CN112622028A - Anhydrous stemming heating agitating unit - Google Patents

Abstract

The invention relates to an anhydrous stemming heating and stirring device, which comprises supporting legs, a heating device and a stirring mechanism, wherein a cross rod is arranged below the inner sides of the supporting legs, the heating device is arranged above the cross rod, a steam heater is arranged in the heating device, a plurality of heating pipes are uniformly arranged in the steam heater from left to right, a steam valve is arranged above each heating pipe, a steam spraying plate is arranged above each heating device, steam spraying pipes are arranged on the left side and the right side above each steam spraying plate, fixing rods are arranged on the left side and the right side of each heating device, the heating device is fixedly connected with the supporting legs through the fixing rods, the stirring mechanism is arranged above the supporting legs, supporting seats are arranged on the left side and the right side above; the invention has the advantages of high stirring efficiency, uniform stirring and mixing, accurate feeding sequence and proportion, uniform heating and stable and reliable work.

Description

Anhydrous stemming heating agitating unit

Technical Field

The invention belongs to the technical field of anhydrous stemming, and particularly relates to an anhydrous stemming heating and stirring device.

Background

The anhydrous stemming is stemming prepared by adopting tar, resin and the like as adhesives, adopting corundum, bauxite, clay, silicon carbide, coke powder and the like as raw materials, grinding the raw materials into powder by a Raymond mill, and adding the powder into a mixing device for mixing, and has the advantages of good operability, good opening performance, high resistance to scouring and erosion of high-temperature flower iron, good volume stability, high refractoriness, certain plasticity and other excellent performances at normal temperature, but in the production process of the anhydrous foam stemming, the quality of the foam is reduced because the feeding and stirring sequence is unreasonable, the stirring and mixing efficiency and the mixing quality are low, the raw materials are not accurately proportioned during stirring, and the heat loss is fast during heating, so that the heating is not uniform; therefore, it is very necessary to provide a waterless stemming heating and stirring device which has high stirring efficiency, uniform stirring and mixing, accurate charging sequence and proportioning, uniform heating and stable and reliable work.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provide the anhydrous stemming heating and stirring device which has the advantages of high stirring efficiency, uniform stirring and mixing, accurate feeding sequence and proportion, uniform heating, and stable and reliable work.

The purpose of the invention is realized as follows: the utility model provides an anhydrous stemming heating agitating unit, it includes landing leg, heating device and rabbling mechanism, the inboard below of landing leg be provided with the horizontal pole, horizontal pole top be provided with heating device, the inside steam heater that is provided with of heating device, steam heater inside evenly be provided with a plurality of heating pipe from a left side to the right side, heating pipe top be provided with the steam valve, heating device top be provided with and spout the vapour board, spout vapour board top left and right sides and all be provided with and spout the vapour pipe, the heating device left and right sides all be provided with the dead lever, heating device pass through dead lever and landing leg fixed connection, landing leg top be provided with rabbling mechanism, rabbling mechanism top left and right sides all be provided with the supporting seat, supporting seat top be provided with loading attachment.

The stirring mechanism comprises a heat insulation layer, a heating layer, a heat conduction layer, a stirring cylinder, a stirring motor, a safety valve, a coupler, a stirring shaft, a first stirrer, a second bearing seat, a stirring outer shaft, a stirring inner shaft, a tensioning plate, a fixing bolt, a tensioning seat, an ejector rod, a top plate, a worm wheel, a mandrel and a worm, wherein the stirring mechanism is sequentially provided with the heat insulation layer, the heating layer, the heat conduction layer and the stirring cylinder from outside to inside, the stirring motor is arranged in the middle of the upper part of the stirring cylinder, the safety valve is arranged on the left side of the stirring motor, the coupler is arranged above the inner part of the stirring cylinder corresponding to the stirring motor, the stirring shaft is arranged below the coupler, the stirring shaft penetrates through the coupler and is connected with the stirring, the stirring in axle top evenly be provided with six tensioning plates, tensioning plate top outside all be provided with two fixing bolt, tensioning plate outside middle part all be provided with the tensioning seat, the tensioning seat pass through fixing bolt and tensioning plate fixed connection, the tensioning seat outside all be provided with the ejector pin, the ejector pin outside all be provided with the roof, the ejector pin inboard all be provided with the worm, the stirring in the axle inside be provided with the worm wheel, the inside dabber that is provided with of worm wheel, dabber and coupling joint, (mixing) shaft top be provided with first agitator, first agitator below be provided with the second agitator, (mixing) shaft bottom be provided with the second bearing seat.

