shell 50, makes the effectively closed spherical crown of spherical shell 50 and pipe 52 under shed keep suitable distance; The seamless tube of the use of pipe 51 and outer tube 53 same size of cold finger 4, the upper end open place welded flange of pipe 52, closes with stewing plate, is connected with the outer tube 53 of cold finger 4 by the intermediate lateral pipe of pipe 52 with flange.

Cold finger 4 is made up of inside and outside two-layer pipe, and interior pipe 54 is gas flow duct, and the intermediate course of outer tube 53 and inner layer pipe 54 is as the flow duct of water, and the length of cold finger 4 can control according to the temperature height of slag.

Main water service comprises sealing radiator 10, upper top breather pipe 11, upper jacking water pipe 12, lower level sensor 8, upper level sensor 9, air inlet pipe 6 of going to the bottom, coolant outlet pipe 5 of going to the bottom.Wherein all water pipes and tracheae are common seamless tube.The bottom of upper top breather pipe 11 is welded mutually with water tank 10 open top, and the mechanical valve 32 of upper top breather pipe 11 is connected in series with electromagnetic valve A31 phase.Upper jacking water pipe 12 welds mutually with water tank 10 top, and upper jacking water pipe 12 is connected in series with electromagnetic valve B44 phase by mechanical valve 41.For level sensor, inductor 8 is welded on water tank bottom to the preceding paragraph suitable distance, and inductor 9 is welded on tank top to next section of suitable distance.The air inlet pipe 6 of going to the bottom adopts and the multiple unit tube 7 of cold finger 4 same configuration at the segment distance that water tank 10 vertically enters water tank with coolant outlet pipe 5 of going to the bottom, nexine pipe leads directly to water tank 10 top from water tank bottom as tracheae 33, and the top of coolant outlet pipe 5 of going to the bottom is welded mutually with water tank 10 bottom opening.Air inlet pipe 6 of going to the bottom is connected with the nexine tracheae 54 in cold finger 4, and the pipeline 6 that is connected is connected in series with electromagnetic valve C38 phase by mechanical valve 40; Coolant outlet pipe 5 of going to the bottom is connected with the outer tube 53 of cold finger 4, and the pipeline 5 that is connected is connected in series with electromagnetic valve D37 phase by mechanical valve 39.

Secondary water service is substantially identical with main water service, difference is: (1) upper top breather pipe 13 is by electromagnetic valve A " 34, electromagnetic valve A ' 35 and mechanical valve 36 be connected in series successively, upper jacking water pipe 17 is by electromagnetic valve B " 49, electromagnetic valve B ' 47 and mechanical valve 48 are connected in series successively.(2) for inductor, vertically height and position is identical with the upper inductor 9 in main water service for upper inductor 15, but the upper inductor 9 of the position of lower inductor 16 at main water service and the midpoint of the vertical line of lower inductor 8.Other are identical with main water service.

The end of the upper jacking water pipe in major-minor water service welds mutually and is incorporated to main water pipeline, is connected in series a mechanical valve simultaneously, is then connected with external water source.External water source is that high pressure water tower 21 supplies water or common tap water 20 supplies water.Mechanical valve is operationally all often opened.Only has the degree that the mechanical valve 39 be connected in series mutually with electromagnetic valve D37 and D ' 42 can suitably control out according to actual needs with mechanical valve 43, to control water outlet size.

Two inductor connection jaws of water inlet controller 22 connect inductor 8 and the inductor 9 of main water service, and the signal output interface of water inlet controller 22 connects electromagnetic valve A31, the electromagnetic valve B44 of main water service and the electromagnetic valve C ' 46 of secondary water service and electromagnetic valve D ' 42 respectively.Two inductor connection jaws of water discharge controller 24 also connect inductor 8 and the inductor 9 of main water service, and the signal output interface of water discharge controller 24 connects electromagnetic valve A ' 36 and the B ' 47 of the electromagnetic valve C38 of main water service, electromagnetic valve D37 and secondary water service respectively.Two inductor connection jaws of water inlet controller 23 connect inductor 16 and the inductor 15 of secondary water service, and the signal output interface of water inlet controller 23 is connected electromagnetic valve A " 34 and B " 49 respectively.External source needed for controller and water discharge controller of intaking is 220V source of AC.

