CN112460614B - Air-cooled high temperature furnace ash is with carrying processing apparatus - Google Patents

Abstract

The invention discloses an air-cooled conveying and processing device for high-temperature furnace dust, which comprises a fixed conveying shaft and a movable conveying shaft, and is characterized in that: the furnace ash conveying device comprises a fixed conveying shaft, a movable conveying shaft, a conveying belt, a support, a heated lifting device, a positive magnet I, a liquid nitrogen flow channel and a liquid nitrogen flow channel, wherein conveying belts are arranged on the surfaces of the fixed conveying shaft and the movable conveying shaft, the conveying belts are made of high-temperature-resistant materials, the middle of the conveying belt is provided with a ventilation flow channel, the bottom of the ventilation flow channel is conical, the top of the ventilation flow channel is spiral, fans are arranged on two sides of the conveying belt, the bottom of the conveying belt is also provided with the fans, the support is arranged above the conveying belt, the heated lifting device is uniformly arranged below the support and comprises a lifting support, a positive magnet I is fixedly arranged on the inner wall of the lifting support, the inside of the conveying belt is provided with the liquid nitrogen flow channel, and the liquid nitrogen flow channel is communicated with each ventilation flow channel.

Description

Air-cooled high temperature furnace ash is with carrying processing apparatus

Technical Field

The invention relates to the technical field of conveying and processing devices for high-temperature furnace dust, in particular to an air-cooled conveying and processing device for high-temperature furnace dust.

Background

The high-temperature furnace dust is not suitable for transportation and treatment due to the higher temperature, and the furnace dust can not be blocked and packaged in the existing transportation and treatment device, so that the transportation efficiency is not improved, and therefore, the design is strong in practicability and the air-cooled high-temperature furnace dust transportation and treatment device capable of blocking and packaging the furnace dust is necessary.

Disclosure of Invention

The invention aims to provide an air-cooled conveying and processing device for high-temperature furnace ash, which solves the problems in the background art.

In order to solve the technical problems, the invention provides the following technical scheme: the utility model provides an air-cooled high temperature furnace ash is with carrying processing apparatus, includes fixed conveying axle and activity conveying axle, its characterized in that: the surface of the fixed conveying shaft and the surface of the movable conveying shaft are provided with conveying belts made of high-temperature-resistant materials, the middle of the conveying belt is provided with a ventilation flow passage, the bottom of the ventilation flow passage is conical, the top of the ventilation flow passage is spiral, the two sides of the conveying belt are provided with fans, and the bottom of the conveying belt is also provided with fans. The outside inside of the ash is ventilated simultaneously, the heat dissipation efficiency can be greatly improved, the conical shape at the bottom of the ventilation flow channel can better collect the wind blown out by the fan, and the spiral air outlet can enable the wind to form spiral airflow, so that the ventilation efficiency is better.

According to the technical scheme, the support is installed to the top of conveyer belt, the below of support is evenly installed and is heated lifting devices, it includes the lifting support to be heated lifting devices, fixed mounting has anodal magnet one on the inner wall of lifting support.

According to the technical scheme, the supporting block is installed at the bottom of the lifting support, the lifting box is placed at the top of the supporting block, the positive magnet II is fixedly installed on the periphery of the outer wall of the lifting box, the traction rope is arranged above the inner portion of the lifting box, the tail end of the traction rope is connected with the lifting air bag, the bottom of the lifting box is fixedly connected with the lifting shaft, the tail end bearing of the lifting shaft is provided with the movable roller, the two sides of the output shaft of the movable conveying shaft are provided with the movable grooves, after the high-temperature furnace dust reaches the position below the heated lifting device, the temperature of the high-temperature furnace dust can be increased, the air above the furnace dust can be increased due to the fact that the high-temperature air density is lower than the normal-temperature air, the air can be increased and collected by the lifting air bag, when the temperature of the furnace dust is high to a certain degree, the high-temperature air above the furnace dust can be sufficiently increased, the lifting air bag is filled with high-temperature low-density air, the lifting air bag can obtain enough lifting force at the moment, the lifting box is lifted, the lifting box can drive the lifting shaft and the movable rollers to lift, high-temperature furnace dust can be concentrated on the conveying belt between the two movable rollers at the moment, the conveying belt continuously moves, the high-temperature furnace dust can not cross the conveying belt lifted by the movable rollers due to gravity and can roll down into the furnace dust, the furnace dust can be continuously turned over between the two movable rollers in a reciprocating circulation process, meanwhile, the fan can perform air cooling heat dissipation on the high-temperature furnace dust in the next process, the heat dissipation effect of the high-temperature furnace dust is obviously improved, and then after the temperature of the furnace dust is reduced, the lifting air bag lacks the supplement of the high-temperature air and can fall back to the supporting block again, so that the conveying belt can continuously convey the furnace dust along the horizontal direction;

after the conveyor belt is lifted by the heated lifting device, the movable conveying shaft on the right side of the conveyor belt can be deviated leftwards in the movable groove, so that the deformation caused by the fact that the conveyor belt is pulled can be counteracted, and the conveyor belt can normally run;

in the subsequent heated lifting device, the lifting airbag in the subsequent heated lifting device is smaller than the lifting airbag in the front, so that the temperature of the subsequent heated lifting device which is heated to rise is required to be lower than that of the front, the subsequent heated lifting device can be gradually cooled, and excessive furnace ash accumulation cannot be caused;

in the lifting process of the lifting box, the lifting box is possibly inclined due to different inflation conditions of all positions of the lifting airbag, so that the lifting effect is influenced, but after the inner wall of the lifting support and the outer wall of the lifting box are provided with magnets of the same polarity, the lifting box can keep balance of all directions in the lifting support under the magnetic effect of repelling of the same polarity, so that the lifting box is not inclined.