The feeding device comprises a driving motor, a driving shaft, a feeding cylinder, a spiral feeder, a first bearing seat, a sealing cover, a discharging opening, a discharging valve, a discharging expansion pipe, a discharging pipe, a feeding hole, a feeding pipe, a support, a feeding hopper, a cover plate, a weight reporter, a weight sensor and a feeding valve, wherein the driving motor is arranged on the left side of the feeding device, the driving shaft is arranged on the right side of the driving motor, the feeding cylinder is arranged on the right side of the driving shaft, the spiral feeder is arranged in the feeding cylinder, the driving motor is connected with the spiral feeder through the driving shaft, the first bearing seat is arranged on the right side of the spiral feeder, the sealing cover is arranged on the right side of the feeding cylinder, the discharging opening is arranged below the right side of the feeding cylinder, the discharging valve is arranged below the discharging opening, the discharging expansion pipe is arranged below the discharging valve, the unloading inflation pipe below be provided with the unloading pipe, conveying cylinder top be provided with the feed inlet, the feed inlet periphery evenly be provided with eight feed valves, the feed valve outside all be provided with the inlet pipe, inlet pipe below all be provided with the support, inlet pipe top all be provided with the feeding funnel, feeding funnel top all be provided with the apron, the feeding funnel in front all be provided with the weight report ware, the feeding funnel inside all be provided with the weight inductor.

The feeding device is communicated with a mixing drum of the mixing mechanism through a discharging pipe, and the heating device is communicated with a heating layer of the mixing mechanism through a steam spraying plate and a steam spraying pipe.

The blanking expansion pipe is of an arc-shaped structure, and the feeding pipe and the support are both of a fillet L-shaped structure.

The first stirrer is of an anchor structure, the second stirrer is of a paddle structure, and the tensioning plate is of a petal-like structure.

The worm wheel and the worm are meshed with each other.

The invention has the beneficial effects that: the invention adopts a feeding device, eight feeding pipes and feeding hoppers are respectively arranged above the feeding device, when the device is used, various raw materials for producing the waterless mud foam can be simultaneously and respectively fed into the corresponding feeding hoppers, a weight sensor in the device weighs the raw materials required according to the proportion, and the weight is broadcasted through a weight broadcaster, so that the proportion of each raw material is more accurate, then corresponding feeding valves are sequentially opened according to the feeding sequence of the corresponding raw materials, the raw materials enter a feeding barrel through the feeding holes, a driving motor drives a spiral feeder to rotate through a driving shaft, and the raw materials are sequentially fed into a stirring barrel through a discharging pipe by the spiral feeder; the invention adopts a stirring mechanism and a heating device, when all raw materials enter a stirring barrel according to the feeding sequence, a stirring motor drives a first stirrer and a second stirrer to rotate through a stirring shaft to stir the materials, the first stirrer adopts an anchor structure, the second stirrer adopts a paddle structure, the materials can be fully stirred, the stirring quality and the stirring efficiency are greatly improved, the materials are stirred and mixed more uniformly, a steam heater of the heating device starts to work during stirring, a heating layer of the stirring mechanism is heated through a steam jet plate and a steam jet pipe, the steam jet pipe heats the lower part of the heating layer, the steam jet pipe heats two sides above the heating layer, then the stirring barrel is heated through a heat conduction layer, the heating shaft is more uniformly heated, the stirring shaft comprises a stirring outer shaft and a stirring inner shaft, and a core shaft inside the stirring inner shaft is connected with a coupler, firstly, a coupler is rotated, the coupler drives a worm wheel to rotate through a mandrel, the worm wheel enables an ejector rod and a top plate to be unfolded outwards through a worm, so that a stirring inner shaft and a stirring outer shaft are fixed more tightly and firmly, the risks of deformation and shaft breakage of a stirring shaft are greatly reduced in the stirring process, and the stirring mechanism works more stably and reliably; the invention has the advantages of high stirring efficiency, uniform stirring and mixing, accurate feeding sequence and proportion, uniform heating and stable and reliable work.

Drawings

Fig. 1 is a front view of an anhydrous stemming heating and stirring device of the invention.

Fig. 2 is a schematic diagram of the internal structure of the anhydrous stemming heating and stirring device of the invention.