As shown in Fig. 2, Fig. 4 abcde.Squeezer 25 is that import is large, and go out young, material is steel plate.Closed unit 26 integral finish exports identical with the shell 27 of sealing double helix auger 63,64, uses and forms with the seamless tube welding processing of shell 27 same size.Specification and the double helix auger 63,64 of shell 27 match, and at the upper end correct position opening of shell 27, opening is identical with dreg-storing box 28 bottom opening.Double helix auger 63,64 is industry common double screw auger.Dreg-storing box 27 adopts GB Plate Welding to process, the surrounding of dreg-storing box 27 is closed, there are three openings on upper top, an opening 60 closes in advance closed slag-draining device to manually add waste residue, another opening is as slag inlet 61, directly be connected with production facilities slag-drip opening, the 3rd opening 62 is connected with the sealer 3 of airtight water service.Electrical motor 30 is common three-phase alternating current motor, and power requirement matches with the double helix auger 63,64 under normal working.Synchronous connecting device 29 is fully enclosed synchronous connecting device, comprising: main drive shaft 65, from axle drive shaft 66, the bearing 67 adding sealing arrangement, synchronous occlusion gear 68 and belt pulley 69.

As shown in Fig. 5, Fig. 6, Fig. 7, the thin metal pipe used is the solid drawn pipe of Φ 57, and crude metal pipe is the solid drawn pipe of Φ 108.Major-minor water tank all adopts cylinder of steel, and the spherical shell of closed unit adopts light-weight metal spherical shell, and net adopts crude steel bar to be welded.Machinery valve, electromagnetic valve, level sensor, water inlet controller, water discharge controller are commonplace components.

As shown in Fig. 8 ab, Fig. 9 ab, Figure 10, the high temperature material used is steel pipe and steel plate.The common three-phase alternating current motor power selected in the present embodiment is 15KW, and double helix auger adopts half mesh form, and belt pulley uses the E type belt pulley that nominal diameter is 630mm.Whole closed slag-discharging device uses GB steel plate and solid drawn pipe processing to be welded.

Automatic airtight water service principle of work as shown in Figure 2 and Figure 3:

The principle of work of logic control system:

When the liquid level of water tank 10 in main water service just touched upper inductor 9 and liquid level between two inductors 8,9 time.Electromagnetic valve A31, the electromagnetic valve B44 of main water service keep closed condition, and electromagnetic valve C38, electromagnetic valve D37 are in opening; Electromagnetic valve C ' 46, the electromagnetic valve D ' 42 of secondary water service keep closed condition, and electromagnetic valve A ' 35 and electromagnetic valve B ' 47 is in opening.In this case, supplied water by main water service, secondary water service does not supply water, and does not now add water to main water box 10.

When water tank 10 in main water service liquid level just lower than during lower inductor 8 and liquid level to be risen to by lower inductor 8 and be about to touch in upper inductor 9 process.Electromagnetic valve A31, the electromagnetic valve B44 of main water service are in open mode, and electromagnetic valve C38, electromagnetic valve D37 keep closed condition; Electromagnetic valve C ' 46, the electromagnetic valve D ' 42 of secondary water service are in open mode, and electromagnetic valve A ' 35 and electromagnetic valve B ' 47 keeps closed condition.Now, supplied water by secondary water service, main water service does not supply water, and now adds water to main water box 10, and the air pressure in main water box 10 is normal pressure.

Go round and begin again subsequently and repeat this state.

