Coal desulfurization device
The application has the following application numbers: 2019102942768, the name is: the invention patent application of 'a coal desulfurization device' is filed by divisional application, and the application date of the original application is as follows: 12/04/2019.
Technical Field
The invention relates to engineering machinery, in particular to a coal desulfurization device.
Background
For example, a raw coal desulfurization device with patent number CN201720187873.7 comprises a degradation furnace, wherein a powder adding pipe is arranged at the front end of the top of the degradation furnace, a steam pipe is arranged at the bottom of the degradation furnace, a feed inlet and a discharge outlet are respectively arranged at the left side and the right side of the degradation furnace, a crushing device is arranged at the front end of the feed inlet of the degradation furnace, photoelectric tubes are arranged at the two sides inside the degradation furnace, and a stirring device is arranged in the degradation furnace and is arranged at the rear end of the crushing device and comprises a roller made of transparent glass and a roller driving device.
Disclosure of Invention
The invention aims to provide a coal desulfurization device, which can crush raw coal through a crushing device and is convenient for desulfurization process of the raw coal; the magnetic desulfurization device can perform magnetic adsorption on the iron sulfide in the raw coal slag; carrying out desulfurization treatment on raw coal; the raw coal can be desulfurized for the second time by the calcium chloride solution in the wet desulphurization device, and the calcium chloride solution circularly flows by a circulating motor in the wet desulphurization device, so that the raw coal is completely contacted, and the dechlorination efficiency is improved; the raw coal after wet desulphurization can be air-dried by the air-drying device.
The purpose of the invention is realized by the following technical scheme:
the utility model provides a coal desulphurization unit, includes reducing mechanism, magnetic force desulphurization unit, wet flue gas desulfurization device, air-dries device and bottom support, its characterized in that: the crushing device comprises a crushing outer frame, a crushing wheel body, a crushing push rod I, two inner springs, two inner pushers, a crushing boss I, a plurality of crushing pushers, an inner push spring I, an inner push spring II, an inner push rod II, an inner push spring III, an inner slide cavity I, an inner slide cavity II, a discharge port, a belt wheel I, a transmission belt I, a belt wheel II, an inner rotor I, an inner push rod III, an inner slide rod I, an inner push spring IV, a lower slide rod I, a lower push spring I, a middle slide rod I, a middle slide block I, a middle rotor I, a transmission belt II, a crushing motor, a right slide rod I, a right slide block I, a right slide rod pulley I, a right slide wheel II and a right slide block II, wherein the crushing push rod I is connected with the crushing wheel body in a sliding manner, the two inner push rod I are respectively hinged between the crushing wheel body, and the two inner, two inner end pushers are respectively connected to the inner ends of two inner end push rods I in a sliding manner, the two inner end pushers are hinged to the crushing push rods I, a plurality of crushing pushers are arranged on the crushing boss I, an inner end sliding cavity II is arranged at the inner end of the crushing boss I, an inner end push spring I is arranged at the inner end of the inner end sliding cavity II, the inner end push rod II is connected with the inner end sliding cavity II in a sliding manner, the inner end push rod II is arranged between the inner end push spring I and the inner end push spring II, the crushing boss I is connected with the inner end sliding cavity I in a sliding manner, the inner end sliding cavity I is arranged on the crushing wheel body, an inner end push spring III is arranged in the inner end sliding cavity I, the inner end push rod II is fixedly connected with the crushing wheel body, the discharge port is arranged on the side wall of the crushing outer frame and is communicated with the discharge port, two inner, an inner end push spring IV is connected with an inner end slide bar I in a sliding way, an inner rotor I is connected with an inner end push rod III in a sliding way, a belt wheel I and a belt wheel II are respectively connected with two inner rotor I in a rotating way, a lower end slide bar I is fixedly connected with the crushing outer frame, a lower end push spring I is connected with a lower end slide bar I in a sleeving way, the inner end slide bar I is connected with the lower end slide bar I in a sliding way, the lower end push spring I is arranged between the two inner end slide bar I, a middle end slide bar I is fixedly connected with the crushing outer frame, a middle end slide bar I is connected with the middle end slide bar I in a sliding way, the middle end slide bar I is connected with the middle end rotor I in a rotating way, a transmission belt I is connected among the belt wheel I, the belt wheel II and the middle end rotor I, the crushing motor is fixedly connected with, the right end belt wheel I is rotatably connected with the right end slide block I, the right end slide block II is rotatably connected with the right end belt wheel II, and the transmission belt II is connected among the crushing motor, the right end belt wheel I, the right end belt wheel II and the middle end rotor I;
