CN204830884U - Distributing device and set up distributing device's hot stove in ore deposit - Google Patents

Abstract

The utility model provides a set up distributing device's the hot stove in ore deposit, includes the furnace body, sets up mount and distributing device at the furnace body top, distributing device includes universal rotary joint, block joint, reinforced chute, power -driven rotation mechanism, hydraulic pressure jolt mechanism, distributing device is under the drive of motor, and the reinforced chute of ore material unloading not only can come and go the rotation in the horizontal plane to it trickles down in the reinforced sector area of chute in the furnace body to realize the material, distributing device is under the drive of pneumatic cylinder, and the reinforced chute of ore material unloading can also use the axis of rotation as the back shaft, drives the lower extreme jigging of chute when the motion is stretched, is contracted to the hydraulic pressure cylinder end to realizing that the material is unrestrained along the diameter of chute in the furnace body, adopting dual drive like this, make material the trickling down in the furnace body of homodisperse through reinforced chute the time, even, stable, thoroughly in order to guarantee that the reaction is smelted to the material, the article rate of the product that obtains is also more stable. The utility model provides a distributing device.

Description

Distribution device and the mineral hot furnace of distribution device is set

Technical field

The utility model relates to mineral hot furnace metallurgical technology field, particularly relates to a kind of distribution device and arranges the mineral hot furnace of distribution device.

Background technology

Mineral hot furnace is a kind of highly energy-consuming equipment being used for the industrial primary product such as ferroalloy smelting class and calcium carbide, during the materials such as mineral hot furnace melting ore, need first material to be sent into furnace interior, in prior art, material enters furnace interior through three fixing material input channels, execute-in-place work uses the instrument of long pick and so on to go deep in body of heater from the form of body of heater, promotes material to make material be arranged in stove uniformly and to make the consistency of thickness of material of each position in stove.

But, there is following problem in aforesaid operations mode: because temperature in furnace is very high, the safety of stokehold being stirred to the execute-in-place work of material causes very large threat, and the artificial material efficiencies that promotes is lower and cannot ensure the stability that material is evenly arranged, and then affects efficiency.

Summary of the invention

Be necessary to propose a kind of distribution device that material can be evenly arranged in mineral hot furnace.

There is a need to propose a kind of mineral hot furnace arranging distribution device.

A kind of distribution device comprises Universal rotary connector, snap fit joint, charging chute, electronic rotation mechanism, hydraulic pressure jolt mechanism, the center of described Universal rotary connector is offered and is added material through hole, adding material through hole and being fixed with described Universal rotary connector of described Universal rotary connector, is inserted in the lower end of described snap fit joint, described Universal rotary connector can relatively rotate relative to described snap fit joint, the center of described snap fit joint is also offered and is added the through through hole of material through hole with described, the end face of the upper end of described snap fit joint is arranged suspension screw, the bottom of Universal rotary connector is relative with described charging chute fixing, described charging chute just adds material through hole to described, passing through to add material through hole to make material is slipped on charging chute, the bottom of described charging chute and Universal rotary connector can relatively rotate, described electronic rotation mechanism is connected with Universal rotary connector, come and go in horizontal plane to be driven Universal rotary connector and charging chute by the rotation of electronic rotation mechanism and rotate, described hydraulic pressure jolt mechanism is fixed on Universal rotary connector and is also connected with described charging chute through Universal rotary connector, to drive described charging chute to move up and down relative to the bottom of Universal rotary connector by moving up and down of hydraulic pressure jolt mechanism, and then realize the material action of winnowing with a dustpan of described charging chute.

Preferably, described Universal rotary connector comprises benchmark chassis, from the engaging cylinder that the upper surface on benchmark chassis upwards extends to form, from the stationary cylinder that the lower surface on benchmark chassis extends to form downwards, at described engaging cylinder, benchmark chassis, what up/down perforation was offered in the center of stationary cylinder adds material through hole, the cylindrical diameter of described engaging is less than the diameter on benchmark chassis, engage cylindrical upper surface to stretch out to form engaging boss in horizontal plane, to be connected with described snap fit joint by engaging boss, and engage cylinder can relatively rotate relative to snap fit joint, described stationary cylinder is positioned at the bottom on described benchmark chassis, the diameter of described stationary cylinder is less than the diameter on benchmark chassis, one section of minor arc sidewall of described stationary cylinder stretches out to the direction in the center of circle away from stationary cylinder formation protuberance, described protuberance offers fixed via along horizontal direction, to be coordinated by fixed via and rotating shaft to make described charging chute relative fixing with the described protuberance of described stationary cylinder, and charging chute can relatively rotate relative to the protuberance of described stationary cylinder.