According to the technical scheme, an internal liquid nitrogen flow passage is formed in the conveying belt and is communicated with each ventilation flow passage, a liquid nitrogen pump is connected to the front end of the internal liquid nitrogen flow passage, the conveying belt can absorb a large amount of heat energy in the process of conveying high-temperature furnace dust by the conveying belt, so that the temperature of the conveying belt is increased, if the conveying belt works at high temperature for a long time, the service life of the conveying belt can be reduced, the use cost is increased, after the internal liquid nitrogen flow passage is formed in the conveying belt, liquid nitrogen can be provided for the conveying belt by the liquid nitrogen pump when the conveying belt works, and the liquid nitrogen can absorb the high temperature of the conveying belt when the conveying belt works by the aid of the heat transfer effect of the liquid nitrogen and low temperature of the conveying belt, so that the service life of the conveying belt can be prolonged;

the inner liquid nitrogen channel is communicated with each ventilation flow channel, liquid nitrogen can be vaporized after the liquid nitrogen absorbs heat, at the moment, vaporized nitrogen can be discharged through each ventilation flow channel, and is blown upwards by a fan below the conveyor belt and finally blown to the bottom of high-temperature furnace dust through the ventilation flow channel, although the nitrogen is formed by vaporization of the liquid nitrogen, the temperature of the nitrogen is far lower than that of the high-temperature furnace dust, so that when low-temperature nitrogen passes through the high-temperature furnace dust, the temperature of the high-temperature furnace dust can be reduced by using the low temperature of the nitrogen;

in the runner of ventilating, may remain the tiny granule that the ashes drop, can block up the runner of ventilating after these tiny granules gather too much, make it can not ventilate to can reduce air-cooled efficiency, because there is the existence of inside liquid nitrogen runner this moment, liquid nitrogen in its runner can be for whole conveyer belt cooling, and the runner of ventilating wherein can grow under the physical characteristic of conveyer belt expend with heat and contract with cold, make the fan of conveyer belt below can blow these tiny granules, let it can not block up the runner of ventilating.

According to the technical scheme, the tail end of the support is provided with the glue dispensing device, the glue dispensing device comprises a block telescopic shaft, one side of the block telescopic shaft is movably provided with a rotary stirring shaft, the surface of the rotary stirring shaft is provided with a stirring nail, the top of the stirring nail is provided with a glue flowing port, the top of the stirring nail is also provided with a liquid nitrogen port, furnace dust cannot be packaged and transported in the traditional furnace dust transmission and treatment device, dust raising, environment pollution and inconvenient loading and unloading are caused, the glue dispensing device can glue and cut the furnace dust into uniform sizes, the dust can be prevented from volatilizing while transportation is facilitated, the rotary stirring rod in the glue dispensing device can drive the stirring nail on the surface to rotate continuously at a constant speed, the furnace dust can be stirred by the stirring nail, glue can flow out from the top of the glue, and can adhere the furnace dust, and liquid nitrogen can be sprayed from the liquid nitrogen port in part of the stirring nails to cool the mixture of the glue and the furnace dust, so that the glue can be quickly solidified and shaped, and the subsequent work is facilitated.

According to the technical scheme, a probe is arranged inside the rotary stirring shaft, a spring is arranged at the tail end of the probe, holes are formed in the inner wall of the probe, when no furnace dust passes through the rotary stirring shaft, if glue and liquid nitrogen are discharged from the glue outlet and the liquid nitrogen outlet all the time, waste is caused, and the working environment is difficult to clean, when no furnace dust passes through the rotary stirring shaft, the probe can extend out of the rotary stirring shaft under the elastic action of the spring inside the probe, holes are formed in the surface of the probe and correspond to the glue outlet and the liquid nitrogen outlet, when the probe extends out of the rotary stirring shaft, the holes can be staggered with the glue outlet and the liquid nitrogen outlet, so that the glue outlet and the liquid nitrogen outlet are closed, when no furnace dust does not need to work, when the furnace dust passes through the rotary stirring shaft, the probe can retract into the rotary stirring shaft under the pushing of the furnace dust, and at the moment, each hole can be coincided with the glue outlet and the liquid nitrogen outlet, so that the glue can be discharged and liquid nitrogen can work normally.

According to the technical scheme, a piston rod is installed inside the blocking telescopic shaft, a cutting knife switch is installed at the tail end of the piston rod in an electric welding mode, a pressure sensing sleeve is installed on the surface of the cutting knife switch, a pressure spring is installed inside the pressure sensing sleeve, the maximum pressure which can be borne by the pressure spring is the weight of a piece of complete sticky furnace ash, a compressed air inlet is installed on one side of the pressure sensing sleeve, a compressed air outlet is installed at the top of the pressure sensing sleeve, a rising cavity is formed inside the blocking telescopic shaft, a falling cavity is further formed inside the blocking telescopic shaft, an air outlet is formed in one side of the rising cavity, the compressed air outlet is connected with the rising cavity through an air pipe, the falling cavity is connected with the pressure sensing sleeve through an air pipe, and furnace ash is likely to be discontinuous due to a previous process in the conveying process of the furnace ash, therefore, a pressure sensing sleeve is arranged, a pressure spring is arranged in the pressure sensing sleeve, the maximum pressure which can be borne by the pressure spring is the weight of the whole adhesive furnace dust, the cutting switch knife and the piston rod can vertically downwards contact with the conveying belt under the action of gravity under the normal condition, a compressed air inlet is arranged on one side of the cutting switch knife, a hole is formed in the top of the compressed air inlet and matched with a compressed air outlet, when the subsequent furnace dust is conveyed to the cutting switch knife, the pressure sensing sleeve can not shrink before the adhesive furnace dust reaches the specified amount, the hole in the top of the compressed air inlet can be blocked by the pressure sensing sleeve, the compressed air outlet can not be generated, no gas exists in the ascending cavity, the cutting switch knife can not work, and when the adhesive furnace dust in front of the cutting switch knife reaches the preset amount, the weight of the pressure sensing sleeve can push the pressure sensing sleeve, make its inside draw-in groove and the draw-in groove cooperation on compressed air inlet surface, then the hole and the compressed air gas outlet UNICOM at compressed air inlet top, back compressed air pump passes through the trachea for ascending intracavity portion air feed, make the whole upward movement of piston rod, thereby lift up and cut off the plug-in strip, after rising to the take the altitude, the air of descending intracavity portion can be compressed to the limit, can release the draw-in groove through the trachea with the forced induction cover afterwards, make its input that cuts off compressed air, then under the exhaust of gas vent, the piston rod wholly descends, make to cut off the plug-in strip and cut off the gluing furnace ash, can be through the atmospheric pressure of control compressed gas, come the air intake velocity in the control ascending chamber, adjust the falling speed who cuts off the plug-in strip, with the whole size of this final control gluing furnace ash piece.

