CN204962781U - Dial material air -dryization mud and go into stove conveying equipment - Google Patents

Abstract

The utility model discloses a dial material air -dryization mud and go into stove conveying equipment belongs to mud and goes into the stove and carry technical field, and mud can not form mud and put up a bridge in the pipeline of going into stove conveyor, and mud can not block up the pipeline intos stove conveyor, and the smooth transport of mud ability in the mud storehouse is to fire burning furnace in. The utility model discloses compress tightly mud earlier and obtain compressing tightly for one number the mud piece, then cut down and cut the mud piece from compressing tightly the mud piece for one number, obtain compressing tightly for two numbers the mud piece after the mud piece compresses tightly to cutting again, deliver and fire burning furnace compressing tightly the mud piece for two numbers jointly through high -pressure thrust atmospheric pressure and an enclosure protection air current section of thick bamboo at last. Mud can not form mud and put up a bridge in the pipeline of going into stove conveyor, mud can not block up the pipeline intos stove conveyor, and the smooth transport of mud ability in the mud storehouse is to fire burning furnace in.

Description

Material toggling wind dried sludge into boiler conveying equipment

Technical field

The utility model relates to mud and enters stove conveying technology field, is specifically related to a kind of material toggling wind dried sludge into boiler conveying equipment.

Background technology

In existing sludge incineration technology, mud all enters stove transfer pipeline by mud and is transported to combustion furnace.Owing to generally all containing moisture content in mud, the mud containing moisture easily enters in stove transfer pipeline to be formed at mud puts up a bridge.So existing mud enters the clogging that stove transfer pipeline exists sludge concentration bridging, the mud in sludge bin is caused not to be transported in combustion furnace smoothly.

The utility model enters to solve existing mud the clogging that stove transfer pipeline exists sludge concentration bridging, cause the mud in sludge bin can not be transported to deficiency in combustion furnace smoothly, there is provided a kind of mud can not enter in the pipeline of stove conveying device to form sludge concentration bridging at mud, mud can not block the pipeline that mud enters stove conveying device, sludge bulking is transported to the material toggling wind dried sludge into boiler conveying equipment in combustion furnace after first allowing the mud in sludge bin form sludge bulking again.

Above technical problem is solved by following technical proposal:

Material toggling wind dried sludge into boiler conveying equipment, comprises controller and the pipe being provided with magnetic valve, also comprises No. two pipes, No. three pipes, No. four pipes, No. five pipes, No. six pipes, No. seven pipes and No. eight pipes; The left end of the lower end of a pipe, the right-hand member of No. two pipes and No. three pipes is interconnected respectively and links together, the upper end of the right-hand member of No. three pipes, the lower end of No. four pipes and No. five pipes is interconnected respectively and links together, and the lower end of No. five pipes, the right-hand member of No. six pipes, the upper end of No. seven pipes and the left end of No. eight pipes are interconnected respectively and link together; The tube core line of described No. two pipes and the tube core line of No. three pipes drop on same horizontal linear A; The tube core line of the tube core line of described No. four pipes, the tube core line of No. five pipes and No. seven pipes all drops on the vertical straight line B of same; The tube core line of described No. six pipes and the tube core line of No. eight pipes drop on same horizontal linear C; Be provided with a cylinder at the left end of No. two pipes, in No. two pipes, airtight slip is provided with the piston be connected with the expansion link of a cylinder; Be provided with No. two cylinders in the upper end of No. four pipes, in No. four pipes, airtight slip is provided with No. two pistons be connected with the expansion link of No. two cylinders; Be provided with No. three cylinders in the lower end of No. seven pipes, in No. seven pipes, airtight slip is provided with No. three pistons be connected with the expansion link of No. three cylinders; The air pressure thrust dropping feeder that high pressure thrust air pressure can be provided in No. six pipes is provided with at the left end of No. six pipes; The control end of the control end of described magnetic valve, the control end of a cylinder, the control end of No. two cylinders, the control end of No. three cylinders and air pressure thrust dropping feeder is electrically connected with controller respectively.