Preferably, the center of described snap fit joint is offered and is added the through through hole of material through hole with described, what described Universal rotary connector was inserted in the lower end of described snap fit joint adds material through hole, the outer wall of described snap fit joint is arranged the engaging groove matched with the cylindrical engaging boss of described engaging, in the mode by described engaging boss and described engaging fit depressions by relative with snap fit joint for Universal rotary connector fixing, and the engaging boss of described Universal rotary connector circumferentially can relatively rotate in horizontal plane relative to the engaging groove of snap fit joint, circumferentially relatively rotate in horizontal plane relative to snap fit joint to enable Universal rotary connector, the end face of the upper end of described snap fit joint is arranged suspension screw, snap fit joint is hung fixing by screw screw rod fixed form.

Preferably, described charging chute is the elongated detent of a both ends open, the bottom land of described elongated detent adds material through hole just to described Universal rotary connector, passing through to add material through hole to make material is slipped on charging chute, the bottom land at the upper end open place of described elongated detent extends upwardly to and contacts with the lower surface on benchmark chassis, the sidewall of the bottom land at upper end open place arranges Connection Block, for being connected with hydraulic pressure jolt mechanism, two ledges at described upper end open place offer cooperation through hole, fixed via on the protuberance of described cooperation through hole and described Universal rotary connector faces, a turning cylinder is inserted and coordinates through hole and fixed via, rotate relative to Universal rotary connector to enable charging chute, the lower ending opening of described elongated detent extend into furnace interior, furnace interior is entered from lower ending opening landing to make material.

Preferably, the gear that described electronic rotation mechanism comprises motor and is connected with the turning cylinder of motor, the edge of the upper surface on described benchmark chassis is fixedly installed one section of tooth bar, tooth bar engagement fit on described gear and benchmark chassis, the gear driven tooth bar rotated comes and goes rotation along the rotation direction of gear, and then comes and goes rotation by rack drives benchmark chassis and charging chute.

Preferably, described hydraulic pressure jolt mechanism comprises hydraulic cylinder, the upper surface that described hydraulic cylinder is vertically fixedly installed on benchmark chassis keeps to the side place, cylinder head through hole is offered in the position that described benchmark chassis and hydraulic cylinder face, hydraulic pressure cylinder head stretches out from the bottom of hydraulic cylinder and passes described cylinder head through hole to the Connection Block of the bottom land with charging chute and is fixedly connected with, with by hydraulic pressure cylinder head stretch, motion of contracting drives charging chute to coordinate the turning cylinder of through hole and fixed via insertion for rotating shaft jigging.

A kind of mineral hot furnace that distribution device is set, comprise body of heater, be arranged on fixed mount and the distribution device at body of heater top, described body of heater is the closed container that inside arranges cavity, the sidewall of body of heater offers action pane, nested through hole is offered at the top of described body of heater, the inner space of described nested through hole and body of heater, the described diameter of nested through hole and the diameter of distribution device match, the lower end of distribution device to be inserted in described nested through hole and can rotate relative to body of heater top in nested through hole, described fixed mount is made up of with the crossbeam on top and the jointing be fixed on crossbeam being connected two vertical racks two vertical racks, described jointing is fixedly installed on the centre of described crossbeam, described jointing is a hollow cylinder vertically arranged, the upper shed of described hollow cylinder is used for being connected with material input channel, for the input of material, the end face of the under shed of described hollow cylinder arranges connecting screw hole, described connecting screw hole is used for facing with the suspension screw of the snap fit joint of described distribution device, jointing is fixedly connected with distribution device by screw screw rod fixed form, distribution device is entered through jointing to make the material of input, two described vertical racks are welded on the top of body of heater along the diametric(al) of nested through hole, using the Gravity support of the distribution device be fixedly connected with on crossbeam and crossbeam, described distribution device comprises Universal rotary connector, snap fit joint, charging chute, electronic rotation mechanism, hydraulic pressure jolt mechanism, the center of described Universal rotary connector is offered and is added material through hole, adding material through hole and being fixed with described Universal rotary connector of described Universal rotary connector, is inserted in the lower end of described snap fit joint, described Universal rotary connector can relatively rotate relative to described in snap fit joint, the center of described snap fit joint is also offered and is added the through through hole of material through hole with described, the end face of the upper end of described snap fit joint is arranged suspension screw, the connecting screw hole of the jointing of described suspension screw and described fixed mount faces, and by screw screw rod fixed form by relative with the jointing of described fixed mount for snap fit joint fixing, the bottom of Universal rotary connector is relative with described charging chute fixing, described charging chute just adds material through hole to described, passing through to add material through hole to make material is slipped on charging chute, the bottom of described charging chute and Universal rotary connector can relatively rotate, described electronic rotation mechanism is connected with Universal rotary connector, come and go in horizontal plane to be driven Universal rotary connector and charging chute by the rotation of electronic rotation mechanism and rotate, described hydraulic pressure jolt mechanism is fixed on Universal rotary connector and is also connected with described charging chute through Universal rotary connector, to drive described charging chute to move up and down relative to the bottom of Universal rotary connector by moving up and down of hydraulic pressure jolt mechanism, and then realize the material action of winnowing with a dustpan of described charging chute.