According to the technical scheme, the tail end of the conveying belt is provided with the glue removing device, the glue removing device comprises a glue removing barrel, a sealed air bag is arranged in the middle of the glue removing barrel, a condensing device is arranged above the glue removing barrel, a heating device is arranged above the glue removing barrel, the inner space of the glue removing barrel is divided into a glue layer, a clear water layer and a furnace ash layer, glue and furnace ash are required to be separated after the glue furnace ash is conveyed to a place required to be used so as to be convenient for subsequent recycling, at the moment, a furnace ash block of glue can be placed into the glue removing barrel, hot water with the temperature higher than eighty ℃ is added into the glue removing barrel, the glue is melted under the action of temperature and is separated from the furnace ash, and meanwhile, the glue is kept still for a period of time after being heated, the glue removing barrel is divided into three layers, the glue layer with the lowest density when the uppermost layer is formed, the middle is the clear water layer, and the bottom time stove ash layer, can aerify for the closed gasbag this moment, the closed gasbag is located the middle of clear water layer, after the closed gasbag is aerifyd, can completely cut off glue and ashes, can rotate the bucket of dispelling glue this moment, make it pour the glue layer, can make things convenient for its subsequent cycle to use, in the in-process of the bucket of dispelling glue is poured in the glue separation, there is a small part glue adhesion on the inner wall of the bucket of dispelling glue, can earlier with its inner wall condensation this moment, make glue solidify, then open the heating device, make glue and the water liquefaction of the bucket adhesion part of dispelling glue, conveniently take off the glue that solidifies well, can get rid of the glue on the bucket inner wall of dispelling glue completely with this.

In the glue removing process, in order to detect the concentration of glue and conveniently adjust the amount of hot water to be filled according to the concentration of the glue, the glue can be detected by a detection device which comprises a detection rocker arm, the tail end of the detection rocker arm is provided with an elastic detection test paper, the test paper is made of elastic fibers, the tail end of the test paper is electrically connected with a control switch of a water filling port, the elastic detection test paper is placed into a glue removing barrel through the detection rocker arm during detection, stands for 10 seconds and then slowly rises, the reading of the stretching length of the test paper is read, the numerical value of the glue concentration Ka is calculated according to a formula Ka L P, the Ka is the glue concentration numerical value in the formula, the L is the stretching length of the elastic detection test paper, the P is the elasticity coefficient of the elastic detection test paper, the surface area of the conductive layer of the elastic detection test paper can be increased in the stretching process of the elastic detection test paper, therefore, the whole resistance value of the water injection barrel can be changed, and the control switch of the water injection port can control the water injection amount according to the change of the resistance values, so that the glue and the furnace ash in the barrel can be separated more smoothly.

According to the technical scheme, a rotating shaft mounting hole is formed in the middle of the glue removing barrel, a glue removing rotating shaft is mounted inside the rotating shaft mounting hole, a pneumatic driving shaft sleeve is mounted on the surface of the glue removing rotating shaft, an inflation cavity is arranged inside the pneumatic driving shaft sleeve, a fixed baffle is fixedly mounted inside the inflation cavity, an adjustable movable baffle is movably mounted inside the inflation cavity, angle scales are engraved on the surface of the pneumatic driving shaft sleeve, a shaft sleeve baffle is arranged inside the pneumatic driving shaft sleeve, a heating device is mounted at the bottom of the glue removing barrel, a rotating shaft air inlet is formed in the right side of the fixed baffle, a rotating shaft air outlet is formed in the left side of the fixed baffle, the glue removing rotating shaft inside the rotating shaft mounting hole can drive the glue removing barrel to rotate, scales are formed on the surface of the pneumatic driving shaft sleeve, and the scales can be obtained according to the scales, move adjustable movable baffle to the angle that the bucket of need dispelling glue is rotatory, for example: the separated glue can be poured out by rotating one hundred twenty degrees; for example: furnace dust can be poured out by rotating one hundred eighty degrees; after the adjustable movable baffle is adjusted in place, the air inlet of the rotary shaft sleeve is used for inflating the inflation cavity, the compressed air can fill the space between the shaft sleeve baffle and the fixed baffle and gradually expand the space to push the shaft sleeve baffle to rotate clockwise to the position of the adjustable movable baffle, the shaft sleeve single plate can drive the glue removing rotating shaft to rotate when rotating, and finally the glue removing barrel is rotated to the angle set by the adjustable movable baffle;

after the glue removing barrel separates the glue and pours the glue out of the barrel, the air bag can be exhausted, the heating device at the bottom of the glue removing barrel is opened to heat the furnace dust and water in the barrel, so that the water is evaporated, the dry furnace dust is finally remained, and then the glue removing barrel is controlled to rotate by one hundred eighty degrees to pour the furnace dust out, so that the separation of the glue and the furnace dust can be completed.