the magnetic desulfurizing device comprises a magnetic rod assembly, a transmission belt III, a lower side underframe, an end plate, a plurality of magnetic rods, a magnetic rod sleeve, an arc groove I, an arc groove II, an arc groove III, an inner end fixing groove, a rotating terminal, a hinge boss I, a hinge boss II, a hinge boss III, a screening plate, a screen hole, a hinge column I, a hinge column II, a rotating belt wheel A, a transmission bevel gear I, an input motor, an input bevel gear, a bottom plate, a left end rod, a left end hinge plate, a left end sliding groove, a rotating hinge frame, a right end fixing rod, a right end rod, two inner end hollow cavities, an arc fixing rod, a sliding sleeve spring I, a sliding sleeve spring II, a hinge terminal and a middle end transmission bevel gear A, wherein the magnetic rod assembly is in clearance fit connection with the transmission belt III, the lower side underframe is in clearance fit connection with the transmission belt III, the arc groove I, the arc groove II and the arc, the inner end fixing groove and the rotating terminal are arranged on the magnetic rod sleeve, the first hinge boss, the second hinge boss and the third hinge boss are fixedly connected to the rotating terminal, two magnetic rod sleeves and two end plates are arranged, the first hinge boss, the second hinge boss and the third hinge boss are respectively connected in the first arc-shaped groove, the second arc-shaped groove and the third arc-shaped groove in a clearance fit mode, the two magnetic rod sleeves are respectively and fixedly connected to two ends of the plurality of magnetic rods, two ends of the plurality of magnetic rods are respectively arranged in the inner end fixing groove, a plurality of sieve holes are formed in the sieve plates, a plurality of sieve holes are respectively arranged on the sieve plates, the first hinge column and the second hinge column are respectively and fixedly connected to the left side and the right side of the lower end face of the sieve plate, the rotating belt pulley A is fixedly connected with the first transmission bevel gear, the input motor is fixedly connected with the input bevel gear, the left end rod and the right end rod are respectively and fixedly connected with, the left-end hinged plate, the rotary hinged frame, the right-end hinged frame and the right-end fixed rod are fixedly connected with the bottom plate, the left-end sliding chute is arranged on the left-end hinged plate, the first transmission bevel gear is rotatably connected with the rotary hinged frame, the input motor is fixedly connected with the bottom plate, two ends of the sliding rod are respectively and slidably connected into two inner-end hollow cavities, the arc-shaped fixed rod is fixedly connected with the right-end hinged frame, the first sliding sleeve spring and the second sliding sleeve spring are respectively arranged in the inner-end hollow cavities, the first sliding sleeve spring and the second sliding sleeve spring are respectively arranged at the upper end and the lower end of the sliding rod, the hinged terminal is fixedly connected with the sliding rod, the middle-end transmission bevel gear A is rotatably connected with the hinged terminal, and the third transmission;
the wet desulphurization device comprises a first conveyor belt, a second conveyor belt, a third conveyor belt, a fourth conveyor belt, a fifth conveyor belt, a transmission belt B, two belt wheels I, a main body support, a first circulating pipe, a second belt wheel, a third belt wheel, two belt wheels IV, a bottom motor, a second circulating pipe, an inner cavity, a first hinged support, a second hinged support, a third hinged support, a fourth hinged support, a lower side main frame, a third circulating pipe, a fourth circulating pipe, a circulating motor, circulating blades, an inner sliding rod communicating pipe, a first communicating pipe, a closed hinged rod, a lower side closed rod, a push plate and a push plate push spring, wherein the first hinged support, the second hinged support, the third hinged support and the fourth hinged support are fixedly connected with the main body support, the inner cavity is arranged at the inner end of the main body support, the first two belt wheels are rotatably connected with the first hinged support, the second belt wheels are rotatably connected with the second hinged support, the, the first conveyor belt is connected between the first belt wheels, the second conveyor belt is connected between the first belt wheels and the second belt wheels, the fourth conveyor belt is connected between the third belt wheels and the fourth belt wheels, the fifth conveyor belt is connected between the fourth belt wheels, the first circulating pipe and the second circulating pipe are both arranged on the main body support, the first circulating pipe and the second circulating pipe are both communicated with the inner cavity, the bottom motor is fixedly connected with the main body support, the third conveyor belt is connected on the second belt wheels, the third belt wheels and the output shafts of the bottom motor, the main body support is fixedly connected with the lower side main frame, the lower side main frame and the fourth circulating pipe are both arranged at the inner end of the lower side main frame, the circulating motor is fixedly connected with the lower side main frame, the circulating blades are fixedly connected with the circulating motor, the circulating blades are arranged in the fourth circulating pipe, the third circulating pipe is communicated with the first circulating pipe, the second circulating pipe, the inner sliding rod is communicated with a third circulating pipe and a fourth circulating pipe, the push plate is connected with the lower side main frame in a sliding mode, the push plate is hinged with the closing hinge rod in a sliding mode, the closing hinge rod is rotatably connected with the lower side main frame, the closing hinge rod is hinged with the lower side closing rod, the lower side closing rod is rotatably connected with the lower side main frame, the push plate push spring is arranged at the lower end of the push plate, the first communicating pipe is arranged at the inner end of the lower side main frame, and the first communicating pipe is communicated with the third circulating pipe;