Preferably, described Universal rotary connector comprises benchmark chassis, from the engaging cylinder that the upper surface on benchmark chassis upwards extends to form, from the stationary cylinder that the lower surface on benchmark chassis extends to form downwards, the diameter on described benchmark chassis matches with the diameter of the nested through hole at described body of heater top, the benchmark chassis of described distribution device to be inserted in described nested through hole and can rotate relative to body of heater top in nested through hole, at described engaging cylinder, benchmark chassis, what up/down perforation was offered in the center of stationary cylinder adds material through hole, the cylindrical diameter of described engaging is less than the diameter on benchmark chassis, engage cylindrical upper surface to stretch out to form engaging boss in horizontal plane, to be connected with described snap fit joint by engaging boss, and engage cylinder can relatively rotate relative to snap fit joint, described stationary cylinder is positioned at the bottom on described benchmark chassis, the diameter of described stationary cylinder is less than the diameter on benchmark chassis, one section of minor arc sidewall of described stationary cylinder stretches out to the direction in the center of circle away from stationary cylinder formation protuberance, described protuberance offers fixed via along horizontal direction, with relative with described charging chute fixing by fixed via, and charging chute can relatively rotate relative to the protuberance of described stationary cylinder.

Preferably, the top of described body of heater arranges the boss raised up, the inner chamber of described boss and the inner space of body of heater, nested through hole is offered in the center of the upper surface of described boss, the diameter on the diameter of described nested through hole and the benchmark chassis of distribution device matches, the benchmark chassis of distribution device to be inserted in described nested through hole and can rotate relative to body of heater top in nested through hole, described fixed mount is made up of with the crossbeam on top and the jointing be fixed on crossbeam being connected two vertical racks two vertical racks, two described vertical racks are symmetrically welded at the top of the body of heater of described boss both sides, using the Gravity support of the distribution device be fixedly connected with on crossbeam and crossbeam.

Preferably, three nested through holes are offered at the top of described body of heater, described three nested through holes are symmetricly set on the top of body of heater, the lower end of three distribution devices is inserted respectively in described three nested through holes, three fixed mounts are fixed on the top of body of heater respectively along the diametric(al) of three nested through holes, three distribution devices hang fixing, using the Gravity support of the distribution device be fixedly connected with on crossbeam and crossbeam by three described fixed mounts respectively.

Described distribution device is under the drive of motor, the charging chute of ore materials blanking can not only come and go rotation in horizontal plane, unrestrained in the sector region of charging chute in body of heater to realize material, described distribution device drives hydraulic pressure cylinder head to stretch at hydraulic cylinder, contract when moving, the lower end of the charging chute of ore materials blanking is relative to the bottom jigging of Universal rotary connector, trickle down along the diameter of chute in body of heater to realize material, adopt double drive like this, make material after charging chute, be evenly arranged in mineral hot furnace.

Accompanying drawing explanation

Fig. 1 is the structural representation of the mineral hot furnace arranging distribution device.

Fig. 2 is the partial enlarged drawing of Fig. 1.

Fig. 3 is the structural representation of distribution device.

Fig. 4 is the front view of distribution device.

Fig. 5 is the schematic cross-section of Fig. 3 along A-A face.

Fig. 6 is the schematic cross-section of Fig. 3 along B-B face.