Whether water analysis is added in secondary supply tank 14:

(1) if add water, " 49 all will be in open mode to the electromagnetic valve B ' 47 that so on it, jacking water pipe 17 phase is connected in series and electromagnetic valve B simultaneously.When electromagnetic valve B ' 47 opens, as known from the above: electromagnetic valve A31, electromagnetic valve B44 keep closed condition, electromagnetic valve C38, electromagnetic valve D37 are in opening, and electromagnetic valve C ' 46, electromagnetic valve D ' 42 keep closed condition, and electromagnetic valve A ' 35 is in opening.34 are also in open mode to electromagnetic valve B while opening " 49, electromagnetic valve A ", now require that the liquid level of water tank 14 in secondary water service is in just lower than during lower inductor 16 or liquid level to rise to the state being about to touch upper inductor 15 by lower inductor 16 under.Obviously, when these conditions meet simultaneously, main water service supplies water, and secondary water service does not supply water, and the air pressure in secondary water tank 14 is normal pressure.

(2) state when adding water for situation about not adding water obviously, has been got rid of just.To sum up analyze, under the water tank 10 ensureing when main water service is in and adds water state, and secondary water service can also continuously supply water, the design adopts the aviation value of the vertical height of the vertical height of the lower inductor 16 of secondary water service and the upper inductor 9 in main water service, lower inductor 8 identical, as long as meet 2 times that the flow adding water in main water box 10 is not less than outside water supply flow in secondary water service.To ensure when water tank 14 liquid level in secondary water service is lower than its lower inductive rod 16, can also normal water supply.

Analysis to air pressure in major-minor supply tank:

(1) as known from the above, adding in the process of water in major-minor supply tank 10,14, water tank 10,14 pushing up breather pipe 11,13 is all be in aeration status, so water tank 10,14 internal gas pressure is all normal pressure.

(2) when in major-minor water service, any one device is in service position, because the design have employed the principle of permeator, and major-minor is gone to the bottom, tracheae 6,19 and major-minor water pipe 5,18 of going to the bottom finally leads to sealer 3 through cold finger 4 in a pipe 52, flowed in dreg-storing box 28 by sealer 3 again, so the air pressure now in operating water tank is identical with the air pressure in dreg-storing box 28.

The principle of work of cold finger 4:

In the design, cold finger 4 is made up of inside and outside two-layer pipe, and interior pipe is tracheae 54, and the interlayer of outer tube 53 and inner layer pipe 54 is as water flow pipeline, and the length of cold finger 4 can control according to the temperature height of slag.When slag former in high temperature, the High Temperature Gas cognition that dreg-storing box is 28 li enters cold finger 4 by sealer 3, in cold finger 4 water cooling under cooled, cooled Primordial Qi has part and is liquefied, the liquid be liquefied can turn back in dreg-storing box 28 along the tracheae 54 in cold finger 4, remaining after cooled gas enters operating water tank to make water tank inside heat, to guarantee inductor in water supply system and electromagnetic valve not by temperatures involved.

The principle of work of sealer 3 in automatic airtight water service:

(1) one-level is closed: in the design water service go to the bottom tracheae 6,19 with go to the bottom water pipe 5,18 first after cold finger 4 together be incorporated to the pipe 52 of sealer 3, when liquid level in dreg-storing box 28 rises, because spherical shell 50 is subject to the squeese pressure of buoyancy or body refuse, and make spherical shell 50 increase, so that spherical crown sealed tube 52 end opening of spherical shell 50, now permeator loses effect.If now continue to supply water, the air pressure so in water service in water tank is negative pressure relative to dreg-storing box, so can not there are flowing out, thus reaches the closed object of one-level.In addition, spherical shell 50 can also stop the body refuse blocking mouth of pipe in dreg-storing box.

(2) secondary seal: after one-level sealing effect is not obvious or in dreg-storing box, body refuse continues to increase, because the air pressure in operating water tank is identical with the air pressure in dreg-storing box 28 all the time, so when liquid level or body refuse flood pipe 52 end opening, permeator loses effect, if now continue to supply water, air pressure so in operating water tank is negative pressure relative to dreg-storing box 28, so would not there are flowing out in pipe 52, reaches the object of secondary seal.