This programme first carries out compression to mud and obtains a compression sludge bulking; then cut down from a compression sludge bulking and cut sludge bulking; obtaining No. two compression sludge bulkings to cutting after sludge bulking compresses again, jointly compressing sludge bulkings No. two finally by high pressure thrust air pressure and enclosure wall shielding gas flow cylinder and being shipped in combustion furnace.This programme mud can not enter in the pipeline of stove conveying device to form sludge concentration bridging at mud, and mud can not block the pipeline that mud enters stove conveying device.By first allow the mud in sludge bin formed No. two compress sludge bulkings after the mud again No. two compressed in the sludge bin that sludge bulkings are transported in combustion furnace can be transported in combustion furnace smoothly.

As preferably, the upper surface of No. eight pipes is provided with support bar upward, support bar is provided with the rotating mechanism up and down that can rotate up and down, upper and lower rotating mechanism is provided with shoot down that puff prot arranges towards lower right shoot down jet thrust, described shoot down jet thrust shoot down the semicircle arcuation of puff prot in bending downwards, described in shoot down the vertical center line of the vertical center line of puff prot and the right output port of No. eight pipes in same vertical plane; The air-out hose of No. two air pumps is connected with the described jet thrust that shoots down; The control end of described upper and lower rotating mechanism and the control end of No. two air pumps are electrically connected with controller respectively.Shoot down jet thrust and shoot down air-flow towards lower right blowout, shoot down air-flow and enclosure wall shielding gas flow cylinder intersects, force No. two compression sludge bulkings entered in combustion furnace to drop to as early as possible in combustion furnace.Shoot down air-flow can intermittence eject, can compress after sludge bulking arrives the stove charging hole of combustion furnace and these No. two compression sludge bulkings can be shot down in combustion furnace at No. two as long as shoot down air-flow.Compress sludge bulkings at No. two and to put in the process of combustion furnace some mud fragments that can come off from it from H.Shoot down air-flow and ensure that mud fragment also can fall into combustion furnace in time, avoid mud fragment and be splashed to outside combustion furnace.

As preferably, without blade fan before the right output port dead ahead of described No. eight pipes is provided with, control end without blade fan before described is electrically connected with controller, arrange towards the right output port of described No. eight pipes without the introducing air-flow air intake nose end of blade fan before described, before described, be greater than the outer tube diameter of described No. eight pipes without the inner ring diameter of the air holes circle of blade fan.

The front fan airstream without blade fan generation enhances the wind model ability of right output port to the input fed distance of combustion furnace of No. eight pipes, can compress sludge bulking by larger for weight No. two puts in combustion furnace, if and without blade fan arrange several in the space between the right output port and the stove charging hole of combustion furnace of No. eight pipes before, can not only greatly improve wind model ability, but also make the equipment on No. eight pipes and No. eight pipes away from the combustion furnace of high temperature, effect of heat insulation is better, and the service life of equipment be arranged on No. eight pipes is longer.

The utility model can reach following effect:

Material toggling wind dried sludge into boiler conveying equipment of the present utility model and enter stove conveyance control method; first compression is carried out to mud and obtain a compression sludge bulking; then cut down from a compression sludge bulking and cut sludge bulking; obtaining No. two compression sludge bulkings to cutting after sludge bulking compresses again, jointly compressing sludge bulkings No. two finally by high pressure thrust air pressure and enclosure wall shielding gas flow cylinder and being shipped in combustion furnace.The utility model makes mud can not enter in the pipeline of stove conveying device to form sludge concentration bridging at mud, and mud can not block the pipeline that mud enters stove conveying device, and the mud in sludge bin can be transported in combustion furnace smoothly.

Accompanying drawing explanation

Fig. 1 is a kind of syndeton schematic diagram of the utility model embodiment.

Fig. 2 is a kind of circuit theory syndeton schematic block diagram of the utility model embodiment.

Fig. 3 is a kind of using state syndeton schematic diagram that the utility model embodiment mud enters in No. two pipes.