The steam collecting box is arranged at an outlet at the top of the glue removing barrel, the bottom of the steam collecting box is of an open structure, a plurality of contact resistors are uniformly arranged at the top of the steam collecting box and are electrically connected with a controller of the heating device, when the heating device is opened to heat furnace ash and water in the glue removing barrel, the generated steam can be discharged through the outlet at the top of the glue removing barrel, at the moment, the steam collecting box can collect partial steam, the steam can be liquefied and attached to the top of the steam collecting box after contacting the top of the steam, the liquefied water can enable the contact resistors to be communicated, the more the collected steam is, the more the water in the barrel is, the more the liquefied water is, the more the connection quantity of the contact resistors is, the heating power can be increased through the data of the resistors by the controller of the heating device, and vice versa, until the water in the glue removing barrel is completely evaporated, if the contact resistor has no medium for communicating with the contact resistor, the controller is powered off and heating is stopped.

Compared with the prior art, the invention has the following beneficial effects: the furnace ash can be packaged in blocks, and the invention,

(1) by arranging the heated lifting device, when high-temperature furnace dust on the surface of the conveyor belt passes through the heated lifting device, the air above the high-temperature furnace dust can be heated and expanded by the high temperature of the furnace dust, and then the lifting air bag bags are filled with the high-temperature furnace dust, and can rise and drive the movable idler wheels to rise, so that the high-temperature furnace dust can not flow to a next procedure along with the conveyor belt temporarily, but is cooled by blowing air by the fan, and the furnace dust can be cooled more thoroughly;

(2) the conveying belt is arranged, the ventilation flow channel is formed in the middle of the conveying belt, the fan is further installed below the ventilation flow channel, the special shape of the ventilation flow channel can enable the air blown out by the fan below to be utilized to the maximum efficiency, the surface and the inside of high-temperature furnace ash can be blown simultaneously, and the cooling efficiency is higher;

(3) by arranging the internal liquid nitrogen flow channel, the temperature of the conveyor belt can be gradually increased in the process of conveying high-temperature furnace dust on the conveyor belt, the service life of the conveyor belt is damaged, the liquid nitrogen in the internal liquid nitrogen flow channel can be used for cooling the conveyor belt, furnace dust particles can be blocked in the working process of the ventilation flow channel, and the furnace dust particles can fall off by utilizing the principles of liquid nitrogen exhaust and expansion with heat and contraction with cold, so that the blockage is prevented;

(4) by arranging the glue-applying split charging device, the furnace dust can not be packaged and transported in the traditional furnace dust transmission and treatment device, so that the dust-raising, the environment pollution and the inconvenient loading and unloading result are caused, the furnace dust can be glued and integrated into a size with a uniform specification by the glue-applying split charging device, the loading and unloading are facilitated, and a series of hazards caused by the dust-raising can be reduced;

(5) the pressure sensing sleeve is arranged, so that furnace ash is possibly discontinuous due to a previous process in the furnace ash conveying process, and the furnace ash cut off by the knife switch can be placed into blocks with uniform specifications through the matching of the pressure spring and a compressed air inlet, so that the subsequent transportation is facilitated;

(6) by arranging the glue removing barrel, after the adhesive furnace dust is transported to a place needing to be used, the furnace dust and the glue can be separated by the principle that the density of the glue is smaller than that of water, so that the furnace dust and the glue can be recycled;

(7) the pneumatic driving shaft sleeve is arranged, the adjustable movable baffle can be adjusted to a required angle according to the scale of the outer ring of the pneumatic driving shaft sleeve, then the shaft sleeve can be driven to rotate to the angle through compressed air, and finally the glue removing barrel is integrally rotated;

(8) by arranging the closed air bag, when glue removing operation is needed, the glued furnace dust is placed into the glue removing barrel, hot water at 80 ℃ is filled into the barrel, the glue melts due to overhigh temperature, so that the glue is separated from the furnace dust, the glue, the water and the furnace dust can be layered after natural precipitation due to different densities of all substances, then the closed air bag can be inflated to separate the water, and then the glue removing barrel can rotate to pour out the glue;

(9) through the condensation and heating device arranged above the glue removing barrel, a small part of glue adheres to the inner wall of the glue removing barrel in the process of separating and pouring the glue out of the glue removing barrel, at the moment, the inner wall of the glue removing barrel is firstly condensed to solidify the glue, then the upper part of the glue removing barrel is heated, the glue attached to the inner wall of the glue removing barrel is made to fall off, and therefore the residual glue can be removed;

(10) through being provided with the heating device who gets rid of gluey bottom of the barrel, after pouring out the gluey bucket of getting rid of with glue, still leave water and ashes in the bucket, can open heating device this moment, make and get rid of and glue the interior heating of bucket, until the moisture in the bucket evaporates completely, can obtain dry ashes.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic overall elevational view of the present invention;

FIG. 2 is a schematic structural view of the heated lift apparatus of the present invention;

FIG. 3 is a schematic cross-sectional view of the conveyor belt of the present invention;

FIG. 4 is a schematic view of the vent flow path of the present invention;

FIG. 5 is a schematic structural view of the glue dispensing apparatus of the present invention;

FIG. 6 is a schematic structural view of the segmented expansion link of the present invention;

FIG. 7 is a schematic structural view of the glue removing barrel of the present invention;

FIG. 8 is a schematic structural view of a glue-removing rotating shaft according to the present invention;

FIG. 9 is a schematic view of the working principle of the pneumatic drive bushing of the present invention;