Fig. 7 is the structural representation of the Universal rotary connector in distribution device.

In figure: the mineral hot furnace 1 that distribution device is set, body of heater 10, action pane 101, boss 102, fixed mount 20, vertical rack 201, crossbeam 202, jointing 203, connecting screw hole 204, distribution device 30, Universal rotary connector 301, benchmark chassis 3011, engaging cylinder 3012, stationary cylinder 3013, add material through hole 3014, engaging boss 3015, protuberance 3016, fixed via 3017, turning cylinder 3018, cylinder head through hole 3019, snap fit joint 302, engaging groove 3021, hang screw 3022, charging chute 303, elongated detent 3031, bottom land 3032, ledge 3033, upper end open 3034, lower ending opening 3035, Connection Block 3036, electronic rotation mechanism 304, motor 3041, gear 3042, tooth bar 3043, hydraulic pressure jolt mechanism 305, hydraulic cylinder 3051, oral siphon 306, outlet pipe 307, pipe inlet 308, pipe outlet 309, material input channel 40, chimney 50.

Detailed description of the invention

See Fig. 1 to Fig. 7, the mineral hot furnace 1 arranging distribution device comprises body of heater 10, be arranged on fixed mount 20 and the distribution device 30 at body of heater 10 top, body of heater 10 is the inner closed container arranging cavity, the sidewall of body of heater 10 offers action pane 101, nested through hole is offered at the top of body of heater 10, the inner space of nested through hole and body of heater 10, the diameter of nested through hole and the diameter of distribution device 30 match, the lower end of distribution device 30 to be inserted in nested through hole and can rotate relative to body of heater 10 top in nested through hole, fixed mount 20 is made up of with the crossbeam 202 on top and the jointing 203 be fixed on crossbeam 202 being connected two vertical racks 201 two vertical racks 201, jointing 203 is fixedly installed on the centre of crossbeam 202, jointing 203 is a hollow cylinder vertically arranged, the upper shed of hollow cylinder is used for being connected with material input channel 40, for the input of material, the end face of the under shed of hollow cylinder is arranged connecting screw hole 204, connecting screw hole 204 is for being fixedly connected with distribution device 30, distribution device is entered through jointing 203 to make the material of input, two vertical racks 201 are welded on the top of body of heater 10 along the diametric(al) of nested through hole, using the Gravity support of the distribution device 30 be fixedly connected with on crossbeam 202 and crossbeam 202, wherein, distribution device 30 comprises Universal rotary connector 301, snap fit joint 302, charging chute 303, electronic rotation mechanism 304, hydraulic pressure jolt mechanism 305, the center of Universal rotary connector 301 is offered and is added material through hole 3014, adding material through hole 3014 and being fixed with Universal rotary connector 301 of Universal rotary connector 301, is inserted in the lower end of snap fit joint 302, Universal rotary connector 301 can relatively rotate relative to snap fit joint 302, the through hole through with adding material through hole 3014 is also offered in the center of snap fit joint 302, the end face of the upper end of snap fit joint 302 is arranged and hangs screw 3022, hang screw 3022 to face with the connecting screw hole 204 of the jointing 203 of fixed mount 20, and it is by screw screw rod fixed form, snap fit joint 302 is relative fixing with the jointing 203 of fixed mount 20, relative with charging chute 303 fixing in the bottom of Universal rotary connector 301, charging chute 303 is just to adding material through hole 3014, passing through to add material through hole 3014 to make material is slipped on charging chute 303, charging chute 303 can relatively rotate with the bottom of Universal rotary connector 301, the power that electronic rotation mechanism 304 provides Universal rotary connector 301 to rotate, rotated to drive Universal rotary connector 301 and charging chute 303 to come and go in horizontal plane by the rotation of electronic rotation mechanism 304, hydraulic pressure jolt mechanism 305 is fixed on Universal rotary connector 301 and is also connected with charging chute 303 through Universal rotary connector 301, to drive charging chute 303 jigging by moving up and down of hydraulic pressure jolt mechanism 305.