Fig. 4 is a kind of using state syndeton schematic diagram that the utility model embodiment piston press goes out that compresses a sludge bulking.

Fig. 5 is that the utility model embodiment cuts out with No. two pistons and cuts after after sludge bulking, is obtaining a kind of using state syndeton schematic diagram that No. two compress sludge bulkings with the lower end of No. two pistons and the upper end of No. three pistons in the tube chamber of No. five pipes to cutting after sludge bulking compresses.

Fig. 6 is that the utility model embodiment compresses No. two a kind of using state syndeton schematic diagram that sludge bulking is pushed into the right output port H place of No. six pipes.

Fig. 7 is that the utility model embodiment upper cutter allows No. two compression sludge bulkings be separated with No. two pistons and a kind of using state syndeton schematic diagram allowing No. two to compress sludge bulking and be separated with No. three pistons with lower cutter under the effect of lower cylinder under the effect of upper cylinder.

Fig. 8 is a kind of using state syndeton schematic diagram that the utility model embodiment compresses that by No. two sludge bulking puts into the M place in combustion furnace from H.

Fig. 9 is that the one that the utility model embodiment shoots down puff prot faces syndeton schematic diagram.

Figure 10 is a kind of partial enlargement syndeton schematic diagram at 48 places in Fig. 1.

Detailed description of the invention

Below in conjunction with accompanying drawing and embodiment, the utility model is further described.

Embodiment, material toggling wind dried sludge into boiler conveying equipment, shown in Fig. 1, Fig. 2, Fig. 9, Figure 10, comprise controller (46) and be provided with a pipe (1) of magnetic valve (16), also comprise No. two pipes (2), No. three pipes (19), No. four pipes (18), No. five pipes (7), No. six pipes (9), No. seven pipes (10) and No. eight pipes (22); And the cross section tube chamber mouth of the cross section tube chamber mouth of the cross section tube chamber mouth of the cross section tube chamber mouth of the cross section tube chamber mouth of the cross section tube chamber mouth of the cross section tube chamber mouth of No. two pipes, No. three pipes, No. four pipes, No. five pipes, No. six pipes, No. seven pipes and No. eight pipes is all respectively rectangular tube accent, wherein, the cross section tube chamber mouth size of the cross section tube chamber mouth size of No. two pipes, the cross section tube chamber mouth size of No. three pipes, No. six pipes is equal all respectively with the cross section tube chamber mouth size of No. eight pipes; The cross section tube chamber mouth size of the cross section tube chamber mouth size of No. four pipes, No. five pipes is equal all respectively with the cross section tube chamber mouth size of No. seven pipes.

The left end of the lower end of a pipe, the right-hand member of No. two pipes and No. three pipes is interconnected respectively and links together, the upper end of the right-hand member of No. three pipes, the lower end of No. four pipes and No. five pipes is interconnected respectively and links together, and the lower end of No. five pipes, the right-hand member of No. six pipes, the upper end of No. seven pipes and the left end of No. eight pipes are interconnected respectively and link together.The tube core line of the tube core line of No. two pipes and No. three pipes drops on same horizontal linear A; The tube core line of the tube core line of No. four pipes, the tube core line of No. five pipes and No. seven pipes all drops on the vertical straight line B of same; The tube core line of the tube core line of No. six pipes and No. eight pipes drops on same horizontal linear C.Be provided with a cylinder (3) at the left end of No. two pipes, in No. two pipes, airtight slip is provided with the piston (4) be connected with the expansion link of a cylinder.Be provided with No. two cylinders (20) in the upper end of No. four pipes, in No. four pipes, airtight slip is provided with No. two pistons (17) be connected with the expansion link of No. two cylinders.Be provided with No. three cylinders (12) in the lower end of No. seven pipes, in No. seven pipes, airtight slip is provided with No. three pistons (11) be connected with the expansion link of No. three cylinders.The air pressure thrust dropping feeder (8) that high pressure thrust air pressure can be provided in No. six pipes is provided with at the left end of No. six pipes.