Fig. 3 is a schematic structural diagram of a feeding device of the anhydrous stemming heating and stirring device.

Fig. 4 is a top view of a feed inlet of the anhydrous stemming heating stirring device.

Fig. 5 is a schematic structural diagram of a stirring mechanism of the anhydrous stemming heating and stirring device of the invention.

Fig. 6 is a first plan view of the cross section of the stirring shaft of the anhydrous stemming heating stirring device.

Fig. 7 is a second plan view of the cross section of the stirring shaft of the anhydrous stemming heating stirring device of the invention.

Fig. 8 is a schematic structural diagram of a heating device of the anhydrous stemming heating and stirring device of the invention.

In the figure: 1. the device comprises supporting legs 2, a cross rod 3, a heating device 4, a fixing rod 5, a stirring mechanism 6, a supporting seat 7, a feeding device 8, a driving motor 9, a driving shaft 10, a conveying cylinder 11, a spiral conveyor 12, a first bearing seat 13, a sealing cover 14, a discharging opening 15, a discharging valve 16, a discharging expansion pipe 17, a discharging pipe 18, a feeding opening 19, a feeding pipe 20, a support 21, a feeding hopper 22, a cover plate 23, a weight broadcaster 24, a weight sensor 25, a feeding valve 26, a heat insulation layer 27, a heat insulation layer 28, a heat conduction layer 30, a heating layer 31, a stirring cylinder 32, a stirring motor 33, a safety valve 34, a coupling 35, a stirring shaft 36, a first stirrer 37, a second stirrer 38, a second bearing seat 39, a stirring outer shaft 40, a stirring inner shaft 41, a, The steam heating device comprises a fixing bolt 43, a tensioning seat 44, a mandril 45, a top plate 46, a worm wheel 47, a mandrel 48, a worm 49, a steam heater 50, a heating pipe 51, a steam valve 52, a steam jet plate 53 and a steam jet pipe.

Detailed Description

The invention is further described below with reference to the accompanying drawings.

Example 1

As shown in fig. 1-8, an anhydrous stemming heating and stirring device comprises a supporting leg 1, a heating device 3 and a stirring mechanism 5, wherein a cross rod 2 is arranged below the inner side of the supporting leg 1, the heating device 3 is arranged above the cross rod 2, a steam heater 49 is arranged inside the heating device 3, a plurality of heating pipes 50 are uniformly arranged inside the steam heater 49 from left to right, a steam valve 51 is arranged above the heating pipe 50, a steam jet plate 52 is arranged above the heating device 3, steam jet pipes 53 are arranged on the left side and the right side above the steam jet plate 52, fixing rods 4 are arranged on the left side and the right side of the heating device 3, the heating device 3 is fixedly connected with the supporting leg 1 through the fixing rods 4, the stirring mechanism 5 is arranged above the supporting leg 1, and supporting seats 6 are arranged on the left side and the right side above the stirring mechanism 5, and a feeding device 7 is arranged above the supporting seat 6.

As shown in fig. 5-7, the stirring mechanism 5 includes a heat insulating layer 26, a heat insulating layer 27, a heating layer 28, a heat conducting layer 30, a stirring drum 31, a stirring motor 32, a safety valve 33, a coupler 34, a stirring shaft 35, a first stirrer 36, a second stirrer 37, a second bearing block 38, a stirring outer shaft 39, a stirring inner shaft 40, a tension plate 41, a fixing bolt 42, a tension seat 43, a top rod 44, a top plate 45, a worm gear 46, a core shaft 47 and a worm 48, the stirring mechanism 5 is provided with the heat insulating layer 26, the heat insulating layer 27, the heating layer 28, the heat conducting layer 30 and the stirring drum 31 in sequence from outside to inside, the stirring motor 32 is provided in the middle above the stirring drum 31, the safety valve 33 is provided on the left side of the stirring motor 32, the coupler 34 is provided above the inside of the stirring drum 31 corresponding to the stirring motor 32, the stirring shaft 35 runs through the coupler 34 and is connected with the stirring motor 32, the outer stirring shaft 39 is arranged outside the stirring shaft 35, the inner stirring shaft 40 is arranged inside the outer stirring shaft 39, six tensioning plates 41 are uniformly arranged above the inner stirring shaft 40, two fixing bolts 42 are arranged outside the tensioning plates 41, a tensioning seat 43 is arranged in the middle of the outer side of each tensioning plate 41, the tensioning seat 43 is fixedly connected with the tensioning plates 41 through the fixing bolts 42, a mandril 44 is arranged outside the tensioning seat 43, a top plate 45 is arranged outside the mandril 44, a worm 48 is arranged inside the mandril 44, a worm wheel 46 is arranged inside the inner stirring shaft 40, a mandrel 47 is arranged inside the worm wheel 46, the mandrel 47 is connected with the coupler 34, and a first stirrer 36 is arranged above the stirring shaft 35, a second stirrer 37 is arranged below the first stirrer 36, and a second bearing seat 38 is arranged at the bottom of the stirring shaft 35.

