CN104880077B - Conch meal shaking furnace tapping mechanism - Google Patents

Abstract

The present invention relates to conch meal processing system.A kind of conch meal shaking furnace tapping mechanism, including calcining furnace, motor, the sieve being obliquely installed and the chute being obliquely installed, calcining furnace is provided with charging aperture, first outlet and the second outlet, sieve is positioned at the burner hearth of calcining furnace and is positioned at the lower section of charging aperture, the high-end same calcining furnace of sieve is hinged, first outlet is docking together with the low side of sieve, the lower section of sieve is provided with recovering hopper, recovering hopper is provided with discharging opening, chute high-end is in the burner hearth of calcining furnace is stretched in the second outlet and is supported in the low side of sieve, discharging opening is positioned at the top of chute, the middle part of chute is provided with pin joint, the low side of chute is linked together with eccentric by connecting rod, eccentric is driven by motor.The invention provides a kind of conch meal shaking furnace tapping mechanism that conch meal and shell block can be made separately to come out of the stove, solve the problem being mixed with shell block in conch meal of coming out of the stove from calcining furnace and need secondary to delete choosing.

Description

Conch meal shaking furnace tapping mechanism

Technical field

The present invention relates to conch meal processing system, particularly relate to a kind of conch meal shaking furnace tapping mechanism.

Background technology

The mode processing marine oil spill has a lot, has plenty of, with oil spilling process ship, oil spilling is detached sea.Have plenty of and be sintered into calcium carbonate, the more surface-modified rear porous powder (hereinafter referred to as conch meal) forming oleophylic with shell, be then disseminated to this powder on sea carry out adsorbing sea surface oil stain.Carry out carrying out in calcining furnace during shell calcining.Conch meal processing system can arrange control station and operate system.In existing conch meal calcination process, the conch meal come out of the stove exists the shell block not having calcining for powder, needs the deficiency of artificial postsearch screening.

Summary of the invention

The invention provides a kind of conch meal shaking furnace tapping mechanism that conch meal and shell block can be made separately to come out of the stove, solve the problem being mixed with shell block in conch meal of coming out of the stove from calcining furnace and need postsearch screening.

More than technical problem is that and solved by following technical proposal: a kind of conch meal shaking furnace tapping mechanism, including calcining furnace, motor, the sieve being obliquely installed and the chute being obliquely installed, described calcining furnace is provided with charging aperture, first outlet and the second outlet, described sieve is positioned at the burner hearth of described calcining furnace and is positioned at the lower section of charging aperture, the high-end same calcining furnace of described sieve is hinged, described first outlet is docking together with the low side of sieve, the lower section of described sieve is provided with recovering hopper, recovering hopper is provided with discharging opening, described chute high-end is in the burner hearth of described calcining furnace is stretched in described second outlet and is supported in the low side of described sieve, described discharging opening is positioned at the top of described chute, the middle part of described chute is provided with pin joint, the low side of described chute is linked together with eccentric by connecting rod, described eccentric is driven by described motor.During use, shell is calcined in charging aperture renders to calcining furnace, the granule (conch meal the most to be screened) that the conch meal calcined out and the shell calcined the most completely are formed all drops in sieve, motor drives eccentric to rotate, eccentric drives chute to swing with pin joint for the strong point by connecting rod, chute drives sieve to swing during swinging and makes conch meal to be screened along the incline direction glide downwards of sieve, in taxiing procedures, conch meal drops in recovering hopper from sieve aperture, then skids off in discharging opening drops to chute.Shell particles is slipped to skid off the first outlet from the low side of sieve.Remove to prize sieve by chute to swing, not only solve sieve motion problems in burner hearth but also make what the conch meal in chute can be the most unobstructed to skid off.

Present invention additionally comprises car, described motor is arranged on described car, and described chute is hinged with described car by described pin joint.During assembly or disassembly first by prefabricated to motor and chute onboard, then draw close calcining furnace together by the above-mentioned parts on car locomotive and realize assembling.Convenience during assembly and disassembly is good.So can make separated with calcining furnace of chute, thus realize reducing when chute swings the impact on calcining furnace.