Be close at the outer tube wall upper sleeve gasket of No. eight pipes and be connected to clamping ring (30), be close at the collar wall upper sleeve gasket of clamping ring and be connected to No. nine pipes (23), the tube core line of No. nine pipes drops on horizontal linear C, and the right output port of No. nine pipes is greater than the distance of right output port to No. five pipes of No. eight pipes to the distance of No. five pipes; Thus between the inner tubal wall and the outer tube wall of No. eight pipes of No. nine pipes, form the annular chamber (31) that right-hand member is annular mouth (32); The efferent duct (13) of one No. one air pump (14) is connected with annular chamber.Owing to adding No. nine pipes in this example, so support bar is fixed on No. nine pipes, it is also passable in fact support bar being fixed on No. eight pipes.

On No. six intraluminal upper right side tube walls of pipe, level is provided with upper knife groove (54) towards the right side, on No. six intraluminal bottom righthand side tube walls of pipe, level is provided with lower knife groove (51) towards the right side, upper cylinder (53) and lower cylinder (52) is respectively equipped with in upper knife groove He in lower knife groove, and respectively level is towards right layout for the expansion link of the expansion link of upper cylinder and lower cylinder, and on the expansion link of the upper and lower cylinder of the expansion link of upper cylinder, level is fixedly connected with the edge of a knife towards the upper cutter (49) on the right side and lower cutter (50) towards the right side respectively.The right-hand member of upper knife groove and the right-hand member of lower knife groove be respectively equipped with scrape hole (55) and under scrape hole (56), described upper cutter and lower cutter slide respectively be arranged in scrape in hole and under scrape in hole.On scrape hole and under scrape hole and can scrape the mud that the upper and lower cutting knife of upper cutter adheres to respectively.

The control end of the control end of the control end of magnetic valve, the control end of a cylinder, the control end of No. two cylinders, No. three cylinders, the control end of air pressure thrust dropping feeder, the control end of an air pump, the control end of upper cylinder and lower cylinder is electrically connected with controller respectively.

Also comprise and rotate linker (21), rotate the lower connected entrance that linker comprises connected entrance and is connected with upper connected entrance, lower connected entrance and upper connected entrance are just to layout; No. five pipes comprise epimere pipe (5) and hypomere pipe (6), and the lower port docking of epimere pipe is connected on the upper connected entrance of rotation linker, and the upper port docking of hypomere pipe is connected on the lower connected entrance of rotation linker; The control end rotating linker is electrically connected with controller.This example can the hypomere pipe of left-right rotation No. five pipes by rotating linker, the hypomere pipe racks of No. five pipes moves the right output port also left-right rotation of No. nine pipes, thus the diverse location in combustion furnace put into No. two compression sludge bulkings by No. nine pipes that mud can be allowed to enter stove conveying device, No. two of putting into like this in combustion furnace compress sludge bulking would not drop into same place, some No. two compression sludge bulkings spread out in planar in combustion furnace, add No. two and compress the area of sludge bulking in combustion furnace, thus add the combustion efficiency of No. two compression sludge bulkings in combustion furnace.

The upper surface of No. nine pipes is provided with support bar (24) upward, support bar is provided with the rotating mechanism up and down (25) that can rotate up and down, upper and lower rotating mechanism is provided with shoot down that puff prot (47) arranges towards lower right shoot down jet thrust (26), that shoots down jet thrust shoots down the semicircle arcuation of puff prot in bending downwards, shoots down the vertical center line of the vertical center line of puff prot and the right output port of No. nine pipes in same vertical plane; The air-out hose (28) of one No. two air pumps (27) with shoot down jet thrust and be connected; The control end of the control end of upper and lower rotating mechanism and No. two air pumps is electrically connected with controller respectively.This example shoots down jet thrust and shoots down air-flow (43) towards lower right blowout, shoots down air-flow and enclosure wall shielding gas flow cylinder intersects, and forces No. two compression sludge bulkings entered in combustion furnace to drop to as early as possible in combustion furnace.

