CN110129495A - Environment-friendly type metallurgical slag cooling treatment system and technique - Google Patents

Abstract

Environment-friendly type metallurgical slag cooling treatment system of the invention and technique, including fuselage, it is provided with the first cavity in the fuselage, the heating power chamber of opening to the right is provided in the first cavity bottom wall, is provided with and communicated with the first connectivity slot between first cavity and the heating power chamber；Apparatus of the present invention high degree of automation, each mechanism cooperation of equipment is close, and equipment globality is strong, while carrying out kinetic energy conversion using mechanical structure, and equipment kinetic energy efficiency is high, generating dutation is long, high-efficient and production cost is low, versatile.

Description

Environment-friendly type metallurgical slag cooling treatment system and technique

Technical field

The present invention relates to metallurgical slag heat energy utilization field, specifically a kind of metallurgical slag drying equipment.

Background technique

It is well known that general metallurgical slag filtered out in molten iron after metallurgical slag itself there is no additional surcharge, But the thermal energy carried when wherein isolating in molten iron is very high, while carrying out secondary treatment after metallurgical slag drying and also can be carried out circulation It utilizes, and traditional factory does not have a kind of equipment to carry out effective benefit to it heat generated when metallurgical slag drying and drying With needing to improve there are larger defect.

Summary of the invention

Technical problem to be solved by the invention is to provide environment-friendly type metallurgical slag cooling treatment system and techniques, can solve The problems in certainly above-mentioned present technology.

The present invention is achieved through the following technical solutions: environment-friendly type metallurgical slag cooling treatment system of the invention and work Skill, including fuselage are provided with the first cavity in the fuselage, and the heating power of opening to the right is provided in the first cavity bottom wall Chamber, is provided with and communicated with the first connectivity slot between first cavity and the heating power chamber, first cavity is connected to the fuselage Outside is provided with the second connectivity slot, and the second connectivity slot roof is provided with and communicated with the second cavity, and the second cavity roof is solid Surely it is provided with third cavity, blowing agitating device is provided between the third cavity and second cavity, described second is empty The 4th cavity is provided on the right side of chamber in end wall, end wall is provided with and communicated with the first sliding groove on the right side of the 4th cavity, and described first It is provided with gate closing device between sliding groove and the 4th cavity, slides and sets between the heating power chamber and first cavity It is equipped with the first sliding block, the 5th cavity that Open Side Down is provided in first sliding block, is provided in the wall of the heating power bottom of chamber Six cavitys are provided with the 7th cavity in the 6th cavity bottom wall, are connected to and set between the 6th cavity and the 7th cavity It is equipped with third connecting slot, is provided with the 8th cavity, the 8th cavity and the 7th sky on the left of the 7th cavity in end wall It is provided with and communicated with the 4th connectivity slot between chamber, is provided with steam electric power generator between the 8th cavity and the 6th cavity, End wall is provided with the 9th cavity on the right side of 6th cavity, is provided with and communicated with the 5th between the 9th cavity and the heating power chamber Connectivity slot is provided with the tenth cavity in end wall on the left of the 6th cavity, is provided with the tenth in end wall on the left of the tenth cavity One cavity, the 11st cavity bottom wall are provided with the 12nd cavity for being connected to the 8th cavity, the 12nd cavity with It is provided with pre- hot actuating device between 9th cavity, is connected to the fuselage outer side on the right side of the 9th cavity and is provided with the 6th Connectivity slot is provided with and communicated with the 7th connectivity slot between the 7th cavity and the 6th connectivity slot.

Wherein, the blowing agitating device includes second cavity, between second cavity and the third cavity Rotation is provided with the first rotating shaft protruded into first cavity, and the first rotating shaft outer surface in second cavity is fixed It is provided with the first circular gear, second cavity inner wall is provided with ring gear, first circular gear and the ring gear Between transmission be equipped with symmetrical second circular gear, the first rotating shaft outer surface in first cavity turn Dynamic to be provided with stirring rod, the first rotating shaft end in first cavity is fixedly installed the first impeller, the stirring rod Connecting rod is fixedly connected between second circular gear, the first rotating shaft end fixation in the third cavity is set It is equipped with third circular gear, the third cavity bottom wall is provided with and communicated with the second sliding groove, and sliding is set in second sliding groove It is equipped with the second sliding block, the first spring is fixedly connected between second sliding block and the second sliding groove right end face, it is described Driving motor is provided in second sliding block, the driving motor top has been connected by power the second shaft, second shaft end It is fixedly installed the 4th circular gear matched with the third circular gear, the second sliding block left end face fixed setting There is permanent magnet, is provided with electromagnet in end wall on the left of second sliding groove.