As shown in fig. 3-4, the feeding device 7 includes a driving motor 8, a driving shaft 9, a feeding cylinder 10, a spiral feeder 11, a first bearing seat 12, a sealing cover 13, a discharge opening 14, a discharge valve 15, a discharge expansion pipe 16, a discharge pipe 17, a feed inlet 18, a feed pipe 19, a support 20, a feeding hopper 21, a cover plate 22, a weight reporter 23, a weight sensor 24 and a feed valve 25, the left side of the feeding device 7 is provided with the driving motor 8, the right side of the driving motor 8 is provided with the driving shaft 9, the right side of the driving shaft 9 is provided with the feeding cylinder 10, the inside of the feeding cylinder 10 is provided with the spiral feeder 11, the driving motor 8 is connected with the spiral feeder 11 through the driving shaft 9, the right side of the spiral feeder 11 is provided with the first bearing seat 12, the right side of the feeding cylinder 10 is provided with the sealing cover 13, the right side of the feeding cylinder 10 is provided with the discharge opening 14, 14 below of feed opening be provided with unloading valve 15, 15 below of unloading valve be provided with unloading expansion pipe 16, 16 below of unloading expansion pipe be provided with unloading pipe 17, conveying cylinder 10 top be provided with feed inlet 18, 18 peripheries of feed inlet evenly be provided with eight feed valves 25, the 25 outside of feed valve all be provided with inlet pipe 19, 19 below of inlet pipe all be provided with support 20, 19 top of inlet pipe all be provided with feeding funnel 21, 21 tops of feeding funnel all be provided with apron 22, feeding funnel 21 preceding all be provided with weight broadcast ware 23, 21 inside all be provided with weight inductor 24 of feeding funnel.

The invention adopts the feeding device 7, eight feeding pipes 19 and eight feeding hoppers 21 are respectively arranged above the feeding device 7, when in use, various raw materials for producing the waterless mud foam can be simultaneously and respectively fed into the corresponding feeding hoppers 21, the weight sensor 24 in the feeding device weighs the raw materials required according to the proportion, and the weight is broadcasted through the weight broadcaster 23, so that the proportion of each raw material is more accurate, then the corresponding feeding valves 25 are sequentially opened according to the feeding sequence of the corresponding raw materials, the raw materials enter the material conveying cylinder 10 through the feeding hole 18, the driving motor 8 drives the spiral material conveyor 11 to rotate through the driving shaft 9, and the raw materials are sequentially fed into the stirring cylinder 31 through the discharging pipe 17 by the spiral material conveyor 11; the invention adopts the stirring mechanism 5 and the heating device 3, after all raw materials enter the stirring barrel 31 according to the adding sequence, the stirring motor 32 drives the first stirrer 36 and the second stirrer 37 to rotate through the stirring shaft 35 to stir the materials, the first stirrer 36 adopts an anchor structure, the second stirrer 37 adopts a paddle structure, the materials can be fully stirred, the stirring quality and the stirring efficiency are greatly improved, the materials are stirred and mixed more uniformly, the steam heater 49 of the heating device 3 starts to work during the stirring, the heating layer 28 of the stirring mechanism 5 is heated through the steam spraying plate 52 and the steam spraying pipe 53, the steam spraying plate 52 heats the lower part of the heating layer 28, the steam spraying pipe 53 heats the two sides above the heating layer 28, then the stirring barrel 31 is heated through the heat conducting layer 30, the heating is more uniform, the stirring shaft 35 comprises the stirring outer shaft 39 and the stirring inner shaft 40, the spindle 47 in the stirring inner shaft 40 is connected with the coupler 34, firstly, the coupler 34 is rotated, the coupler 34 drives the worm wheel 46 to rotate through the spindle 47, the worm wheel 46 enables the ejector rod 44 and the top plate 45 to be unfolded outwards through the worm 48, so that the stirring inner shaft 40 and the stirring outer shaft 39 are fixed more tightly and firmly, in the stirring process, the risks of deformation and shaft breakage of the stirring shaft 35 are greatly reduced, and the stirring mechanism 5 is enabled to work more stably and reliably; the invention has the advantages of high stirring efficiency, uniform stirring and mixing, accurate feeding sequence and proportion, uniform heating and stable and reliable work.