Shoot down air-flow can intermittence eject, can compress after sludge bulking arrives the stove charging hole of combustion furnace and these No. two compression sludge bulkings can be shot down in combustion furnace at No. two as long as shoot down air-flow.Put in the process at the M place of combustion furnace some mud fragments that can come off from it from H at No. two compression sludge bulkings.Shoot down air-flow and ensure that mud fragment also can fall into combustion furnace in time, avoid mud fragment and be splashed to outside combustion furnace.That shoots down jet thrust shoots down the semicircle arcuation of puff prot in bending downwards.Shown in participation Fig. 8, shoot down puff prot in " (" half round parentheses shape.The air-flow that shoots down shooting down that puff prot ejects of this structure can be good at a mud fragment and shoots down in combustion furnace.

The upper surface shooting down jet thrust is provided with the camera (29) be electrically connected with controller.This example camera is convenient to remote No. two, monitoring in real time and is compressed the input situation of sludge bulking, simple and easy to use.

Without blade fan (33) before the right output port dead ahead of No. nine pipes is provided with, the front control end without blade fan is electrically connected with controller, the front introducing air-flow air intake nose end without blade fan is arranged towards the right output port of No. nine pipes, and the inner ring diameter of the front air holes circle without blade fan is greater than the outer tube diameter of No. nine pipes.The fan airstream (46) produced without blade fan before this example enhances the wind model ability of right output port to the input fed distance of combustion furnace of No. nine pipes, can compress sludge bulking put into larger for weight No. two in combustion furnace.If without blade fan arrange several in the space between the right output port and the stove charging hole of combustion furnace of No. nine pipes before, can not only greatly improve wind model ability, but also make the equipment on No. nine pipes and No. nine pipes away from the combustion furnace of high temperature, effect of heat insulation is better, and the service life of equipment be arranged on No. nine pipes is longer.Without blade fan before being provided with two in this example, before being respectively No. one without before blade fan (34) and No. two without blade fan (35).Originally in instances, the front air holes circle without blade fan not only plays wind-guiding effect, also plays the effect adding strong wind.

The furnace wall of the combustion furnace of the positive the other side of stove charging hole is provided with stove exhaust vent (38), and stove charging hole and stove exhaust vent are just to layout.Be provided be electrically connected with controller rear the rear inner ring diameter without blade fan is greater than the diameter of stove exhaust vent without blade fan (62) in combustion furnace right, and the rear introducing air-flow air intake nose end without blade fan is arranged towards the right output port of No. nine pipes.The wind can strengthening coming in from stove charging hole without blade fan is afterwards discharged smoothly, the impact that the wind reducing to come in from stove charging hole burns on combustion furnace.

Rear without being provided with the impact microphone (61) be electrically connected with controller between blade fan with stove exhaust vent.When have mud fragment from fall into after stove exhaust vent flies out strike impact microphone time, illustrate that high pressure thrust air-flow is excessive, reduce high pressure thrust air-flow and can control mud fragment and drop in combustion furnace.

What be applicable to material toggling wind dried sludge into boiler conveying equipment enters a stove conveyance control method, shown in Fig. 2, Fig. 3, Fig. 4, Fig. 5, Fig. 6, Fig. 7, Fig. 8, enters stove conveyance control method and comprises the steps:

The upper end of a pipe is connected on the discharging opening of sludge bin (15) lower end by step (6-1), and closes solenoid, and the stove charging hole (37) of combustion furnace (36) is arranged in the right output port dead ahead of No. nine pipes.

If the junction of the right output port of the lower port of a pipe and No. two pipes is D place, if the junction of the lower port of the right output port of No. three pipes and No. four pipes is E place, if the junction of the upper port of the right output port of No. three pipes and No. five pipes is F place, if the junction of the lower port of the right output port of No. six pipes and No. five pipes is G place, if the junction of the upper port of the right output port of No. six pipes and No. seven pipes is H place.