Wherein, the gate closing device includes the 4th cavity, between the 4th cavity and the third cavity Rotation is provided with third shaft, and the third shaft end in the third cavity is fixedly installed and the 4th round tooth The 5th circular gear matched is taken turns, the third shaft end in the 4th cavity is fixedly installed first bevel gear, Rotation is provided with the 4th shaft that front and back extends in 4th cavity, the 4th shaft outer surface be fixedly installed with it is described The second bevel gear that first bevel gear is meshed and the 6th circular gear on rear side of the second bevel gear, described first Sliding is provided with gate in sliding groove, is fixedly connected with second spring between the gate and first sliding groove top surface, institute It states gate left end face and is fixedly installed the rack gear being meshed with the 6th circular gear.

Preferably, the steam electric power generator includes first sliding block, first sliding block and heating power bottom of chamber face Between be fixedly connected with third spring, the heating power chamber right end face is fixedly installed the pressure matched with first sliding block Inductor, the interior sliding of the 5th cavity is provided with third sliding block, is fixedly installed jet chimney in the third sliding block, described It is provided with and communicated with escape pipe between jet chimney and the 6th cavity, is connected between the jet chimney and the 8th cavity It is provided with water inlet pipe, rotation is provided with the 5th shaft, the 6th cavity between the 11st cavity and the 9th cavity Interior the 5th shaft outer surface is fixedly installed the second impeller, and the 5th shaft outer surface in the tenth cavity is solid Surely it is provided with power coil, the tenth cavity upper and lower end face is fixedly installed the power generation magnetic matched with the power coil Iron, sliding is provided with piston in the 8th cavity, and the 4th connectivity slot roof is provided with and communicated with the 13rd cavity, and described the Rotation is provided with the 6th shaft in 13 cavitys, and the 6th shaft outer surface is fixedly installed disk, the disk outer surface It is fixedly installed the baffle protruded into the 4th connectivity slot, the baffle is fixedly connected with the 4th connectivity slot top surface There is the 4th spring.

Preferably, the pre- hot actuating device includes the 9th cavity, the 5th shaft in the 9th cavity End is fixedly installed third impeller, and the 5th shaft end in the 11st cavity is fixedly installed triconodont Wheel, rotation is provided with the 7th shaft, the institute in the 11st cavity between the 11st cavity and the 12nd cavity It states the 7th shaft end and is fixedly installed the 4th bevel gear being meshed with the third hand tap gear, in the 12nd cavity 7th shaft end is fixedly installed cam, and sliding is provided with the matched with the cam in the 12nd cavity Four-slider, the Four-slider right side are fixedly connected with the piston, and it is sliding that the 12nd cavity roof is provided with and communicated with third Dynamic slot, the interior sliding of the third sliding groove are provided with the 5th sliding block being fixedly connected with the Four-slider, the 5th sliding block The 5th spring is fixedly connected between the third sliding groove left end face.

In conclusion the beneficial effects of the present invention are: apparatus of the present invention high degree of automation, each mechanism cooperation of equipment are tight Close, equipment globality is strong, while carrying out kinetic energy conversion using mechanical structure, and equipment kinetic energy efficiency is high, generating dutation is long, efficiency High and production cost is low, versatile.

Detailed description of the invention

The present invention is described in detail by following specific embodiments and drawings for ease of explanation,.

Fig. 1 is environment-friendly type metallurgical slag cooling treatment system and technique overall structure diagram of the invention；

Fig. 2 is the enlarged structure schematic diagram of A in Fig. 1；

Fig. 3 is the enlarged structure schematic diagram of B in Fig. 1.