Example 2

As shown in fig. 1-8, an anhydrous stemming heating and stirring device comprises a supporting leg 1, a heating device 3 and a stirring mechanism 5, wherein a cross rod 2 is arranged below the inner side of the supporting leg 1, the heating device 3 is arranged above the cross rod 2, a steam heater 49 is arranged inside the heating device 3, a plurality of heating pipes 50 are uniformly arranged inside the steam heater 49 from left to right, a steam valve 51 is arranged above the heating pipe 50, a steam jet plate 52 is arranged above the heating device 3, steam jet pipes 53 are arranged on the left side and the right side above the steam jet plate 52, fixing rods 4 are arranged on the left side and the right side of the heating device 3, the heating device 3 is fixedly connected with the supporting leg 1 through the fixing rods 4, the stirring mechanism 5 is arranged above the supporting leg 1, and supporting seats 6 are arranged on the left side and the right side above the stirring mechanism 5, and a feeding device 7 is arranged above the supporting seat 6.

As shown in fig. 5-7, the stirring mechanism 5 includes a heat insulating layer 26, a heat insulating layer 27, a heating layer 28, a heat conducting layer 30, a stirring drum 31, a stirring motor 32, a safety valve 33, a coupler 34, a stirring shaft 35, a first stirrer 36, a second stirrer 37, a second bearing block 38, a stirring outer shaft 39, a stirring inner shaft 40, a tension plate 41, a fixing bolt 42, a tension seat 43, a top rod 44, a top plate 45, a worm gear 46, a core shaft 47 and a worm 48, the stirring mechanism 5 is provided with the heat insulating layer 26, the heat insulating layer 27, the heating layer 28, the heat conducting layer 30 and the stirring drum 31 in sequence from outside to inside, the stirring motor 32 is provided in the middle above the stirring drum 31, the safety valve 33 is provided on the left side of the stirring motor 32, the coupler 34 is provided above the inside of the stirring drum 31 corresponding to the stirring motor 32, the stirring shaft 35 runs through the coupler 34 and is connected with the stirring motor 32, the outer stirring shaft 39 is arranged outside the stirring shaft 35, the inner stirring shaft 40 is arranged inside the outer stirring shaft 39, six tensioning plates 41 are uniformly arranged above the inner stirring shaft 40, two fixing bolts 42 are arranged outside the tensioning plates 41, a tensioning seat 43 is arranged in the middle of the outer side of each tensioning plate 41, the tensioning seat 43 is fixedly connected with the tensioning plates 41 through the fixing bolts 42, a mandril 44 is arranged outside the tensioning seat 43, a top plate 45 is arranged outside the mandril 44, a worm 48 is arranged inside the mandril 44, a worm wheel 46 is arranged inside the inner stirring shaft 40, a mandrel 47 is arranged inside the worm wheel 46, the mandrel 47 is connected with the coupler 34, and a first stirrer 36 is arranged above the stirring shaft 35, a second stirrer 37 is arranged below the first stirrer 36, and a second bearing seat 38 is arranged at the bottom of the stirring shaft 35.