in the figure: 1. fixing a transmission shaft; 2. a conveyor belt; 3. a movable transfer shaft; 4. a movable groove; 5. a support; 6. a heated lifting device; 7. gluing and subpackaging devices; 8. a lifting box; 9. a first positive magnet; 10. a second positive magnet; 11. a hauling rope; 12. lifting the air bag; 13. a support block; 14. pulling up the shaft; 15. a movable roller; 16. a ventilation flow channel; 17. an internal liquid nitrogen flow channel; 18. a blocking telescopic shaft; 19. cutting off the knife switch; 20. rotating the stirring shaft; 21. stirring nails; 22. a probe; 23. a pressure sensing sleeve; 24. a pressure spring; 25. a compressed air inlet; 26. a compressed air outlet; 27. an exhaust port; 28. an ascending cavity; 29. a descent chamber; 30. a piston rod; 31. a glue removing barrel; 32. sealing the air bag; 33. a rotating shaft mounting hole; 34. a glue removing rotating shaft; 35. a pneumatically driven shaft sleeve; 36. an inflation cavity; 37. fixing a baffle plate; 38. an adjustable movable baffle; 39. a shaft sleeve baffle; 40. a rotating shaft air inlet; 41. and a rotating shaft air outlet.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, 3 and 4, the present invention provides a technical solution: the utility model provides an air-cooled high temperature ashes are with carrying processing apparatus, includes fixed conveying axle 1 and activity conveying axle 3, its characterized in that: the surface of the fixed conveying shaft 1 and the movable conveying shaft 3 is provided with the conveying belt 2, the conveying belt 2 is made of high-temperature resistant materials, the middle of the conveying belt 2 is provided with a ventilation flow passage 16, the bottom of the ventilation flow passage 16 is conical, the top of the ventilation flow passage 16 is spiral, the two sides of the conveying belt 2 are provided with fans, and the bottom of the conveying belt 2 is also provided with fans, when the device works, the fixed conveying shaft 1 and the movable conveying shaft 3 can be started firstly to drive the conveying belt 2 on the surface to move, then high-temperature furnace dust can be laid on the conveying belt 2 from a furnace, in the process of conveying the furnace dust by the conveying belt 2, the fans on the two sides of the conveying belt 2 can cool the furnace dust in an air cooling mode, meanwhile, the fans are also arranged below the conveying belt 2, and the middle of the conveying belt 2 is also provided with the ventilation flow passage 16, so that the fans below the conveying belt 2 can blow the high-temperature furnace dust from the bottom of the high-temperature furnace dust, the inside of the outer part of the furnace dust is ventilated simultaneously, the heat dissipation efficiency can be greatly improved, the conical shape at the bottom of the ventilation flow channel 16 can better collect the wind blown out by the fan, and the wind can form spiral airflow by the spiral air outlet, so that the ventilation efficiency is better;

referring to fig. 2, a support 5 is installed above the conveyor belt 2, heated lifting devices 6 are evenly installed below the support 5, each heated lifting device 6 comprises a lifting support 5, and a first positive magnet 9 is fixedly installed on the inner wall of each lifting support 5;

referring to fig. 1, a supporting block 13 is installed at the bottom of a lifting support 5, a lifting box 8 is placed at the top of the supporting block 13, a second positive magnet 10 is fixedly installed on the periphery of the outer wall of the lifting box 8, a traction rope 11 is arranged above the inside of the lifting box 8, a lifting air bag 12 is connected to the tail end of the traction rope 11, a lifting shaft 14 is fixedly connected to the bottom of the lifting box 8, a movable roller 15 is installed on a bearing at the tail end of the lifting shaft 14, movable grooves 4 are installed on two sides of an output shaft of a movable transmission shaft 3, after high-temperature furnace ash reaches the position below a heated lifting device 6, the temperature of the high-temperature furnace ash can be increased, the air above the furnace ash can be increased due to the fact that the high-temperature air density is lower than normal-temperature air, and the air can be collected by the lifting air bag 12, when the temperature of the furnace ash is high to a certain degree, the high-temperature air above the high-temperature air can be enough, so that the lifting air bag 12 is filled with high-temperature and low-density air, at the moment, the lifting air bag 12 can obtain enough lifting force to lift the lifting box 8, the lifting box 8 can drive the lifting shaft 14 and the movable rollers 15 to lift, at the moment, high-temperature furnace dust can be concentrated on the conveyor belt 2 between the two movable rollers 15, the conveyor belt 2 continuously moves, the high-temperature furnace dust can not cross the conveyor belt lifted by the movable rollers 15 due to gravity, and can roll down into the furnace dust, so that the furnace dust can be continuously turned over between the two movable rollers 15 in a reciprocating circulation process, meanwhile, the fan can perform air cooling heat dissipation on the high-temperature furnace dust in the next process, the heat dissipation effect of the high-temperature furnace dust is obviously improved, and then after the temperature of the furnace dust is reduced, the lifting air bag 12 lacks the supplement of high-temperature air, and can fall back to the supporting block 13 again, so that the conveyor belt 2 can continuously convey the furnace dust in the horizontal direction;

after the conveyor belt 2 is lifted by the heated lifting device 6, the movable conveying shaft 3 on the right side of the conveyor belt 2 can shift leftwards in the movable groove 4, so that the deformation caused by the fact that the conveyor belt 2 is pulled up can be counteracted, and the conveyor belt 2 can normally operate;

in the subsequent heated lifting device 6, the lifting airbag 12 in the subsequent heated lifting device is smaller than the lifting airbag 12 in the front, so that the temperature requirement of the subsequent heated lifting device 6 for heating rise is lower than that of the front, the subsequent heated lifting device can be gradually cooled, and excessive furnace ash accumulation cannot be caused;

in the lifting process of the lifting box 8, the lifting box 8 may be inclined due to different inflation conditions at various positions of the lifting airbag 12, and the lifting effect is affected, but after the inner wall of the lifting bracket 5 and the outer wall of the lifting box 8 are provided with like magnets, the lifting box 8 can keep balance of various directions in the lifting bracket 5 under the magnetic effect of like repelling, so that the lifting box is not inclined;

referring to fig. 3, an internal liquid nitrogen flow passage 17 is formed inside the conveyor belt 2, the internal liquid nitrogen flow passage 17 is communicated with each ventilation flow passage 16, and a liquid nitrogen pump is connected to the front end of the internal liquid nitrogen flow passage 17, so that the conveyor belt 2 can absorb a large amount of heat energy to raise the temperature of the conveyor belt 2 in the process of conveying high-temperature furnace ash by the conveyor belt 2, if the conveyor belt 2 keeps high-temperature operation for a long time, the service life of the conveyor belt 2 can be reduced, the use cost is increased, but after the internal liquid nitrogen flow passage 17 is formed inside the conveyor belt 2, liquid nitrogen can be provided for the conveyor belt 2 by the liquid nitrogen pump when the conveyor belt 2 operates, and the liquid nitrogen can absorb the high temperature of the conveyor belt 2 when the conveyor belt 2 operates by the heat transfer effect, so that the temperature of the conveyor belt 2 can be effectively reduced, and the service life of the conveyor belt can be prolonged;