The principle of work of closed slag-discharging device as shown in Fig. 2, Fig. 4 abcde:

(1) when using airtight water supply system.The slag-drip opening of the equipment of industrial product is connected with the slag inlet 61 of dreg-storing box 28, to close in advance sealed deslagging device before production facilities runs, appropriate lime-ash is added by filling out cinder notch 60 to the preparation at dreg-storing box 28 top, now lime-ash and water are mixed to form body refuse, body refuse is by synchronous double helix auger 63, 64 rotate being forced property outwards promotes, when body refuse is pushed to after squeezer 25 through obturator 26, due to squeezer 25, to be designed to import large outlet little, so inner body refuse is squeezed, relatively closely knit body refuse briquet can be formed in inside, and then reach the effect of sealing.The design exports the ratio with inlet-duct area by regulating squeezer 25, controls the compaction rate of inner moulded pottery not yet put in a kiln to bake; By regulating the length of obturator 26, control the effective length of inner moulded pottery not yet put in a kiln to bake.So seal degree is determined jointly by both, both effectively combine, and can reach excellent sealing effect.After production facilities starts deslagging, whole process is identical with pre-sealed process.Can find out, at whole production deslagging in discharge moulded pottery not yet put in a kiln to bake process, system is all closed, and intracavity gas can not be discharged.

Because double helix relies on power of enforcement to force internal objects outwards to promote, so be very applicable to viscous mass, powder and particulate matter; Simple helix relies on friction force to promote, so inapplicable to viscous mass, powder.So the design adopts double-spiral structure.

Regulate the height of sealer 3 in dreg-storing box 28 of water supply system, the electrolyte level in dreg-storing box 28 can be controlled; Regulate the major-minor of water service to go to the bottom water pipe machinery valve, can water supply flow be controlled, so both coordinations are got up, the body refuse briquet of proper moisture can be obtained.

(2) when closing airtight water supply system.According to different demands, some situation is to obtain former slag, does not carry out adding water treatment.Closed slag-discharging device now still can normally work, specific works principle with add water state under much the same, now need to close major-minor in water supply system go to the bottom water pipe machinery valve or close whole water supply system.By regulating squeezer outlet and the ratio of inlet-duct area, the length of obturator 26 can be regulated, reaches optimal seal effect too simultaneously.Thus the clinker of certain degree of firmness can be obtained.

Working process of the present utility model is:

1. select one in two machinery valves of tap water interface and high pressure water tower interface to open, another keeps closing; Open other machinery valve of slag-tapping system successively simultaneously.

2. open the source switch of electrical motor 30, water inlet controller 22, water inlet controller 23, water discharge controller 24 successively, to guarantee having water to flow in dreg-storing box 28.

3. open the pre-of dreg-storing box 28 top and close slag inlet 60, in dreg-storing box 28, add appropriate ashes so that discharge a small amount of moulded pottery not yet put in a kiln to bake in squeezer 25 exit, then close and close slag inlet 60 in advance.

4. start production facilities, allow its waste residue be well on deslagging by automatic airtight formula high temperature slag-tapping system.

5. produce and terminate.PTO Power Take Off, closes outside water supply interface machinery valve.

Embodiment 1:

Sandy soil under normal temperature, as former slag, adopt uncovered slagging tap, to ensure that this automatic closing type high temperature slag-tapping system is in normal temperature and pressure lower dreg discharging.Working process is as follows:

1. open tap water interface machinery valve, make the machinery valve of high pressure water tower interface keep closed condition; Open other machinery valve of slag-tapping system successively simultaneously.

2. open the source switch of electrical motor 30, water inlet controller 22, water inlet controller 23, water discharge controller 24 successively, to guarantee having water to flow in dreg-storing box 28.

3. open the pre-of dreg-storing box 28 top and close slag inlet 60, in dreg-storing box 28, add appropriate sandy soil so that discharge a small amount of moulded pottery not yet put in a kiln to bake in squeezer 25 exit, then close and close slag inlet 60 in advance, then open slag inlet 61.

4. after waiting for 20 minutes, in dreg-storing box 28, add sandy soil by slag inlet 61 continuously, add sandy soil and continue 60 minutes.