As shown in fig. 3-4, the feeding device 7 includes a driving motor 8, a driving shaft 9, a feeding cylinder 10, a spiral feeder 11, a first bearing seat 12, a sealing cover 13, a discharge opening 14, a discharge valve 15, a discharge expansion pipe 16, a discharge pipe 17, a feed inlet 18, a feed pipe 19, a support 20, a feeding hopper 21, a cover plate 22, a weight reporter 23, a weight sensor 24 and a feed valve 25, the left side of the feeding device 7 is provided with the driving motor 8, the right side of the driving motor 8 is provided with the driving shaft 9, the right side of the driving shaft 9 is provided with the feeding cylinder 10, the inside of the feeding cylinder 10 is provided with the spiral feeder 11, the driving motor 8 is connected with the spiral feeder 11 through the driving shaft 9, the right side of the spiral feeder 11 is provided with the first bearing seat 12, the right side of the feeding cylinder 10 is provided with the sealing cover 13, the right side of the feeding cylinder 10 is provided with the discharge opening 14, 14 below of feed opening be provided with unloading valve 15, 15 below of unloading valve be provided with unloading expansion pipe 16, 16 below of unloading expansion pipe be provided with unloading pipe 17, conveying cylinder 10 top be provided with feed inlet 18, 18 peripheries of feed inlet evenly be provided with eight feed valves 25, the 25 outside of feed valve all be provided with inlet pipe 19, 19 below of inlet pipe all be provided with support 20, 19 top of inlet pipe all be provided with feeding funnel 21, 21 tops of feeding funnel all be provided with apron 22, feeding funnel 21 preceding all be provided with weight broadcast ware 23, 21 inside all be provided with weight inductor 24 of feeding funnel.

For better effect, the feeding device 7 is communicated with the mixing drum 31 of the mixing mechanism 5 through the discharging pipe 17, and the heating device 3 is communicated with the heating layer 28 of the mixing mechanism 5 through the steam spraying plate 52 and the steam spraying pipe 53.

For better effect, the blanking expansion pipe 16 is of an arc structure, and the feeding pipe 19 and the bracket 20 are both of a round-angle L-shaped structure.

For better effect, the first stirrer 36 is of an anchor structure, the second stirrer 37 is of a paddle structure, and the tensioning plate 41 is of a petal-like structure.

For better results, the worm gear 46 and the worm 48 are intermeshed.

The invention adopts the feeding device 7, eight feeding pipes 19 and eight feeding hoppers 21 are respectively arranged above the feeding device 7, when in use, various raw materials for producing the waterless mud foam can be simultaneously and respectively fed into the corresponding feeding hoppers 21, the weight sensor 24 in the feeding device weighs the raw materials required according to the proportion, and the weight is broadcasted through the weight broadcaster 23, so that the proportion of each raw material is more accurate, then the corresponding feeding valves 25 are sequentially opened according to the feeding sequence of the corresponding raw materials, the raw materials enter the material conveying cylinder 10 through the feeding hole 18, the driving motor 8 drives the spiral material conveyor 11 to rotate through the driving shaft 9, and the raw materials are sequentially fed into the stirring cylinder 31 through the discharging pipe 17 by the spiral material conveyor 11; the invention adopts the stirring mechanism 5 and the heating device 3, after all raw materials enter the stirring barrel 31 according to the adding sequence, the stirring motor 32 drives the first stirrer 36 and the second stirrer 37 to rotate through the stirring shaft 35 to stir the materials, the first stirrer 36 adopts an anchor structure, the second stirrer 37 adopts a paddle structure, the materials can be fully stirred, the stirring quality and the stirring efficiency are greatly improved, the materials are stirred and mixed more uniformly, the steam heater 49 of the heating device 3 starts to work during the stirring, the heating layer 28 of the stirring mechanism 5 is heated through the steam spraying plate 52 and the steam spraying pipe 53, the steam spraying plate 52 heats the lower part of the heating layer 28, the steam spraying pipe 53 heats the two sides above the heating layer 28, then the stirring barrel 31 is heated through the heat conducting layer 30, the heating is more uniform, the stirring shaft 35 comprises the stirring outer shaft 39 and the stirring inner shaft 40, the spindle 47 in the stirring inner shaft 40 is connected with the coupler 34, firstly, the coupler 34 is rotated, the coupler 34 drives the worm wheel 46 to rotate through the spindle 47, the worm wheel 46 enables the ejector rod 44 and the top plate 45 to be unfolded outwards through the worm 48, so that the stirring inner shaft 40 and the stirring outer shaft 39 are fixed more tightly and firmly, in the stirring process, the risks of deformation and shaft breakage of the stirring shaft 35 are greatly reduced, and the stirring mechanism 5 is enabled to work more stably and reliably; the invention has the advantages of high stirring efficiency, uniform stirring and mixing, accurate feeding sequence and proportion, uniform heating and stable and reliable work.