The low order end place that kinetic energy arrives that moves right, the right part of a piston is positioned at E place; The top place that can arrive that moves up, the bottom of No. two pistons is positioned at E place; The bottom of No. two pistons moves down the place bottom that can arrive and is positioned at G place; The top place that can arrive that moves up, the upper end of No. three pistons is positioned at F place; The upper end of No. three pistons moves down the place bottom that can arrive and is positioned at H place.

If the initial position of the right part of a piston is at D place, if the initial position of the bottom of No. two pistons is at E place, if the initial position of the upper end of three number of establishing pistons is at F place.

Step (6-2) under the control of the controller, opens magnetic valve, allows the mud (39) in sludge bin after mummification flow into No. three pipes, when filling mud shut electromagnetic valve in No. three pipes from the discharging opening of sludge bin through a pipe; Then a cylinder expansion link extend the right part of a piston move in No. three pipes, mud is compressed after obtain No. one compress sludge bulking (40).

Then, the upper end of the bottom of No. two pistons and No. three pistons moves down step (6-3) simultaneously, or the upper end of No. three pistons be first moved down into No. five pipes tube chamber in after, the lower end of No. two pistons moves down in the tube chamber of No. five pipes again; In the process that the bottom of No. two pistons moves down, No. immediately below the bottom being positioned at No. two pistons is compressed sludge bulking and carries out cutting and obtain cutting sludge bulking (41) by the bottom of No. two pistons.

Step (6-4) is after the lower end of No. two pistons and the upper end of No. three pistons are all in the tube chamber of No. five pipes, the upper end of No. three pistons is slack, continues to move down and obtain No. two after sludge bulking compresses compress sludge bulking (42) to cutting in the lower end of No. two pistons.

The upper end of step (6-5) then No. three pistons is moved down into H place, and the bottom of No. two pistons moves down and compresses No. two the right output port H place that sludge bulkings are pushed into No. six pipes; And under the effect of upper cylinder, allow No. two to compress sludge bulkings with upper cutter to be separated with No. two pistons and under the effect of lower cylinder, to allow with lower cutter No. two to compress sludge bulking be separated with No. three pistons.

Under the control of the controller, an air pump inputs air-flow to annular chamber thus ejects cross section enclosure wall shielding gas flow cylinder (44) cylindrically in the annular mouth of annular chamber step (6-6).

After step (6-7) air pressure thrust dropping feeder starts, moment inputs after No. two compression sludge bulkings are released by high pressure thrust air pressure formation high pressure thrust air-flow (45) from the tube chamber of No. eight pipes and puts in combustion furnace in the tube chamber of No. six pipes; And after No. two compression sludge bulkings are released from the tube chamber of No. eight pipes; No. two compress the protection that sludge bulking can be subject to enclosure wall shielding gas flow cylinder; make the mud fragment separated from No. two compression sludge bulkings can not escape into the splashing occurring mud fragment outside enclosure wall shielding gas flow cylinder, thus mud fragment is also fed in combustion furnace.No. two compress sludge bulking under the promotion of high pressure thrust air-flow, proceed to the I place in No. eight pipes from H, then proceed to the J place in No. nine pipes from I, then without the K place in blade fan before proceeding to from J, proceed to the L place in combustion furnace again from K, then drop into the M place in combustion furnace from L.No. two compress sludge bulking and are shipped to M place just as throwing shell from H, and this example easily can compress sludge bulking No. two accurately and put in combustion furnace.There will not be the phenomenon that Tower Bridge blocks, reliability is high.

Step (6-8) then allows the right part of a piston reset to initial position D place, allows the bottom of No. two pistons reset to initial position E place, allows the upper end of three number of establishing pistons reset to initial position F place.

So far, conveying device completes the mud conveying operation of primary sludge from sludge bin to combustion furnace to step (6-9); If repeat step (6-2) to step (6-8), mud enters stove conveying device and can realize carrying operation until the mud conveying end of job to the mud of mud from sludge bin to combustion furnace.