As preferably, described car is provided with fixing sucking disk, and described car is fixed together with described calcining furnace by described fixing sucking disk, and described fixing sucking disk includes the first sucker that same car links together, it is provided with the second sucker in described first sucker, between described first sucker and the second sucker, surrounds adsorption tank.By extruding the first sucker and the second sucker simultaneously so that the inner space of the first sucker and adsorption tank are all formed negative pressure, namely carries out adsorbing together with the second sucker by the first sucker and car is fixed together with calcining furnace and prevents mobile.When making to produce moment partial disengagement at the absorption of the first sucker when vibrated or instant impact, under the effect of the second sucker, after instant impact disappears, the first sucker can again recover and adsorb, make sucker will not fall off phenomenon when being produced local moment disconnection by moment impact, and the slippage of absorption affinity less can i.e. remain on good adsorption.Convenient fixing and isolating affection are good.

As preferably, the absorption end of described second sucker stretches out the absorption end of described first sucker.Because the first sucker is in outside, whether absorption on be it could be visually observed that, and whether the second sucker adsorbs and can not intuitively arrive, if so the first sucker beyond the second sucker, has the disadvantage that then may not adsorb, in order to ensure then needing the bigger power of use to press on the second sucker suction by the second sucker by pressure is little, and this power is the most much and lasts long and is difficult to grasp, frequently can lead to unnecessary strength waste and the time is wasted.As long as the second sucker must adsorb time on the technical program then the first sucker suction, so can convenient and strength-saving guarantee on the second sucker suction rapidly when assembling, improve convenience when installing car.

As preferably, being provided with the some elastomeric connector strip the first sucker and the second sucker linked together in described adsorption tank, described elastomeric connector strip is circumferentially distributed along the second sucker.When the first sucker and the second sucker all adsorb upper, elastomeric connector strip is elongated and energy storage, and this energy produces and promotes the trend that the first sucker move towards adsorbate so that when the first sucker produces moment disconnection, accelerates the first sucker and returns to adsorbed state.Namely reduce further car by during moment impact with the separate probability of calcining furnace.

As preferably, described fixing sucking disk also includes the air flue connected with the first sucker space outerpace in described second suction cup interior space with both adsorption tanks, and the outer end of described air flue is hinged with the sealing lid for sealing described air flue outer end.When extruding sucker and adsorb, the air in sucker can back down sealing lid and discharge, but when adsorbing, draught head makes sealing lid again cover on the outer end of air flue.When needing locomotive, by artificial sealing lid of opening, suction cup interior space is carried out vacuum breaker such that it is able to realize dismantling with little power in the case of ensureing big suction.

As preferably, described motor includes casing and rotating shaft, described rotating shaft passes through two bearings in described casing, fueling cavity is formed between described casing and two bearings, the first gear and the second gear meshed together it is provided with in described fueling cavity, described first gear links together with described rotating shaft, and described second gear is rotatably connected with described casing；It is provided with oil-filling mechanism in described first gear, described oil-filling mechanism includes oil-out, gas supplementing opening, seal head, seal head is driven to seal up the first spring of oil-out, cylinder body and slipper seal are connected to the piston of cylinder body, described cylinder body is divided into air cavity and oil pocket by described piston, described piston is provided with the check valve that air cavity is opened, described piston is linked together with described seal head by connecting rod, described oil-out is connected with described oil pocket by oil duct, described gas supplementing opening is connected with described air cavity by air flue, described oil-out is arranged at the tooth top of described first gear, described seal head stretches out the distance of the tooth top of described first gear more than the tooth top gap between described first gear and the second gear.The first pinion rotation is driven during axis of rotation, when the first pinion rotation to the tooth being provided with oil-out meshes together with the second gear, in the teeth groove of the first gear drives seal head indentation gear, drive piston to move towards oil pocket also by connecting rod while making the first spring energy-storage when sealing strip inside contracts and drive in oil pocket lubricating oil to flow to oil-out through oil duct and flow to fueling cavity thus realize the lubrication to bearing；When seal head staggers with teeth groove, oil-out is sealed in nose heave Xinmi City of effect lower seal of the first spring, the proceduredriven piston that seal head moves moves towards air cavity, now owing to the pressure in the part outflow of the oil in oil pocket, event oil pocket is less than the pressure of air cavity, check valve is opened and is made air add in oil pocket and reclaim in oil suction chamber by unnecessary having in fueling cavity so that during piston press oil pocket, lubricating oil can reliably flow out next time.Achieve the self-lubricate of motor bearings.