the internal liquid nitrogen channel 17 is communicated with each ventilation flow channel 16, after the liquid nitrogen absorbs heat, the liquid nitrogen is vaporized, at the moment, the vaporized nitrogen can be discharged through each ventilation flow channel 16, and is blown upwards by a fan below the conveyor belt 2, and is finally blown to the bottom of the high-temperature furnace dust through the ventilation flow channel 16, although the nitrogen is formed by vaporization of the liquid nitrogen, the temperature of the nitrogen is far lower than that of the high-temperature furnace dust, so that when the low-temperature nitrogen passes through the high-temperature furnace dust, the temperature of the high-temperature furnace dust can be reduced by using the low temperature of the nitrogen;

in the ventilation flow channel 16, fine particles falling off from the furnace ash may remain, and after the fine particles are excessively gathered, the ventilation flow channel 16 is blocked, so that the ventilation cannot be performed, and the air cooling efficiency is reduced, at this time, because of the existence of the internal liquid nitrogen flow channel 17, the liquid nitrogen in the flow channel can cool the whole conveyor belt 2, and the ventilation flow channel 16 therein can be enlarged under the physical characteristics of expansion with heat and contraction with cold of the conveyor belt 2, so that the fan below the conveyor belt 2 can blow the fine particles, and the ventilation flow channel 16 cannot be blocked;

referring to fig. 1 and 5, a glue dispensing device 7 is installed at the end of a support 5, the glue dispensing device 7 includes a block-shaped telescopic shaft 18, a rotary stirring shaft 20 is movably installed at one side of the block-shaped telescopic shaft 18, a stirring pin 21 is installed on the surface of the rotary stirring shaft 20, a glue flowing port is formed at the top of the stirring pin 21, and a liquid nitrogen port is further formed at the top of the stirring pin 21, so that furnace dust cannot be packed and transported in a conventional furnace dust transport and processing device, and the results of dust raising, environmental pollution and inconvenience in loading and unloading are caused, the glue dispensing device 7 of the present invention can stick and cut the furnace dust into sizes of uniform specification, thereby facilitating transportation and preventing dust volatilization, the rotary stirring rod 20 in the glue dispensing device 7 can drive the stirring pin 21 on the surface to rotate at a constant speed, the stirring pin 21 can stir the furnace dust, and glue flows out from the top thereof, the glue can adhere the furnace dust, and liquid nitrogen is sprayed from the liquid nitrogen port in part of the stirring pins 21 to cool the mixture of the glue and the furnace dust, so that the glue can be quickly solidified and shaped, and the subsequent work is facilitated;

referring to fig. 5, a probe 22 is installed inside a rotary stirring shaft 20, a spring is installed at the end of the probe 22, a hole is formed in the inner wall of the probe 22, when no furnace dust passes through a conveyor belt 2, if a glue outlet and a liquid nitrogen outlet discharge glue and liquid nitrogen all the time, waste is caused, and it is difficult to clean a working environment, when no furnace dust passes through the conveyor belt 2, the probe 22 extends out of the rotary stirring shaft 20 under the elastic action of the spring inside the probe 22, holes are formed in the surface of the probe 22, the holes correspond to the glue outlet and the liquid nitrogen outlet, when the probe extends out of the rotary stirring shaft 20, the holes are dislocated with the glue outlet and the liquid nitrogen outlet, so that the glue outlet and the liquid nitrogen outlet are closed, when no furnace dust does not need to work, the probe 22 retracts into the rotary stirring shaft 20 under the pushing of the furnace dust, at the moment, each hole is superposed with the glue outlet and the liquid nitrogen port, so that glue and liquid nitrogen can be discharged and the normal work can be realized;

referring to fig. 6, a piston rod 30 is installed inside the blocking telescopic shaft 18, a cutting knife 19 is installed at the end of the piston rod 30 by electric welding, a pressure sensing sleeve 23 is installed on the surface of the cutting knife 19, a pressure spring 24 is installed inside the pressure sensing sleeve 23, the maximum pressure that the pressure spring 24 can bear is the weight of a complete piece of sticky furnace ash, a compressed air inlet 25 is installed on one side of the pressure sensing sleeve 23, a compressed air outlet 26 is installed on the top of the pressure sensing sleeve 23, an ascending cavity 28 is installed inside the blocking telescopic shaft 18, a descending cavity 29 is also installed inside the blocking telescopic shaft 18, an exhaust port 27 is opened on one side of the ascending cavity 28, the compressed air outlet 26 is connected with the ascending cavity 28 by an air pipe, the descending cavity 29 is connected with the pressure sensing sleeve 23 by an air pipe, and furnace ash may be discontinuous due to a previous process during the furnace ash conveying process, therefore, a pressure sensing sleeve 23 is arranged, a pressure spring 24 is arranged in the pressure sensing sleeve 23, the maximum pressure which can be borne by the pressure spring 24 is the weight of a whole piece of adhesive furnace dust, the cutting knife 19 and the piston rod 30 can vertically downwards contact with the conveyor belt 2 under the action of gravity under the normal condition, a compressed air inlet 25 is arranged on one side of the cutting knife 19, a hole is formed in the top of the compressed air inlet 25 and is matched with a compressed air outlet 26, when the subsequent furnace dust is conveyed to the cutting knife 19, the pressure sensing sleeve 23 cannot contract before the adhesive furnace dust reaches a specified amount, so that the pressure sensing sleeve 23 can block the hole in the top of the compressed air inlet 25, the air cannot be discharged, no air exists in the ascending cavity 28, the cutting knife 19 cannot work, when the adhesive furnace dust in front of the cutting knife 19 reaches a preset amount, the weight of the pressure sensing sleeve 23 pushes the pressure sensing sleeve to enable the clamping groove in the pressure sensing sleeve to be matched with the clamping groove on the surface of the compressed air inlet 25, then the hole at the top of the compressed air inlet 25 is communicated with the compressed air outlet 26, the rear compressed air pump supplies air to the interior of the ascending cavity 28 through an air pipe, so that the piston rod 30 integrally moves upwards, thereby lifting the cutting knife 19, after rising to a certain height, the air inside the descending cavity 29 will be compressed to the limit, and then the pressure sensing sleeve 23 will be pushed out of the clamping groove through the air pipe, so that the input of the compressed air is cut off, then, the piston rod 30 is lowered as a whole by the exhaust of the exhaust port 27, so that the cutting blade 19 cuts the adhesive ashes, the air pressure of the compressed air can be controlled to control the air inlet speed in the ascending cavity 28, so as to adjust the descending speed of the cutting knife 19, and finally control the whole size of the adhesive furnace ash block;