5. experiment terminates.PTO Power Take Off, closes tap water interface machinery valve.

In this implementation process, export discharged silt briquet smoothly from squeezer 25, automatic airtight water service 2 achieves to supply water and automatically controls and automatic-sealed, reaches expection object.

Embodiment 2:

Allow this automatic closing type high temperature slag-tapping system mate with continous way cracking apparatus use.Slag inlet 62 and the main stove slag eye of cracking apparatus are passed through Flange joint.The raw material of cracking uses agricultural crop straw, so industrial former slag be exactly stalk cleaved after thick carbon dust, former slag temperature is 300 DEG C, and air pressure is normal pressure.Working process is as follows:

1. open high pressure water tower interface machinery valve, make the machinery valve at tap water interface place keep closed condition; Open other machinery valve of slag-tapping system successively simultaneously.

2. open the source switch of electrical motor 30, water inlet controller 22, water inlet controller 23, water discharge controller 24 successively, to guarantee having water to flow in dreg-storing box 28.

3. open the pre-of dreg-storing box 28 top and close slag inlet 60, in dreg-storing box 28, add appropriate carbon dust so that discharge a small amount of moulded pottery not yet put in a kiln to bake in squeezer 25 exit, then close and close slag inlet 60 in advance.

4. start production facilities, allow its waste residue be well on deslagging by automatic closing type high temperature slag-tapping system.

5. experiment terminates.Close all power supplys, close outside water supply interface machinery valve.

In this implementation process, export the silt briquet of having discharged smoothly and having left Yu Wen from squeezer 25, automatic airtight water service 2 achieves to supply water and automatically controls and automatic-sealed, and operating water tank does not obviously heat up, cold finger 4 achieves cooling performance, reaches expection object.

Embodiment 3:

Identical with embodiment 2 production facilities used, the raw material of cracking transposition scrap rubber fragment, so industrial former slag be exactly rubber cleaved after thick carbon dust, former slag temperature is 400 DEG C, and air pressure is pressure-fired.Working process is as follows:

1. open high pressure water tower interface machinery valve, make the machinery valve at tap water interface place keep closed condition; Open other machinery valve of slag-tapping system successively simultaneously.

2. open the source switch of electrical motor 30, water inlet controller 22, water inlet controller 23, water discharge controller 24 successively, to guarantee having water to flow in dreg-storing box 28.

3. open the pre-of dreg-storing box 28 top and close slag inlet 60, in dreg-storing box 28, add appropriate carbon dust so that discharge a small amount of moulded pottery not yet put in a kiln to bake in squeezer 25 exit, then close and close slag inlet 60 in advance.

4. start production facilities, allow its waste residue be well on deslagging by automatic closing type high temperature slag-tapping system.

5. experiment terminates.Close all power supplys, close outside water supply interface machinery valve.

In this implementation process, export the silt briquet of having discharged smoothly and having left Yu Wen from squeezer 25, automatic airtight water service 2 achieves to supply water and automatically controls and automatic-sealed, and operating water tank does not obviously heat up, cold finger 4 achieves cooling performance, reaches expection object.

Good effect of the present utility model is: form a complete automatic airtight formula high temperature slag-tapping system by automatic airtight water service and airtight deslagging device conbined usage.This slag-tapping system have employed self-styled and automatic logic control, can realize unmanned automatic operation; This system all have employed complete Seal Design in water supply and two large links of slagging tap, so production waste residue can be made to discharge smoothly under complete closed environment, sealing effect is fine.This system is applicable to the former slag of high temperature, because be high temperature material with the material that slag directly contacts, the parts of indirect contact, owing to having carried out cooling processing in advance, normally work so do not affect it.This slag-tapping system can make former slag discharge smoothly under low malleation, lower negative pressure, atmospheric pressure environment, because water service with the addition of permeator, and the initial gas pressure in water tank is normal pressure.Not fastidious to the physical property of former slag, because have employed double helix auger in design, effectively overcome simple helix Problems existing.In sum, this slag-tapping system effectively overcomes the drawbacks common of slag-tapping device in the market, can realize automation and consumptive material is the conventional raw material in industry, manufacturing technology in industry can realize under existing condition completely, and therefore this slag-tapping system has very strong practicality and feasibility.