This example first carries out compression to mud and obtains a compression sludge bulking, then cuts down from a compression sludge bulking and cuts sludge bulking, then obtains No. two compression sludge bulkings to cutting after sludge bulking compresses.Upper cutter allows No. two to compress sludge bulking and is separated with No. two pistons under the effect of upper cylinder, and lower cutter allows No. two to compress sludge bulking and is separated with No. three pistons under the effect of lower cylinder.Jointly compress sludge bulking No. two finally by high pressure thrust air pressure and enclosure wall shielding gas flow cylinder to be shipped in combustion furnace.This programme mud can not enter in the pipeline of stove conveying device to form sludge concentration bridging at mud, and mud can not block the pipeline that mud enters stove conveying device, and the mud in sludge bin can be transported in combustion furnace smoothly.

Describe embodiment of the present utility model by reference to the accompanying drawings above, but do not limit by above-described embodiment when realizing, those of ordinary skill in the art can make a variety of changes within the scope of the appended claims or revise.

Claims (3)

1. material toggling wind dried sludge into boiler conveying equipment, is characterized in that, comprises controller and the pipe being provided with magnetic valve, also comprises No. two pipes, No. three pipes, No. four pipes, No. five pipes, No. six pipes, No. seven pipes and No. eight pipes; The left end of the lower end of a pipe, the right-hand member of No. two pipes and No. three pipes is interconnected respectively and links together, the upper end of the right-hand member of No. three pipes, the lower end of No. four pipes and No. five pipes is interconnected respectively and links together, and the lower end of No. five pipes, the right-hand member of No. six pipes, the upper end of No. seven pipes and the left end of No. eight pipes are interconnected respectively and link together; The tube core line of described No. two pipes and the tube core line of No. three pipes drop on same horizontal linear A; The tube core line of the tube core line of described No. four pipes, the tube core line of No. five pipes and No. seven pipes all drops on the vertical straight line B of same; The tube core line of described No. six pipes and the tube core line of No. eight pipes drop on same horizontal linear C; Be provided with a cylinder at the left end of No. two pipes, in No. two pipes, airtight slip is provided with the piston be connected with the expansion link of a cylinder; Be provided with No. two cylinders in the upper end of No. four pipes, in No. four pipes, airtight slip is provided with No. two pistons be connected with the expansion link of No. two cylinders; Be provided with No. three cylinders in the lower end of No. seven pipes, in No. seven pipes, airtight slip is provided with No. three pistons be connected with the expansion link of No. three cylinders; The air pressure thrust dropping feeder that high pressure thrust air pressure can be provided in No. six pipes is provided with at the left end of No. six pipes; The control end of the control end of described magnetic valve, the control end of a cylinder, the control end of No. two cylinders, the control end of No. three cylinders and air pressure thrust dropping feeder is electrically connected with controller respectively.

2. material toggling wind dried sludge into boiler conveying equipment according to claim 1, it is characterized in that, the upper surface of No. eight pipes is provided with support bar upward, support bar is provided with the rotating mechanism up and down that can rotate up and down, upper and lower rotating mechanism is provided with shoot down that puff prot arranges towards lower right shoot down jet thrust, described shoot down jet thrust shoot down the semicircle arcuation of puff prot in bending downwards, described in shoot down the vertical center line of the vertical center line of puff prot and the right output port of No. eight pipes in same vertical plane; The air-out hose of No. two air pumps is connected with the described jet thrust that shoots down; The control end of described upper and lower rotating mechanism and the control end of No. two air pumps are electrically connected with controller respectively.

3. material toggling wind dried sludge into boiler conveying equipment according to claim 1, it is characterized in that, without blade fan before the right output port dead ahead of described No. eight pipes is provided with, control end without blade fan before described is electrically connected with controller, arrange towards the right output port of described No. eight pipes without the introducing air-flow air intake nose end of blade fan before described, before described, be greater than the outer tube diameter of described No. eight pipes without the inner ring diameter of the air holes circle of blade fan.