Claims (7)

1. The utility model provides an anhydrous stemming heating agitating unit, it includes landing leg, heating device and rabbling mechanism, its characterized in that: the inboard below of landing leg be provided with the horizontal pole, horizontal pole top be provided with heating device, the inside steam heater that is provided with of heating device, steam heater inside evenly be provided with a plurality of heating pipe from a left side to the right side, heating pipe top be provided with the steam valve, heating device top be provided with and spout the vapour board, the vapour board top left and right sides all be provided with and spout the vapour pipe, the heating device left and right sides all be provided with the dead lever, heating device pass through dead lever and landing leg fixed connection, landing leg top be provided with rabbling mechanism, rabbling mechanism top left and right sides all be provided with the supporting seat, supporting seat top be provided with loading attachment.

2. The anhydrous stemming heating and stirring device according to claim 1, wherein: the stirring mechanism comprises a heat insulation layer, a heating layer, a heat conduction layer, a stirring cylinder, a stirring motor, a safety valve, a coupler, a stirring shaft, a first stirrer, a second bearing seat, a stirring outer shaft, a stirring inner shaft, a tensioning plate, a fixing bolt, a tensioning seat, an ejector rod, a top plate, a worm wheel, a mandrel and a worm, wherein the stirring mechanism is sequentially provided with the heat insulation layer, the heating layer, the heat conduction layer and the stirring cylinder from outside to inside, the stirring motor is arranged in the middle of the upper part of the stirring cylinder, the safety valve is arranged on the left side of the stirring motor, the coupler is arranged above the inner part of the stirring cylinder corresponding to the stirring motor, the stirring shaft is arranged below the coupler, the stirring shaft penetrates through the coupler and is connected with the stirring, the stirring in axle top evenly be provided with six tensioning plates, tensioning plate top outside all be provided with two fixing bolt, tensioning plate outside middle part all be provided with the tensioning seat, the tensioning seat pass through fixing bolt and tensioning plate fixed connection, the tensioning seat outside all be provided with the ejector pin, the ejector pin outside all be provided with the roof, the ejector pin inboard all be provided with the worm, the stirring in the axle inside be provided with the worm wheel, the inside dabber that is provided with of worm wheel, dabber and coupling joint, (mixing) shaft top be provided with first agitator, first agitator below be provided with the second agitator, (mixing) shaft bottom be provided with the second bearing seat.

3. The anhydrous stemming heating and stirring device according to claim 1, wherein: the feeding device comprises a driving motor, a driving shaft, a feeding cylinder, a spiral feeder, a first bearing seat, a sealing cover, a discharging opening, a discharging valve, a discharging expansion pipe, a discharging pipe, a feeding hole, a feeding pipe, a support, a feeding hopper, a cover plate, a weight reporter, a weight sensor and a feeding valve, wherein the driving motor is arranged on the left side of the feeding device, the driving shaft is arranged on the right side of the driving motor, the feeding cylinder is arranged on the right side of the driving shaft, the spiral feeder is arranged in the feeding cylinder, the driving motor is connected with the spiral feeder through the driving shaft, the first bearing seat is arranged on the right side of the spiral feeder, the sealing cover is arranged on the right side of the feeding cylinder, the discharging opening is arranged below the right side of the feeding cylinder, the discharging valve is arranged below the discharging opening, the discharging expansion pipe is arranged below the discharging valve, the unloading inflation pipe below be provided with the unloading pipe, conveying cylinder top be provided with the feed inlet, the feed inlet periphery evenly be provided with eight feed valves, the feed valve outside all be provided with the inlet pipe, inlet pipe below all be provided with the support, inlet pipe top all be provided with the feeding funnel, feeding funnel top all be provided with the apron, the feeding funnel in front all be provided with the weight report ware, the feeding funnel inside all be provided with the weight inductor.

4. The anhydrous stemming heating stirring apparatus as set forth in claim 1, 2 or 3, wherein: the feeding device is communicated with a mixing drum of the mixing mechanism through a discharging pipe, and the heating device is communicated with a heating layer of the mixing mechanism through a steam spraying plate and a steam spraying pipe.

5. The anhydrous stemming heating stirring device according to claim 3, wherein: the blanking expansion pipe is of an arc-shaped structure, and the feeding pipe and the support are both of a fillet L-shaped structure.

6. The anhydrous stemming heating and stirring device according to claim 2, wherein: the first stirrer is of an anchor structure, the second stirrer is of a paddle structure, and the tensioning plate is of a petal-like structure.

7. The anhydrous stemming heating and stirring device according to claim 2, wherein: the worm wheel and the worm are meshed with each other.

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