Specific embodiment

All features disclosed in this specification or disclosed all methods or in the process the step of, in addition to mutually exclusive Feature and/or step other than, can combine in any way.This specification (including any accessory claim, abstract and Attached drawing) disclosed in any feature, unless specifically stated, can alternative features equivalent by other or with similar purpose be subject to Replacement.That is, unless specifically stated, each feature is an example in a series of equivalent or similar characteristics.

In the description of the present invention, it is to be understood that, term " center ", " longitudinal direction ", " transverse direction ", " length ", " width ", " thickness ", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outside", " up time The orientation or positional relationship of the instructions such as needle ", " counterclockwise " is based on attached orientation or positional relationship shown in FIG. 1, merely to just In description the present invention and simplify description, rather than the equipment of indication or suggestion meaning or element must have a particular orientation, with Specific orientation construction and operation, therefore be not considered as limiting the invention.

In addition, term " first ", " second " are used for descriptive purposes only and cannot be understood as indicating or suggesting relative importance Or implicitly indicate the quantity of indicated technical characteristic.Define " first " as a result, the feature of " second " can be expressed or Implicitly include one or more of the features.In the description of the present invention, the meaning of " plurality " is two or more, Unless otherwise specifically defined.

As shown in Figure 1-3, environment-friendly type metallurgical slag cooling treatment system of the invention and technique, including fuselage 100, the machine It is provided with the first cavity 110 in body 100, the heating power chamber 113 of opening to the right is provided in 110 bottom wall of the first cavity, it is described The first connectivity slot 112 is provided with and communicated between first cavity 110 and the heating power chamber 113, first cavity 110 is connected to described The second connectivity slot 101 is provided on the outside of fuselage 100,101 roof of the second connectivity slot is provided with and communicated with the second cavity 108, institute It states 108 roof of the second cavity and is fixedly installed third cavity 102, set between the third cavity 102 and second cavity 108 It is equipped with blowing agitating device, the 4th cavity 149 is provided in the 108 right side end wall of the second cavity, the 4th cavity 149 is right Side wall is provided with and communicated with the first sliding groove 137, is arranged between first sliding groove 137 and the 4th cavity 149 organic Door closing device, sliding is provided with the first sliding block 131 between the heating power chamber 113 and first cavity 110, and described first is sliding It is provided with the 5th cavity 132 that Open Side Down in block 131, is provided with the 6th cavity 120 in 113 bottom wall of heating power chamber, it is described It is provided with the 7th cavity 118 in 6th cavity, 120 bottom wall, is connected to and sets between the 6th cavity 120 and the 7th cavity 118 It is equipped with third connecting slot 119, the 8th cavity 169, the 8th cavity 169 are provided in the 118 left side end wall of the 7th cavity The 4th connectivity slot 165, the 8th cavity 169 and the 6th cavity 120 are provided with and communicated between the 7th cavity 118 Between be provided with steam electric power generator, the 120 right side end wall of the 6th cavity is provided with the 9th cavity 124, the 9th cavity It is provided with and communicated with the 5th connectivity slot 125 between 124 and the heating power chamber 113, is provided in the 120 left side end wall of the 6th cavity Tenth cavity 171 is provided with the 11st cavity 114,114 bottom of the 11st cavity in the 171 left side end wall of the tenth cavity Wall is provided with the 12nd cavity 115 for being connected to the 8th cavity 169, the 12nd cavity 115 and the 9th cavity 124 Between be provided with pre- hot actuating device, be connected on the right side of the 9th cavity 124 on the outside of the fuselage 100 and be provided with the 6th connectivity slot 123, the 7th connectivity slot 121 is provided with and communicated between the 7th cavity 118 and the 6th connectivity slot 123.