As preferably, described motor includes casing and rotating shaft, bar in circle it is equipped with rotationally in described rotating shaft, the outer peripheral face of described interior bar is provided with the first frictional layer, the inner surface of described rotating shaft is provided with together with the second frictional layer, described interior bar and rotating shaft be connected to the second frictional layer by described first frictional layer.When rotating shaft produces distortion, rotating shaft can produce relative to interior bar and rotate, and during rotation, external friction layer and the second frictional layer produce friction energy-absorbing and eliminate torsional forces, thus play the effect of the distortion resistance improving rotating shaft.

As preferably, described interior bar includes left bar and right bar, the left end of described left bar is linked together with described rotating shaft by left energy-absorbing spring, the right side of described left bar is provided with some first commutating tooths circumferentially distributed along left bar, the right-hand member of described right bar is linked together with described rotating shaft by right energy-absorbing spring, the left side of described right bar is provided with some second commutating tooths circumferentially distributed along right bar, and described first commutating tooth and the second commutating tooth mesh together.When bar also produces distortion in driving when rotating shaft distortion, right bar and left bar can be driven under the effect of the first commutating tooth and the second commutating tooth circumferentially spaced, energy-absorbing camber of spring can be caused time separately and energy-absorbing.Pass through rotating shaft distortion resistance further.

Present invention additionally comprises the elevator being arranged between described first outlet and charging aperture.The shell particles of discharge can be calcined calcining furnace from newly rendering to.

The present invention has an advantage that and can make conch meal and not calcine shell particles thoroughly separately to come out of the stove；Patency during discharging is good.

Accompanying drawing explanation

Fig. 1 is the schematic diagram of the present invention.

Fig. 2 is the section view enlarged diagram of fixing sucking disk.

Fig. 3 is the close-up schematic view at the C of Fig. 2.

Fig. 4 is the schematic diagram of this motor.

Fig. 5 is the first gear and the cross-sectional schematic of the second gear.

Fig. 6 is the close-up schematic view at the A of Fig. 5.

Fig. 7 is the close-up schematic view at the B of Fig. 5.

Fig. 8 is the cross-sectional schematic of the rotating shaft in the embodiment of the present invention two.

nullIn figure: calcining furnace 1、Charging aperture 11、First outlet 12、Second outlet 13、Sieve 2、First hinge 21、Recovering hopper 22、Discharging opening 23、Chute 3、Interface point 31、Second hinge 32、Connecting rod 33、Eccentric 4、Motor 5、Rotating shaft 51、Interior bar 511、Left bar 5111、Right bar 5112、External friction layer 5113、First commutating tooth 5114、Second commutating tooth 5115、Internal friction layer 512、Left energy-absorbing spring 513、Right energy-absorbing spring 514、Casing 52、Air-blowing pump 53、Motor 54、Bearing 55、Fueling cavity 56、Second gear 57、Short axle 571、First gear 58、The tooth top 581 of the first tooth、Power lead-ining line 59、First paragraph 591、Second segment 592、Fixing sucking disk 6、Air flue 61、First sucker 62、The absorption end 621 of the first sucker、Second sucker 63、The absorption end 631 of the second sucker、Adsorption tank 64、Elastomeric connector strip 65、Seal lid 66、Elevator 7、Oil-filling mechanism 8、Oil-out 81、Gas supplementing opening 82、Seal head 83、First spring 84、Cylinder body 85、Air cavity 851、Oil pocket 852、Piston 86、Check valve 861、Connecting rod 862、Oil duct 87、Air flue 88、Car 9、Wheel 91、Seal head stretches out distance L1 of the tooth top of the first gear、Tooth top gap L2 between first gear and the second gear.

Detailed description of the invention

The present invention is further illustrated with embodiment below in conjunction with the accompanying drawings.