Further, Universal rotary connector 301 comprises benchmark chassis 3011, from the engaging cylinder 3012 that the upper surface on benchmark chassis 3011 upwards extends to form, from the stationary cylinder 3013 that the lower surface on benchmark chassis 3011 extends to form downwards, the diameter on benchmark chassis 3011 matches with the diameter of the nested through hole at body of heater 10 top, the benchmark chassis 3011 of distribution device 30 to be inserted in nested through hole and can rotate relative to body of heater 10 top in nested through hole, at engaging cylinder 3012, benchmark chassis 3011, what up/down perforation was offered in the center of stationary cylinder 3013 adds material through hole 3014, the diameter of engaging cylinder 3012 is less than the diameter on benchmark chassis 3011, the upper surface of engaging cylinder 3012 stretches out to form engaging boss 3015 in horizontal plane, to be connected with snap fit joint 302 by engaging boss 3015, and engage cylinder 3012 can relatively rotate relative to snap fit joint 302, stationary cylinder 3013 is positioned at the bottom on benchmark chassis 3011, engaging boss 3015 has certain thickness, so that the miscellaneous part that Universal rotary connector 301 and upper surface are arranged can be born, the weight of charging chute 303, the diameter of stationary cylinder 3013 is less than the diameter on benchmark chassis 3011, one section of minor arc sidewall of stationary cylinder 3013 stretches out to the direction in the center of circle away from stationary cylinder 3013 and forms protuberance 3016, protuberance 3016 offers fixed via 3017 along horizontal direction, with relative with charging chute 303 fixing by fixed via 3017, and charging chute 303 can relatively rotate relative to the protuberance 3016 of stationary cylinder 3013.

Further, the through hole through with adding material through hole 3014 is offered in the center of snap fit joint 302, what Universal rotary connector 301 was inserted in the lower end of snap fit joint 302 adds material through hole, the outer wall of snap fit joint 302 is arranged the engaging groove 3021 matched with the engaging boss 3015 of engaging cylinder 3012, to make Universal rotary connector 301 relative with snap fit joint 302 fixing, and the engaging boss 3015 of Universal rotary connector 301 circumferentially can relatively rotate in horizontal plane relative to the engaging groove 3021 of snap fit joint 302, circumferentially can relatively rotate in horizontal plane relative to snap fit joint 302 to make Universal rotary connector 301, the end face of the upper end of snap fit joint 302 is arranged and hangs screw 3022, this suspension screw 3022 faces with the connecting screw hole 204 of jointing 203, snap fit joint 302 is hung fixing by screw screw rod fixed form.

Further, charging chute 303 is the elongated detent 3031 of a both ends open, the bottom land 3032 of elongated detent 3031 adds material through hole 3014 just to Universal rotary connector 301, passing through to add material through hole 3014 to make material is slipped on charging chute 303, the bottom land 3032 at upper end open 3034 place of elongated detent 3031 extends upwardly to and contacts with the lower surface on benchmark chassis 3011, the sidewall of the bottom land 3032 at upper end open 3034 place arranges Connection Block 3036, for being connected with hydraulic pressure jolt mechanism 305, two ledges at upper end open 3034 place offer cooperation through hole, the fixed via 3017 on the protuberance 3016 of through hole and Universal rotary connector is coordinated to face, a turning cylinder 3018 is inserted and coordinates through hole and fixed via 3017, can rotate relative to Universal rotary connector 301 to make charging chute 303.

Further, the gear 3042 that electronic rotation mechanism 304 comprises motor 3041 and is connected with the turning cylinder of motor, the edge of the upper surface on benchmark chassis 3011 is fixedly installed one section of tooth bar 3043, gear 3042 and tooth bar 3043 engagement fit on benchmark chassis, the gear 3042 rotated with the rotation direction round rotation of carry-over bar 3043 along gear 3042, and then drives benchmark chassis 3011 and charging chute 303 to come and go rotation by tooth bar 3043.The length of tooth bar 3043 is preferably the half of the circumference on benchmark chassis 3011, motor 3041 is either-rotation motor, motor can change the direction that gear 3042 rotates automatically, in two ends of tooth bar 3043, barrier plate is set, when gear contacts with barrier plate, the direction of rotation of either-rotation motor automatic change gear, along tooth bar counter motion, rotates to realize coming and going.

Further, hydraulic pressure jolt mechanism 305 comprises hydraulic cylinder 3051, the upper surface that hydraulic cylinder 3051 is vertically fixedly installed on benchmark chassis 3011 keeps to the side place, cylinder head through hole 3019 is offered in the position that benchmark chassis 3011 and hydraulic cylinder 3051 face, hydraulic pressure cylinder head stretches out from the bottom of hydraulic cylinder 3051 and passes cylinder head through hole 3019 to the Connection Block 3036 of the bottom land 3032 with charging chute 303 and is fixedly connected with, to be driven charging chute 303 by the stretching of hydraulic pressure cylinder head, motion of contracting with the turning cylinder 3018 coordinating through hole and fixed via and insert for rotating shaft jigging.