In the following, will introduce in detail for realizing the specific implementation of the blowing agitating device, such as Fig. 1 and Fig. 2 Shown, the blowing agitating device includes second cavity 108, between second cavity 108 and the third cavity 102 Rotation is provided with the first rotating shaft 104 protruded into first cavity 110, the first rotating shaft in second cavity 108 104 outer surfaces are fixedly installed the first circular gear 106, and 108 inner wall of the second cavity is provided with ring gear 107, and described Transmission is equipped with symmetrical second circular gear 105 between one circular gear 106 and the ring gear 107, described 104 outer surface of first rotating shaft rotation in first cavity 110 is provided with stirring rod 111, the institute in first cavity 110 It states 104 end of first rotating shaft and is fixedly installed the first impeller 133, between the stirring rod 111 and second circular gear 105 It is fixedly connected with connecting rod 109,104 end of the first rotating shaft in the third cavity 102 is fixedly installed third circle Gear 103,102 bottom wall of third cavity are provided with and communicated with the second sliding groove 142, and sliding is set in second sliding groove 142 It is equipped with the second sliding block 144, is fixedly connected with first between second sliding block 144 and 142 right end face of the second sliding groove Spring 151 is provided with driving motor 140 in second sliding block 144, and 140 top of driving motor has been connected by power second Shaft 139,139 end of the second shaft are fixedly installed the 4th round tooth matched with the third circular gear 103 Wheel 138,144 left end face of the second sliding block are fixedly installed permanent magnet 141, in the 142 left side end wall of the second sliding groove It is provided with electromagnet 143.

Next, the gate closing device of the application, the gate closing device packet is discussed in detail with reference to Fig. 1 and Fig. 2 The 4th cavity 149 is included, rotation is provided with third shaft 150 between the 4th cavity 149 and the third cavity 102, 150 end of third shaft in the third cavity 102 is fixedly installed to be matched with the 4th circular gear 138 5th circular gear 152,150 end of third shaft in the 4th cavity 149 are fixedly installed first bevel gear 147, the interior rotation of the 4th cavity 149 is provided with the 4th shaft 145 that front and back extends, and 145 outer surface of the 4th shaft is solid Surely it is provided with the second bevel gear 146 being meshed with the first bevel gear 147 and is located at 146 rear side of second bevel gear The 6th circular gear 148, sliding is provided with gate 134, the gate 134 and described first in first sliding groove 137 Second spring 136 is fixedly connected between 137 top surface of sliding groove, 134 left end face of gate is fixedly installed and described The rack gear 135 that six circular gears 148 are meshed.

Valuably, as shown in Figures 1 and 3, the steam electric power generator includes first sliding block 131, and described first is sliding Third spring 127 is fixedly connected between block 131 and 113 bottom surface of heating power chamber, 113 right end face of the heating power chamber fixation is set It is equipped with the pressure inductor 126 matched with first sliding block 131, it is sliding to be provided with third for sliding in the 5th cavity 132 Block 130 is fixedly installed jet chimney 129, the jet chimney 129 and the 6th cavity 120 in the third sliding block 130 Between be provided with and communicated with escape pipe 128, be provided with and communicated with water inlet pipe between the jet chimney 129 and the 8th cavity 169 153, rotation is provided with the 5th shaft 116, the 6th cavity between the 11st cavity 114 and the 9th cavity 124 116 outer surface of the 5th shaft in 120 is fixedly installed the second impeller 117, and the in the tenth cavity 171 the described 5th 116 outer surface of shaft is fixedly installed power coil 170, and 171 upper and lower end face of the tenth cavity is fixedly installed and the hair The solenoid 172 that electric coil 170 matches, the interior sliding of the 8th cavity 169 are provided with piston 157, the 4th connection 165 roof of slot is provided with and communicated with the 13rd cavity 168, and rotation is provided with the 6th shaft 166 in the 13rd cavity 168, institute It states 166 outer surface of the 6th shaft and is fixedly installed disk 167,167 outer surface of disk, which is fixedly installed, protrudes into the described 4th The baffle 164 in connectivity slot 165, the baffle 164 are fixedly connected with the 4th spring with 165 top surface of the 4th connectivity slot 163。

Valuably, as shown in Figures 1 and 3, the pre- hot actuating device includes the 9th cavity 124, and the described 9th is empty 116 end of the 5th shaft in chamber 124 is fixedly installed third impeller 122, and described in the 11st cavity 114 Five shafts, 116 end is fixedly installed third hand tap gear 154, between the 11st cavity 114 and the 12nd cavity 115 Rotation is provided with the 7th shaft 156, and 156 end of the 7th shaft in the 11st cavity 114 is fixedly installed and institute State the 4th bevel gear 155 that third hand tap gear 154 is meshed, 156 end of the 7th shaft in the 12nd cavity 115 It is fixedly installed cam 160, sliding is provided with the Four-slider matched with the cam 160 in the 12nd cavity 115 162, the piston 157 is fixedly connected on the right side of the Four-slider 162, and 115 roof of the 12nd cavity is provided with and communicated with Third sliding groove 158, it is sliding that the interior sliding of the third sliding groove 158 is provided with the 5th be fixedly connected with the Four-slider 162 Block 161 is fixedly connected with the 5th spring 159 between the 5th sliding block 161 and 158 left end face of third sliding groove.