Claims (5)

1. an automatic closing type high temperature slag-tapping system, it is characterized in that: comprise automatic airtight water service and closed slag-discharging device, wherein automatic airtight water service comprises sealer again, cold finger, main water service, secondary water service, external water source, two groups of level sensors, two water inlet controllers and a water discharge controller, external water source water supply pipe is connected with the end of the upper jacking water pipe of two in major-minor water service after being connected in series a machinery valve respectively, two of major-minor water service coolant outlet pipe and two air inlet pipe of going to the bottom of going to the bottom connects with the outer water pipe of cold finger and internal layer tracheae respectively, the outer water pipe other end of cold finger is connected by flange with the transverse pipe of sealer, wherein closed slag-discharging device comprises again squeezer, obturator, shell, double helix auger, synchronous connecting device, dreg-storing box, electrical motor and external power supply, conter clockwise in double helix auger is connected with from axle drive shaft with the main drive shaft in synchronous connecting device respectively with cw auger, synchronous connecting device is connected with a horizontal opening of shell, another horizontal opening of shell is connected with the one end open of obturator, the other end opening of obturator is connected with the import of squeezer again, then the upper end open of shell and the lower ending opening weld together of dreg-storing box, finally, in dreg-storing box, the communication port of sealer is connected with sealer, and automatic airtight water service and closed slag-discharging device are connected into an entirety, just constitutes automatic closing type high temperature slag-tapping system.

2. automatic closing type high temperature slag-tapping system according to claim 1, is characterized in that: described sealer is made up of lightweight spherical shell, net and pipe, and the diameter of spherical shell is slightly larger than pipe diameter, and net is for keeping the activity space of spherical shell.

3. automatic closing type high temperature slag-tapping system according to claim 1, it is characterized in that: described main water service, the bottom of upper top breather pipe connects with tank top opening, and upper top breather pipe is connected in series with electromagnetic valve mutually by a machinery valve; Upper jacking water pipe connects with tank top, and coolant inlet pipe is connected in series with electromagnetic valve mutually by a machinery valve; For water level sensor, an inductor is connected on water tank bottom, and another inductor is connected on tank top; Air inlet pipe of going to the bottom adopts the structure identical with cold finger with coolant outlet pipe of going to the bottom at this section vertically entering water tank, and nexine pipe leads directly to tank top as tracheae from water tank bottom, and the top of outer coolant outlet pipe connects with water tank bottom opening; The other end of horizontal air inlet pipe of going to the bottom is connected with the nexine tracheae in cold finger, and connection pipe is connected in series with electromagnetic valve mutually by a machinery valve; Water outlet of going to the bottom is connected with the outer tube of cold finger, and connection pipe has a machinery valve to be connected in series mutually with electromagnetic valve.

4. automatic closing type high temperature slag-tapping system according to claim 1, it is characterized in that: described secondary water service is substantially identical with main water service, and difference is: (1) upper top breather pipe has two electromagnetic valves to be connected in series mutually with a machinery valve with upper jacking water pipe respectively; (2) for level sensor, the vertical height and position of inductor is above identical with the upper inductor in main water service, but the position of lower inductor is in the midpoint of two inductor lines of main water service.

5. automatic closing type high temperature slag-tapping system according to claim 1, is characterized in that: described squeezer be import large, go out young, and import is identical with closed unit integral finish; Closed unit integral finish is identical with the housing outlet of closed double helix auger; Its specification of shell and double helix auger match, and at the upper end opening of shell, opening shape size is identical with dreg-storing box bottom opening; The surrounding of dreg-storing box is closed, there are three openings on upper top, and an opening closes in advance closed slag-draining device to manually add waste residue, and another opening is as slag inlet, directly be connected with production facilities slag-drip opening, the 3rd opening is connected with the sealer of airtight water service.