In other embodiments, the top of body of heater 10 arranges the boss 102 raised up, the inner chamber of boss 102 and the inner space of body of heater 10, nested through hole is offered in the center of the upper surface of boss 102, the diameter on the diameter of nested through hole and the benchmark chassis 3011 of distribution device 30 matches, the benchmark chassis 3011 of distribution device 30 to be inserted in nested through hole and can rotate relative to body of heater 10 top in nested through hole, fixed mount 20 is made up of with the crossbeam 202 on top and the jointing 203 be fixed on crossbeam 202 being connected two vertical racks 201 two vertical racks 201, two vertical racks 201 are symmetrically welded at the top of the body of heater 10 of boss 102 both sides, using the Gravity support of the distribution device 30 be fixedly connected with on crossbeam 202 and crossbeam.

Further, three nested through holes are offered at the top of body of heater 10, three nested through holes are symmetricly set on the top of body of heater, the lower end of three distribution devices 30 is inserted respectively in three nested through holes, three fixed mounts 20 are fixed on the top of body of heater 10 respectively along the diametric(al) of three nested through holes, three distribution devices 30 hang fixing by three fixed mounts 20 respectively, using the Gravity support of the distribution device 30 be fixedly connected with on crossbeam 202 and crossbeam 202.

Due to the temperatures as high 1800 ° of the furnace interior of mineral hot furnace, to stretching into furnace interior, to rotate the high-temperature damage of distribution device 30 of material of winnowing with a dustpan very serious, in order to extend the service life of distribution device 30, it is necessary for installing heat sink additional to charging chute 303, charging chute 303 is set to double-decker, the passage of reserved cooling water between structure on two sides, two sidewalls at upper end open 3034 place of elongated detent offer cooling water inlet and outlet respectively, the oral siphon 306 of cooling water water pipe is connected with exporting with the cooling water inlet of elongated detent 3031 with pipe outlet 309 respectively with the pipe inlet 308 of outlet pipe 307 through the benchmark chassis of Universal rotary connector, to form the heat sink of charging chute 303, lowered the temperature to charging chute 303 by the cooling water circulated.

When use arranges the mineral hot furnace of distribution device, start motor 3041 and the hydraulic cylinder 3051 of distribution device 30, treat that the material ore of melting enters distribution device 30 along material input channel 40, it is inner that material is evenly scattered body of heater 10, and the flue gas in melting reaction process is discharged from chimney 50.

Claims (10)

1. a distribution device, it is characterized in that: Universal rotary connector, snap fit joint, charging chute, electronic rotation mechanism, hydraulic pressure jolt mechanism, the center of described Universal rotary connector is offered and is added material through hole, adding material through hole and being fixed with described Universal rotary connector of described Universal rotary connector, is inserted in the lower end of described snap fit joint, described Universal rotary connector can relatively rotate relative to described snap fit joint, the center of described snap fit joint is also offered and is added the through through hole of material through hole with described, the end face of the upper end of described snap fit joint is arranged suspension screw, the bottom of Universal rotary connector is relative with described charging chute fixing, described charging chute just adds material through hole to described, passing through to add material through hole to make material is slipped on charging chute, the bottom of described charging chute and Universal rotary connector can relatively rotate, described electronic rotation mechanism is connected with Universal rotary connector, come and go in horizontal plane to be driven Universal rotary connector and charging chute by the rotation of electronic rotation mechanism and rotate, described hydraulic pressure jolt mechanism is fixed on Universal rotary connector and is also connected with described charging chute through Universal rotary connector, to drive described charging chute to move up and down relative to the bottom of Universal rotary connector by moving up and down of hydraulic pressure jolt mechanism, and then realize the material action of winnowing with a dustpan of described charging chute.