In the following, applicant with reference to attached drawing 1-3 and will be described above and be discussed in detail the environment-friendly type metallurgical slag of the application Cooling treatment system and technique: firstly, in the initial state, the gate 134 closes first cavity 110, and the described 4th Circular gear 138 and the third circular gear 103 transmission cooperate, and the permanent magnet 141 is mutually inhaled with the electromagnet 143 Draw, the third sliding block 130 is located at 132 bottom end of the 5th cavity, the pressure inductor 126 and first sliding block 131 Not in contact with cooperation, the baffle 164 closes the 4th connectivity slot 165, and it is left that the piston 157 is located at the 8th cavity 169 End, the cam 160 do not squeeze the Four-slider 162, the 8th cavity 169 be full of in the 7th cavity 118 it is pure Water purification, the driving motor 140 remain static.

In use, being opened after the metallurgical slag is added in first cavity 110 by second connectivity slot 101 Switch, the driving motor 140 drive the 4th circular gear 138 to rotate, and the 4th circular gear 138 drives described the The rotation of three sliding blocks 130, the third sliding block 130 drive first circular gear 106 to rotate with first impeller 133, institute It states the rotation of the first impeller 133 and operation, while first circular gear 106 and the ring gear 107 is blowed to metallurgical slag Cooperation drives second circular gear 105 to rotate, and second circular gear 105 is driven described by the connecting rod 109 Stirring rod 111 rotates, and the metallurgical slag is stirred in the stirring rod 111 rotation, and the hot steam in the metallurgical slag passes through described the One connectivity slot 112 enters in the heating power chamber 113；

When the hot steam is by the heating power chamber 113, the hot steam says the water inlet pipe 153 in heating power chamber 113 In water preheated, while the hot steam by the 5th connectivity slot 125 enter the 9th cavity 124 in drive institute State the rotation of third impeller 122, at the same hot steam by after 123 device for transferring of the 6th connectivity slot can secondary back distilled water it is logical It crosses the 7th connectivity slot 121 to enter in the 7th cavity 118, the third impeller 122 drives described 116 turns of 5th shaft Dynamic, the 5th shaft 116 drives the third hand tap gear 154 to rotate, and the third hand tap gear 154 drives the 4th cone tooth 155 rotation of wheel, the 4th bevel gear 155 drive the cam 160 to rotate, and it is sliding that the rotation of cam 160 squeezes the described 4th Block 162, the Four-slider 162 push the piston 157, and the water in the 8th cavity 169 is extruded, at this time the baffle 164 obstruction the 4th connectivity slots 165, in the water jet chimney 129 in the 8th cavity 169, institute The water stated in jet chimney 129 is evaporated by the thermal energy that the metallurgical slag on 131 top surface of the first sliding block passes over For vapor, the vapor is entered in the 6th cavity 120 by the escape pipe 128, described in the vapor driving Second impeller 117, while the vapor passes through described in discharge after the 7th connectivity slot 121 and the 6th connectivity slot 123 After equipment can secondary back distilled water into the 7th cavity 118, second impeller 117 drives the 5th shaft 116 High-speed rotation, the pre- hot actuating device driving process described at this time are completed；