referring to fig. 7, a glue removing device is arranged at the end of the conveyor belt 2, the glue removing device includes a glue removing barrel 31, a closed air bag 32 is arranged in the middle of the glue removing barrel 31, a condensing device is arranged above the glue removing barrel 31, a heating device is arranged above the glue removing barrel 31, the inner space of the glue removing barrel 31 is divided into a glue layer, a clear water layer and a furnace ash layer, after the glue furnace ash is transported to a place where the glue is needed to be used, the glue and the furnace ash need to be separated for subsequent recycling, at this time, the furnace ash block of the glue can be placed into the glue removing barrel 31, then hot water with temperature higher than eighty ℃ is added into the glue removing barrel 31, the glue melts under the action of temperature to separate the glue from the furnace ash, and the density of the glue is smaller than that of water, therefore, after the water is heated for a period of time, the glue is divided into three layers in the glue removing barrel 31, the glue layer with the lowest density at the top layer, and the clear water layer in the middle, the bottom is the furnace ash layer, the closed air bag 32 can be inflated at the moment, the closed air bag 32 is positioned in the middle of the clear water layer, glue and furnace ash can be isolated after the closed air bag 32 is inflated, the glue removing barrel 31 can be rotated at the moment to pour out the glue layer, the subsequent recycling of the glue removing barrel can be facilitated, a small part of glue is adhered to the inner wall of the glue removing barrel 31 in the process of separating and pouring out the glue removing barrel 31, the inner wall of the glue removing barrel can be condensed at the moment to solidify the glue, then the heating device is opened to liquefy the part of the glue adhered to the glue removing barrel 31, and the solidified glue can be conveniently removed, so that the glue on the inner wall of the glue removing barrel 31 can be completely removed;

in the glue removing process, in order to detect the concentration of glue and conveniently adjust the amount of hot water to be filled according to the concentration of the glue, the glue can be detected by a detection device which comprises a detection rocker arm, the tail end of the detection rocker arm is provided with an elastic detection test paper, the test paper is made of elastic fibers, the tail end of the test paper is electrically connected with a control switch of a water filling port, the elastic detection test paper is placed into a glue removing barrel through the detection rocker arm during detection, stands for 10 seconds and then slowly rises, the reading of the stretching length of the test paper is read, the numerical value of the glue concentration Ka is calculated according to a formula Ka L P, the Ka is the glue concentration numerical value in the formula, the L is the stretching length of the elastic detection test paper, the P is the elasticity coefficient of the elastic detection test paper, the surface area of the conductive layer of the elastic detection test paper can be increased in the stretching process of the elastic detection test paper, therefore, the whole resistance value of the water injection barrel can be changed, and the control switch of the water injection port can control the water injection amount according to the change of the resistance values, so that the glue and the furnace ash in the barrel can be separated more smoothly.

Referring to fig. 7-9, a rotating shaft mounting hole 33 is formed in the middle of the glue removing barrel 31, a glue removing rotating shaft 34 is mounted inside the rotating shaft mounting hole 33, a pneumatic driving shaft sleeve 35 is mounted on the surface of the glue removing rotating shaft 34, an inflation cavity 36 is arranged inside the pneumatic driving shaft sleeve 35, a fixed baffle 37 is fixedly mounted inside the inflation cavity 36, an adjustable movable baffle 38 is movably mounted inside the inflation cavity 36, angle scales are engraved on the surface of the pneumatic driving shaft sleeve 35, a shaft sleeve baffle 39 is arranged inside the pneumatic driving shaft sleeve 35, a heating device is mounted at the bottom of the glue removing barrel 31, a rotating shaft air inlet 40 is formed in the right side of the fixed baffle 37, a rotating shaft air outlet 41 is formed in the left side of the fixed baffle 37, the glue removing rotating shaft 34 inside the rotating shaft mounting hole 33 can drive the glue removing barrel 31 to rotate, scales are formed on the surface of the pneumatic driving shaft sleeve 35, according to the scales, the adjustable movable baffle 38 can be moved to the angle of the glue removing barrel 31, such as: the separated glue can be poured out by rotating one hundred twenty degrees; for example: furnace dust can be poured out by rotating one hundred eighty degrees; after the adjustable movable baffle 38 is adjusted in place, the inflation cavity 36 is inflated through the rotating shaft sleeve air inlet 40, the space between the shaft sleeve baffle 39 and the fixed baffle 37 is filled up by compressed air and gradually expanded, so that the shaft sleeve baffle 39 is pushed to rotate clockwise to the adjustable movable baffle 38, the shaft sleeve single plate 39 can drive the glue removing rotating shaft 34 to rotate when rotating, and finally the glue removing barrel 31 is rotated to the angle set by the adjustable movable baffle 38;

after the glue is separated and poured out of the glue removing barrel 31, the air bag 32 can be exhausted, the heating device at the bottom of the glue removing barrel 31 is opened to heat the furnace dust and water in the barrel, so that water is evaporated, dry furnace dust is finally remained, and then the glue removing barrel 31 is controlled to rotate by one hundred and eighty degrees to pour out the furnace dust, so that the separation of the glue and the furnace dust can be completed.