Embodiment one, sees Fig. 1, and a kind of conch meal shaking furnace tapping mechanism, including calcining furnace 1, sieve 2, chute 3, motor 5, elevator 7 and car 9.Calcining furnace 1 is provided with charging aperture the 11, first outlet 12 and the second outlet 13.Sieve 2 is obliquely installed in the way of left end height right-hand member is low.The left end of sieve 2 is hinged with calcining furnace 1 by the first hinge 21.Sieve 2 is positioned at the burner hearth of calcining furnace 1.Sieve 2 and be positioned at the lower section of charging aperture 11.The right-hand member of sieve 2 is docking together with the first outlet 12 and is positioned at the top of the first outlet 12.The lower section of sieve 2 is provided with recovering hopper 22.Recovering hopper 22 is provided with discharging opening 23.Chute 3 is obliquely installed in the way of right-hand member height left end is low.Chute 3 is through the second outlet 13.Chute 3 is separated with calcining furnace 1.The right-hand member of chute 3 is supported on the lower section of sieve 2 right-hand member in the way of abutting.The middle part of chute 3 is provided with pin joint 31.Interface point 31 is hinged with car 9 by the second hinge 32.The left end of chute 3 is positioned at the outside of calcining furnace 1.Chute 3 is positioned at the lower section of discharging opening 23.The left end of chute 3 is linked together with eccentric 4 by connecting rod 33.Eccentric 4 is fixed on the rotating shaft 51(i.e. power output shaft of motor 5) on.Motor 5 includes casing 52 and rotating shaft 51.Casing 52 is fixed together with car.Car 9 is provided with wheel 91 and fixing sucking disk 6.Car 9 is fixed together with calcining furnace 1 by fixing sucking disk 6.Fixing sucking disk 6 includes the first sucker 62 being fixed on car.Elevator 7 is arranged between the first outlet 12 and charging aperture 11.

Seeing Fig. 2, sucker 6 also includes air flue 61 and the second sucker 63.Second sucker 63 is positioned at the first sucker 62.First sucker 62 and the second sucker 63 are all that rubber is made.Adsorption tank 64 is surrounded between first sucker 62 and the second sucker 63.The absorption end 631 of the second sucker stretches out the absorption end 621 of the first sucker.Some elastomeric connector strip 65 it are provided with in adsorption tank 64.Elastomeric connector strip 65 is circumferentially distributed along the second sucker 63.One end of elastomeric connector strip 65 links together with the first sucker 62, and the specially mode of integrative-structure links together.The other end second sucker 63 of elastomeric connector strip 65 links together, and the specially mode of integrative-structure links together.Second sucker 63 inner space is connected with the first sucker 62 space outerpace by air flue 61 with both adsorption tanks 64.The outer end of air flue 61 is provided with the sealing lid 66 opened outwardly.

See Fig. 3, seal lid 66 and carry out hinged by hinge 67.Hinge 67 is positioned at the top sealing lid 66, so can seal lid 66 can reliably reseal the outer end of air flue 61 when the air pressure in the first sucker 62 and the second sucker 63 is less than the air pressure of outside.

Seeing Fig. 4, rotating shaft 51 is supported in casing 52 by two bearings 55.Fueling cavity 56 is formed between casing 52 and two bearings 55.The first gear 58 and the second gear 57 it is provided with in fueling cavity 56.First gear 58 and the second gear 57 mesh together.First gear 58 links together with rotating shaft 51.Second gear 57 is rotatably connected with casing 52 by short axle 571.

See Fig. 5, in the first gear 58, be provided with oil-filling mechanism 8.The number of oil-filling mechanism 8 is equal with the number of teeth of the first gear 58.

Seeing Fig. 6, oil-filling mechanism 8 includes oil-out 81, gas supplementing opening 82, seal head the 83, first spring 84, cylinder body 85 and piston 86.On the tooth top 581 of the same tooth that the oil-out 81 of same oil-filling mechanism and gas supplementing opening 82 are arranged at the first gear 58, the tooth top of same tooth oil-out and the gas supplementing opening of one oil-filling mechanism are only set, i.e. in the present embodiment, the tooth of oil-filling mechanism and the first gear 58 is arranged correspondingly.Seal head 83 and the first spring 84 are arranged in oil-out 81, and the effect lower seal head 83 at the first spring 84 stretches out tooth top 581 and seals up oil-out.Seal head stretches out distance L1 of the tooth top of the first gear and sees Fig. 7 more than tooth top gap L2(between the first gear and the second gear).Cylinder body 85 is formed in the first gear 58 in the way of integrative-structure, is the chamber in the first gear 58.Piston 86 slipper seal is connected to cylinder body 85.Cylinder body 85 is divided into air cavity 851 and oil pocket 852 by piston 86.Piston 86 is provided with the check valve 861 that air cavity 851 is opened.Piston 86 is linked together with seal head 83 by connecting rod 862.Connecting rod 862 links together with slipper seal between the first gear 58 so that oil-out 81 disconnects with air cavity 851.Oil-out 81 is connected with oil pocket 852 by oil duct 87.Gas supplementing opening 82 is connected with air cavity 851 by air flue 88.Oil duct 87 and air flue 88 are all to be formed in the way of integrative-structure in the first gear 58, are the hole in the first gear 58.