Subsequent 5th shaft 116 drives 170 high-speed rotation of power coil and the solenoid 172 to cooperate and generates electricity, It produces electricl energy, while the pre- hot actuating device still carries out warm-up operation, when the cam 160 no longer squeezes the Four-slider When 162, the piston 157 slides to the left, and pressure reduces in the 8th cavity 169, and the baffle 164 receives attraction at this time It rotates clockwise, the baffle 164 is not blocking the 4th connectivity slot 165, and the water in the 7th cavity 118 passes through described 4th connectivity slot 165, which sucks in the 8th cavity 169, carries out water-refilling operation, hereafter moves in circles, until first sliding block 131 are squeezed the pressure inductor 126 by enough gravity, and the pressure inductor 126 makes the permanent magnet 141 and the electricity Magnet 143 is mutually exclusive, and the permanent magnet 141 drives second sliding block 144 to slide to the right, and second sliding block 144 is to the right Sliding makes the 4th circular gear 138 disconnect transmission cooperation, the 4th circular gear with the third circular gear 103 138 start transmission cooperation with the 5th circular gear 152, and the 4th circular gear 138 drives the 5th circular gear 152 rotations, the 5th circular gear 152 drive the first bevel gear 147 to rotate, and the first bevel gear 147 drives institute The rotation of second bevel gear 146 is stated, the second bevel gear 146 drives the 6th circular gear 148 to rotate, and the described 6th is round Gear 148 drives 134 upward sliding of gate by the rack gear 135, and the gate 134 is opened at this time, excludes heat It moves back the metallurgical slag after dissipating to continue after being closed the gate 134, equipment remains in operation.

It can be seen that the equipment utilization transmission switching mechanism by detailed analysis above and carry out kinetic energy conversion, equipment Kinetic energy efficiency is high, and cooperation is close between each mechanism of equipment, and equipment globality is strong, while equipment utilization metallurgical slag itself generates Hot steam and the heat of itself carry out kinetic energy conversion, equipment generating efficiency is high, and the pre- hot actuating device of equipment utilization carries out autonomous Driving, automation degree of equipment is high, generating dutation is long, versatile.

Therefore, apparatus of the present invention high degree of automation, each mechanism cooperation of equipment is close, and equipment globality is strong, while benefit Kinetic energy conversion is carried out with mechanical structure, equipment kinetic energy efficiency is high, generating dutation is long, high-efficient and production cost is low, versatility By force.

In conclusion be only invention specific embodiment, but invent protection scope be not limited thereto, it is any without The change or replacement that creative work is expected are crossed, should all be covered within the protection scope of invention.Therefore, the protection scope of invention It should be determined by the scope of protection defined in the claims.

Claims (5)

1. environment-friendly type metallurgical slag cooling treatment system of the invention and technique, including fuselage, the first sky is provided in the fuselage Chamber is provided with the heating power chamber of opening to the right in the first cavity bottom wall, is connected between first cavity and the heating power chamber It is provided with the first connectivity slot, first cavity is connected to the fuselage outer side and is provided with the second connectivity slot, second connectivity slot Roof is provided with and communicated with the second cavity, and the second cavity roof is fixedly installed third cavity, the third cavity with it is described It is provided with blowing agitating device between second cavity, is provided with the 4th cavity on the right side of second cavity in end wall, the described 4th End wall is provided with and communicated with the first sliding groove on the right side of cavity, is provided with gate between first sliding groove and the 4th cavity and opens It attaches together and sets, sliding is provided with the first sliding block between the heating power chamber and first cavity, is provided with out in first sliding block Mouthful the 5th downward cavity is provided with the 6th cavity in the wall of the heating power bottom of chamber, is provided with the 7th in the 6th cavity bottom wall Cavity is provided with and communicated with third connecting slot, end wall on the left of the 7th cavity between the 6th cavity and the 7th cavity It is inside provided with the 8th cavity, is provided with and communicated with the 4th connectivity slot between the 8th cavity and the 7th cavity, the described 8th Steam electric power generator is provided between cavity and the 6th cavity, end wall is provided with the 9th cavity on the right side of the 6th cavity, It is provided with and communicated with the 5th connectivity slot between 9th cavity and the heating power chamber, is provided in end wall on the left of the 6th cavity Tenth cavity is provided with the 11st cavity in end wall on the left of the tenth cavity, and the 11st cavity bottom wall is provided with connection 12nd cavity of the 8th cavity is provided with pre- hot actuating device between the 12nd cavity and the 9th cavity, It is connected to the fuselage outer side on the right side of 9th cavity and is provided with the 6th connectivity slot, the 7th cavity and the 6th connectivity slot Between be provided with and communicated with the 7th connectivity slot.