The steam collecting box is arranged at the outlet at the top of the glue removing barrel 31, the bottom of the steam collecting box is of an open structure, a plurality of contact resistors are uniformly arranged at the top of the steam collecting box and are electrically connected with the controller of the heating device, when the heating device is opened to heat furnace ash and water in the glue removing barrel, the generated steam can be discharged through the outlet at the top of the glue removing barrel, at the moment, the steam collecting box can collect partial steam, the steam can be liquefied after contacting the top of the steam collecting box and is attached to the top of the steam collecting box, the liquefied water can enable the contact resistors to be communicated, the more the collected steam is, the more the water in the barrel is, the more the liquefied water is, the more the connection quantity of the contact resistors is, the controller of the heating device can increase the heating power through the data of the resistors, and vice versa, until the water in the glue removing barrel is completely evaporated, the contact resistor has no medium capable of communicating the contact resistor, the controller is powered off, and heating is stopped.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (3)

1. The utility model provides an air-cooled high temperature furnace ash is with carrying processing apparatus, includes fixed conveying axle (1) and activity conveying axle (3), its characterized in that: the conveying belt (2) is installed on the surfaces of the fixed conveying shaft (1) and the movable conveying shaft (3), the conveying belt (2) is made of high-temperature-resistant materials, an air-ventilation flow channel (16) is formed in the middle of the conveying belt (2), the bottom of the air-ventilation flow channel (16) is conical, the top of the air-ventilation flow channel (16) is spiral, fans are installed on two sides of the conveying belt (2), and the fans are also installed at the bottom of the conveying belt (2);

a support (5) is installed above the conveyor belt (2), heated lifting devices (6) are uniformly installed below the support (5), each heated lifting device (6) comprises a lifting support (5), and a first positive magnet (9) is fixedly installed on the inner wall of each lifting support (5);

the lifting device is characterized in that a supporting block (13) is installed at the bottom of the lifting support (5), a lifting box (8) is placed at the top of the supporting block (13), a second positive magnet (10) is fixedly installed on the periphery of the outer wall of the lifting box (8), a traction rope (11) is arranged above the inner portion of the lifting box (8), the tail end of the traction rope (11) is connected with a lifting air bag (12), a lifting shaft (14) is fixedly connected to the bottom of the lifting box (8), a movable roller (15) is installed on a tail end bearing of the lifting shaft (14), and movable grooves (4) are installed on two sides of an output shaft of the movable conveying shaft (3);

an internal liquid nitrogen flow channel (17) is formed in the conveyor belt (2), the internal liquid nitrogen flow channel (17) is communicated with each ventilation flow channel (16), and the front end of the internal liquid nitrogen flow channel (17) is connected with a liquid nitrogen pump;

the glue dispensing and subpackaging device (7) is installed at the tail end of the support (5), the glue dispensing and subpackaging device (7) comprises a block telescopic shaft (18), a rotary stirring shaft (20) is movably installed on one side of the block telescopic shaft (18), a stirring nail (21) is installed on the surface of the rotary stirring shaft (20), a glue flowing port is formed in the top of the stirring nail (21), and a liquid nitrogen port is formed in the top of the stirring nail (21);

a probe (22) is arranged inside the rotary stirring shaft (20), a spring is arranged at the tail end of the probe (22), and a hole is formed in the inner wall of the probe (22);

the utility model discloses a blocking telescopic shaft, including blocking telescopic shaft (18), the internally mounted of blocking telescopic shaft (18) has piston rod (30), the end electric welding of piston rod (30) is installed and is cut off plug-in strip (19), the surface mounting who cuts off plug-in strip (19) has forced induction cover (23), the internally mounted of forced induction cover (23) has pressure spring (24), the maximum pressure that pressure spring (24) can bear is the weight of a complete gluing furnace dust, compressed air inlet (25) are installed to one side of forced induction cover (23), compressed air gas outlet (26) are installed at the top of forced induction cover (23), the inside of blocking telescopic shaft (18) is provided with and rises chamber (28), the inside of blocking telescopic shaft (18) still is provided with and descends chamber (29), gas vent (27) have been seted up to one side that rises chamber (28), compressed air gas outlet (26) and the chamber (28) that rises are connected for the trachea, the descending cavity (29) is connected with the pressure sensing sleeve (23) through an air pipe.

2. The air-cooled conveying and processing device for the high-temperature furnace dust according to claim 1, characterized in that: the tail end of the conveyor belt (2) is provided with a glue removing device, the glue removing device comprises a glue removing barrel (31), a sealed air bag (32) is installed in the middle of the glue removing barrel (31), a condensing device is installed above the glue removing barrel (31), a heating device is installed above the glue removing barrel (31), and the inner space of the glue removing barrel (31) is divided into a glue layer, a clear water layer and an ash layer.

3. The air-cooled conveying and processing device for the high-temperature furnace dust according to claim 2, characterized in that: a rotating shaft mounting hole (33) is formed in the middle of the glue removing barrel (31), a glue removing rotating shaft (34) is mounted inside the rotating shaft mounting hole (33), the surface of the glue removing rotating shaft (34) is provided with a pneumatic driving shaft sleeve (35), an inflation cavity (36) is arranged inside the pneumatic driving shaft sleeve (35), a fixed baffle (37) is fixedly arranged in the inflatable cavity (36), an adjustable movable baffle (38) is movably arranged in the inflatable cavity (36), the surface of the pneumatic driving shaft sleeve (35) is carved with angle scales, a shaft sleeve baffle plate (39) is arranged inside the pneumatic driving shaft sleeve (35), the bottom of the glue removing barrel (31) is provided with a heating device, the right side of the fixed baffle (37) is provided with a rotating shaft air inlet (40), and a rotating shaft air outlet (41) is formed in the left side of the fixed baffle (37).

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