The process of the lubrication of the bearing in motor of the present invention is:

Seeing Fig. 7, during the first gear 58 rotates, the bottom surface crush seal 83 of the teeth groove of the second gear 57 is to the first gear 58 contract, and seal head 83 shrinks and oil-out 81 opened and makes the first spring 84 energy storage.

See Fig. 6, driving piston 86 to move towards oil pocket 852 also by connecting rod 862 when seal head 83 shrinks, pressure in oil pocket 852 rises and check valve 861 is closed and lubricating oil in oil pocket 852 flows to oil-out 81 through oil duct 87 and flows out from oil-out 81 and realize the lubrication to bearing 55.

When the second gear loses the squeezing action to seal head 83, outer shifting of effect lower seal head 83 of the first spring 84, oil-out 81 is sealed up, piston 86 is driven to move towards air cavity 851 by connecting rod 862 when seal head 83 stretches out, pressure in oil pocket 852 declines and pressure in air cavity 851 rises, check valve 861 is opened, oil unnecessary in air and fueling cavity 56 is through gas supplementing opening 82, air flue 88 and check valve 861 and flow to oil pocket 852, the air pressure making the pressure in oil pocket 852 be able to maintain that in same gear exterior is equal, so that lubricating oil can be squeezed out when moving towards oil pocket 852 by piston 86 next time.

Embodiment two, with the difference of embodiment one be:

See Fig. 8, in rotating shaft 51, be equipped with the interior bar 511 of circle.Interior bar 511 is tubular structure.The inner surface of rotating shaft 51 is provided with internal friction layer 512.Interior bar 511 includes left bar 5111 and right bar 5112.The outer peripheral face of left bar 5111 and right bar 5112 is designed with external friction layer 5113.External friction layer 5113 is covered with interior bar 511 along the circumference of interior bar 511.The left end of left bar 5111 is linked together with rotating shaft 51 by left energy-absorbing spring 513.The right side of left bar 5111 is provided with some first commutating tooths 5114 circumferentially distributed along left bar.The right-hand member of right bar 5112 is linked together with rotating shaft 51 by right energy-absorbing spring 514.The left side of right bar 5112 is provided with some second commutating tooths 5115 circumferentially distributed along right bar.First commutating tooth 5114 and the second commutating tooth 5115 mesh together.Left bar 5111 and right bar 5112 the most all by external friction layer 5113 with internal friction layer 512 be connected to together with and together with being rotatably connected with rotating shaft 51.The abrasivus of liquid it is filled with in rotating shaft 51.

When rotating shaft 51 produces distortion, rotating shaft 51 can produce relative rotation relative to interior bar 511, and motor process China and foreign countries' frictional layer 5113 and internal friction layer 512 rub and consume energy and play the effect of prevention twisting.If the moment of torsion of rotating shaft 51 and result in interior bar 511 the most together produce twisting time, the most left bar 5111 and right bar 5112 can be axially spaced under the guide effect of the first commutating tooth 5114 and the second commutating tooth 5115, separation process is not only able to produce friction so that external friction layer 5113 with internal friction layer 512 and energy-absorbing, left energy-absorbing spring 513 and right energy-absorbing spring 514 can also be promoted to deform and energy-absorbing, play energy-absorbing and prevent from reversing the effect produced, thus realize improving the distortion resistance of rotating shaft.And right energy-absorbing spring 514 and left energy-absorbing spring 513 can also play the effect repairing rotating shaft 1.