2. distribution device as claimed in claim 1, it is characterized in that: described Universal rotary connector comprises benchmark chassis, from the engaging cylinder that the upper surface on benchmark chassis upwards extends to form, from the stationary cylinder that the lower surface on benchmark chassis extends to form downwards, at described engaging cylinder, benchmark chassis, what up/down perforation was offered in the center of stationary cylinder adds material through hole, the cylindrical diameter of described engaging is less than the diameter on benchmark chassis, engage cylindrical upper surface to stretch out to form engaging boss in horizontal plane, to be connected with described snap fit joint by engaging boss, and engage cylinder can relatively rotate relative to snap fit joint, described stationary cylinder is positioned at the bottom on described benchmark chassis, the diameter of described stationary cylinder is less than the diameter on benchmark chassis, one section of minor arc sidewall of described stationary cylinder stretches out to the direction in the center of circle away from stationary cylinder formation protuberance, described protuberance offers fixed via along horizontal direction, to be coordinated by fixed via and rotating shaft to make described charging chute relative fixing with the described protuberance of described stationary cylinder, and charging chute can relatively rotate relative to the protuberance of described stationary cylinder.

3. distribution device as claimed in claim 2, it is characterized in that: the center of described snap fit joint is offered and added the through through hole of material through hole with described, what described Universal rotary connector was inserted in the lower end of described snap fit joint adds material through hole, the outer wall of described snap fit joint is arranged the engaging groove matched with the cylindrical engaging boss of described engaging, in the mode by described engaging boss and described engaging fit depressions by relative with snap fit joint for Universal rotary connector fixing, and the engaging boss of described Universal rotary connector circumferentially can relatively rotate in horizontal plane relative to the engaging groove of snap fit joint, circumferentially relatively rotate in horizontal plane relative to snap fit joint to enable Universal rotary connector, the end face of the upper end of described snap fit joint is arranged suspension screw, snap fit joint is hung fixing by screw screw rod fixed form.

4. distribution device as claimed in claim 2, it is characterized in that: described charging chute is the elongated detent of a both ends open, the bottom land of described elongated detent adds material through hole just to described Universal rotary connector, passing through to add material through hole to make material is slipped on charging chute, the bottom land at the upper end open place of described elongated detent extends upwardly to and contacts with the lower surface on benchmark chassis, the sidewall of the bottom land at upper end open place arranges Connection Block, for being connected with hydraulic pressure jolt mechanism, two ledges at described upper end open place offer cooperation through hole, fixed via on the protuberance of described cooperation through hole and described Universal rotary connector faces, a turning cylinder is inserted and coordinates through hole and fixed via, rotate relative to Universal rotary connector to enable charging chute, the lower ending opening of described elongated detent extend into furnace interior, furnace interior is entered from lower ending opening landing to make material.

5. distribution device as claimed in claim 4, it is characterized in that: the gear that described electronic rotation mechanism comprises motor and is connected with the turning cylinder of motor, the edge of the upper surface on described benchmark chassis is fixedly installed one section of tooth bar, tooth bar engagement fit on described gear and benchmark chassis, the gear driven tooth bar rotated comes and goes rotation along the rotation direction of gear, and then comes and goes rotation by rack drives benchmark chassis and charging chute.

6. distribution device as claimed in claim 4, it is characterized in that: described hydraulic pressure jolt mechanism comprises hydraulic cylinder, the upper surface that described hydraulic cylinder is vertically fixedly installed on benchmark chassis keeps to the side place, cylinder head through hole is offered in the position that described benchmark chassis and hydraulic cylinder face, hydraulic pressure cylinder head stretches out from the bottom of hydraulic cylinder and passes described cylinder head through hole to the Connection Block of the bottom land with charging chute and is fixedly connected with, with by hydraulic pressure cylinder head stretch, motion of contracting drives charging chute to coordinate the turning cylinder of through hole and fixed via insertion for rotating shaft jigging.