2. environment-friendly type metallurgical slag cooling treatment system according to claim 1 and technique, wherein the blowing agitating device Including second cavity, between second cavity and the third cavity, rotation, which is provided with, protrudes into first cavity First rotating shaft, the first rotating shaft outer surface in second cavity are fixedly installed the first circular gear, and described second is empty Cavity wall is provided with ring gear, and transmission is equipped with symmetrical the between first circular gear and the ring gear Two circular gears, the first rotating shaft outer surface rotation in first cavity are provided with stirring rod, in first cavity The first rotating shaft end be fixedly installed the first impeller, be fixedly connected between the stirring rod and second circular gear There is connecting rod, the first rotating shaft end in the third cavity is fixedly installed third circular gear, the third cavity Bottom wall is provided with and communicated with the second sliding groove, and sliding is provided with the second sliding block, second sliding block and institute in second sliding groove It states and is fixedly connected with the first spring between the second sliding groove right end face, be provided with driving motor in second sliding block, it is described Driving motor top has been connected by power the second shaft, and second shaft end is fixedly installed and the third circular gear phase 4th circular gear of cooperation, the second sliding block left end face are fixedly installed permanent magnet, the second sliding groove left-hand end Electromagnet is provided in wall.

3. environment-friendly type metallurgical slag cooling treatment system according to claim 1 and technique, wherein the gate closing device Including the 4th cavity, rotation is provided with third shaft between the 4th cavity and the third cavity, and the third is empty The intracavitary third shaft end is fixedly installed the 5th circular gear matched with the 4th circular gear, and described The third shaft end in four cavitys is fixedly installed first bevel gear, and rotation is provided with front and back and prolongs in the 4th cavity The 4th shaft stretched, the 4th shaft outer surface be fixedly installed the second bevel gear that is meshed with the first bevel gear with And the 6th circular gear on rear side of the second bevel gear, the interior sliding of first sliding groove are provided with gate, the machine Be fixedly connected with second spring between door and first sliding groove top surface, the gate left end face be fixedly installed with it is described The rack gear that 6th circular gear is meshed.

4. environment-friendly type metallurgical slag cooling treatment system according to claim 1 and technique, wherein the steam electric power generator Including first sliding block, third spring, the heating power are fixedly connected between first sliding block and heating power bottom of chamber face Chamber right end face is fixedly installed the pressure inductor matched with first sliding block, and sliding is provided in the 5th cavity Third sliding block is fixedly installed jet chimney in the third sliding block, is connected between the jet chimney and the 6th cavity Be provided with escape pipe, be provided with and communicated with water inlet pipe between the jet chimney and the 8th cavity, the 11st cavity with Rotation is provided with the 5th shaft between 9th cavity, the 5th shaft outer surface fixed setting in the 6th cavity There is the second impeller, the 5th shaft outer surface in the tenth cavity is fixedly installed power coil, the tenth cavity Upper and lower end face is fixedly installed the solenoid matched with the power coil, and sliding is provided with work in the 8th cavity Plug, the 4th connectivity slot roof are provided with and communicated with the 13rd cavity, and rotation is provided with the 6th shaft in the 13rd cavity, The 6th shaft outer surface is fixedly installed disk, and the disk outer surface, which is fixedly installed, to be protruded into the 4th connectivity slot The baffle, the baffle and the 4th connectivity slot top surface are fixedly connected with the 4th spring.

5. environment-friendly type metallurgical slag cooling treatment system according to claim 1 and technique, wherein the pre- hot actuating device Including the 9th cavity, the 5th shaft end in the 9th cavity is fixedly installed third impeller, and the described tenth The 5th shaft end in one cavity is fixedly installed third hand tap gear, the 11st cavity and the 12nd cavity Between rotation be provided with the 7th shaft, the 7th shaft end in the 11st cavity is fixedly installed and the third The 4th bevel gear that bevel gear is meshed, the 7th shaft end in the 12nd cavity are fixedly installed cam, institute It states sliding in the 12nd cavity and is provided with the Four-slider matched with the cam, be fixedly connected on the right side of the Four-slider The piston, the 12nd cavity roof are provided with and communicated with third sliding groove, in the third sliding groove sliding be provided with The 5th sliding block that the Four-slider is fixedly connected, it is fixed between the 5th sliding block and the third sliding groove left end face to connect It is connected to the 5th spring.