Claims (9)

1. null1. a conch meal shaking furnace tapping mechanism，Including calcining furnace，Described calcining furnace is provided with charging aperture，It is characterized in that，Also include car、Motor、The sieve being obliquely installed and the chute being obliquely installed，Described calcining furnace is provided with the first outlet and the second outlet，Described sieve is positioned at the burner hearth of described calcining furnace and is positioned at the lower section of charging aperture，The high-end same calcining furnace of described sieve is hinged，Described first outlet is docking together with the low side of sieve，The lower section of described sieve is provided with recovering hopper，Recovering hopper is provided with discharging opening，Described chute high-end is in the burner hearth of described calcining furnace is stretched in described second outlet and is supported in the low side of described sieve，Described discharging opening is positioned at the top of described chute，The middle part of described chute is provided with pin joint，The low side of described chute is linked together with eccentric by connecting rod，Described eccentric is driven by described motor，Described motor is arranged on described car，Described chute is hinged with described car by described pin joint.
2. Conch meal shaking furnace tapping mechanism the most according to claim 1, it is characterized in that, described car is provided with fixing sucking disk, described car is fixed together with described calcining furnace by described fixing sucking disk, described fixing sucking disk includes the first sucker that same car links together, it is provided with the second sucker in described first sucker, between described first sucker and the second sucker, surrounds adsorption tank.
3. Conch meal shaking furnace tapping mechanism the most according to claim 2, it is characterised in that the absorption end of described second sucker stretches out the absorption end of described first sucker.
4. 4., according to the conch meal shaking furnace tapping mechanism described in Claims 2 or 3, it is characterised in that be provided with the some elastomeric connector strip the first sucker and the second sucker linked together in described adsorption tank, described elastomeric connector strip is circumferentially distributed along the second sucker.
5. 5. according to the conch meal shaking furnace tapping mechanism described in Claims 2 or 3, it is characterized in that, described fixing sucking disk also includes the air flue connected with the first sucker space outerpace in described second suction cup interior space with both adsorption tanks, and the outer end of described air flue is hinged with the sealing lid for sealing described air flue outer end.
6. 6. according to the conch meal shaking furnace tapping mechanism described in claim 1 or 2 or 3, it is characterized in that, described motor includes casing and rotating shaft, described rotating shaft passes through two bearings in described casing, fueling cavity is formed between described casing and two bearings, being provided with the first gear and the second gear meshed together in described fueling cavity, described first gear links together with described rotating shaft, and described second gear is rotatably connected with described casing；It is provided with oil-filling mechanism in described first gear, described oil-filling mechanism includes oil-out, gas supplementing opening, seal head, seal head is driven to seal up the first spring of oil-out, cylinder body and slipper seal are connected to the piston of cylinder body, described cylinder body is divided into air cavity and oil pocket by described piston, described piston is provided with the check valve that air cavity is opened, described piston is linked together with described seal head by connecting rod, described oil-out is connected with described oil pocket by oil duct, described gas supplementing opening is connected with described air cavity by air flue, described oil-out is arranged at the tooth top of described first gear, described seal head stretches out the distance of the tooth top of described first gear more than the tooth top gap between described first gear and the second gear.
7. 7. according to the conch meal shaking furnace tapping mechanism described in claim 1 or 2 or 3, it is characterized in that, described motor includes casing and rotating shaft, bar in circle it is equipped with rotationally in described rotating shaft, the outer peripheral face of described interior bar is provided with the first frictional layer, the inner surface of described rotating shaft is provided with together with the second frictional layer, described interior bar and rotating shaft be connected to the second frictional layer by described first frictional layer.
8. Conch meal shaking furnace tapping mechanism the most according to claim 7, it is characterized in that, described interior bar includes left bar and right bar, the left end of described left bar is linked together with described rotating shaft by left energy-absorbing spring, the right side of described left bar is provided with some first commutating tooths circumferentially distributed along left bar, the right-hand member of described right bar is linked together with described rotating shaft by right energy-absorbing spring, the left side of described right bar is provided with some second commutating tooths circumferentially distributed along right bar, and described first commutating tooth and the second commutating tooth mesh together.
9. 9. according to the conch meal shaking furnace tapping mechanism described in claim 1 or 2 or 3, it is characterised in that also include the elevator being arranged between described first outlet and charging aperture.