7. one kind arranges the mineral hot furnace of distribution device, it is characterized in that: comprise body of heater, be arranged on fixed mount and the distribution device at body of heater top, described body of heater is the closed container that inside arranges cavity, the sidewall of body of heater offers action pane, nested through hole is offered at the top of described body of heater, the inner space of described nested through hole and body of heater, the described diameter of nested through hole and the diameter of distribution device match, the lower end of distribution device to be inserted in described nested through hole and can rotate relative to body of heater top in nested through hole, described fixed mount is made up of with the crossbeam on top and the jointing be fixed on crossbeam being connected two vertical racks two vertical racks, described jointing is fixedly installed on the centre of described crossbeam, described jointing is a hollow cylinder vertically arranged, the upper shed of described hollow cylinder is used for being connected with material input channel, for the input of material, the end face of the under shed of described hollow cylinder arranges connecting screw hole, described connecting screw hole is used for facing with the suspension screw of the snap fit joint of described distribution device, jointing is fixedly connected with distribution device by screw screw rod fixed form, distribution device is entered through jointing to make the material of input, two described vertical racks are welded on the top of body of heater along the diametric(al) of nested through hole, using the Gravity support of the distribution device be fixedly connected with on crossbeam and crossbeam, described distribution device comprises Universal rotary connector, snap fit joint, charging chute, electronic rotation mechanism, hydraulic pressure jolt mechanism, the center of described Universal rotary connector is offered and is added material through hole, adding material through hole and being fixed with described Universal rotary connector of described Universal rotary connector, is inserted in the lower end of described snap fit joint, described Universal rotary connector can relatively rotate relative to described in snap fit joint, the center of described snap fit joint is also offered and is added the through through hole of material through hole with described, the end face of the upper end of described snap fit joint is arranged suspension screw, the connecting screw hole of the jointing of described suspension screw and described fixed mount faces, and by screw screw rod fixed form by relative with the jointing of described fixed mount for snap fit joint fixing, the bottom of Universal rotary connector is relative with described charging chute fixing, described charging chute just adds material through hole to described, passing through to add material through hole to make material is slipped on charging chute, the bottom of described charging chute and Universal rotary connector can relatively rotate, described electronic rotation mechanism is connected with Universal rotary connector, come and go in horizontal plane to be driven Universal rotary connector and charging chute by the rotation of electronic rotation mechanism and rotate, described hydraulic pressure jolt mechanism is fixed on Universal rotary connector and is also connected with described charging chute through Universal rotary connector, to drive described charging chute to move up and down relative to the bottom of Universal rotary connector by moving up and down of hydraulic pressure jolt mechanism, and then realize the material action of winnowing with a dustpan of described charging chute.

8. the mineral hot furnace of distribution device is set as claimed in claim 7, it is characterized in that: described Universal rotary connector comprises benchmark chassis, from the engaging cylinder that the upper surface on benchmark chassis upwards extends to form, from the stationary cylinder that the lower surface on benchmark chassis extends to form downwards, the diameter on described benchmark chassis matches with the diameter of the nested through hole at described body of heater top, the benchmark chassis of described distribution device to be inserted in described nested through hole and can rotate relative to body of heater top in nested through hole, at described engaging cylinder, benchmark chassis, what up/down perforation was offered in the center of stationary cylinder adds material through hole, the cylindrical diameter of described engaging is less than the diameter on benchmark chassis, engage cylindrical upper surface to stretch out to form engaging boss in horizontal plane, to be connected with described snap fit joint by engaging boss, and engage cylinder can relatively rotate relative to snap fit joint, described stationary cylinder is positioned at the bottom on described benchmark chassis, the diameter of described stationary cylinder is less than the diameter on benchmark chassis, one section of minor arc sidewall of described stationary cylinder stretches out to the direction in the center of circle away from stationary cylinder formation protuberance, described protuberance offers fixed via along horizontal direction, with relative with described charging chute fixing by fixed via, and charging chute can relatively rotate relative to the protuberance of described stationary cylinder.

9. the mineral hot furnace of distribution device is set as claimed in claim 8, it is characterized in that: the top of described body of heater arranges the boss raised up, the inner chamber of described boss and the inner space of body of heater, nested through hole is offered in the center of the upper surface of described boss, the diameter on the diameter of described nested through hole and the benchmark chassis of distribution device matches, the benchmark chassis of distribution device to be inserted in described nested through hole and can rotate relative to body of heater top in nested through hole, described fixed mount is made up of with the crossbeam on top and the jointing be fixed on crossbeam being connected two vertical racks two vertical racks, two described vertical racks are symmetrically welded at the top of the body of heater of described boss both sides, using the Gravity support of the distribution device be fixedly connected with on crossbeam and crossbeam.

10. the mineral hot furnace of distribution device is set as claimed in claim 7, it is characterized in that: offer three nested through holes at the top of described body of heater, described three nested through holes are symmetricly set on the top of body of heater, the lower end of three distribution devices is inserted respectively in described three nested through holes, three fixed mounts are fixed on the top of body of heater respectively along the diametric(al) of three nested through holes, three distribution devices hang fixing, using the Gravity support of the distribution device be fixedly connected with on crossbeam and crossbeam by three described fixed mounts respectively.