the air drying device comprises a connecting plate, a water leakage hole, an air drying motor, air drying fan blades, a collecting push plate, a middle end rod, a side wall slider I, a side wall slider II, a side wall closing rod, a side wall push spring I, a side wall push spring II, a side wall hinge rod I, a side wall connecting rod and a push spring, wherein the water leakage hole is formed in the connecting plate, the connecting plate is fixedly connected with the air drying motor, the air drying motor is fixedly connected with the air drying fan blades, the collecting push plate is slidably connected with the middle end rod, the middle end rod is fixedly connected with the connecting plate, the push spring is connected with the middle end rod in a sleeved mode, the push spring is arranged at the lower end of the collecting push plate, the side wall end rod is arranged on the side wall of the connecting plate, the side wall slider I and the side wall slider II are both slidably connected with the side wall end rod, the side wall closing rod is hinged with the side, the side wall hinge rod I is rotatably connected with the connecting plate, and the side wall push spring I and the side wall push spring II are both sleeved on the side wall end rod;
the bottom support includes that bottom push rod, bottom support main part and bottom support push away the spring, and bottom push rod and bottom support main part sliding connection, bottom support push away the spring setting between bottom push rod and bottom support main part, smash frame and bottom support main part fixed connection, bottom plate and bottom push rod fixed connection, downside body frame and bottom support main part fixed connection, connecting plate and bottom support main part fixed connection.
As a further optimization of the technical scheme, in the coal desulfurization device, the inner end push spring I and the inner end push spring II are in a compressed state.
As a further optimization of the technical solution, in the coal desulfurization apparatus of the present invention, the inner end push spring is in a compressed state all around.
As a further optimization of the technical scheme, the length of the first hinge column is greater than that of the second hinge column.
The coal desulfurization device has the beneficial effects that:
according to the coal desulfurization device, the first inner end push spring and the second inner end push spring are both in a compressed state, and the first crushing boss is far away from the second inner end push rod under the action of the elastic force of the first inner end push spring; the pushing of the inner end pushing spring III and the pushing spring to the crushing boss I is balanced through the elastic force of the inner end pushing spring II, so that the crushing boss I is not contacted with the inner end pushing rod II; the plurality of magnetic rods can adsorb iron sulfide impurities in the crushed coal blocks, so that primary desulfurization of the crushed coal blocks can be conveniently completed through the plurality of magnetic rods; a calcium chloride solution is arranged in the inner cavity, and wet desulphurization is completed through the contact of the calcium chloride solution in the inner cavity and the coal briquette; the inner cavity, the circulating pipe III and the circulating pipe I are communicated, and the circulating pipe II are communicated to complete the circulation of the calcium chloride solution.
Drawings
The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.
FIG. 1 is a schematic view showing the overall construction of a coal desulfurization apparatus according to the present invention;
FIG. 2 is a first schematic view of the crushing apparatus according to the present invention;
FIG. 3 is a schematic structural view of a second embodiment of the crushing apparatus of the present invention;
FIG. 4 is a third schematic view of the comminution device according to the invention;
FIG. 5 is a fourth schematic structural view of the comminution apparatus of the invention;
FIG. 6 is a fifth schematic view of the comminution apparatus according to the invention;
FIG. 7 is a sixth schematic view of the comminution apparatus according to the invention;
FIG. 8 is a first schematic structural view of a magnetic desulfurization apparatus according to the present invention;
FIG. 9 is a schematic structural view of a magnetic desulfurization apparatus of the present invention;
FIG. 10 is a schematic cross-sectional view of a magnetic desulfurization unit D-D of the present invention;
FIG. 11 is a third schematic structural view of a magnetic desulfurization apparatus according to the present invention;
FIG. 12 is a fourth schematic structural view of the magnetic desulfurization apparatus of the present invention;
FIG. 13 is a schematic cross-sectional view of the magnetic desulfurization unit A-A of the present invention;
FIG. 14 is a schematic structural view of a magnetic desulfurization apparatus of the present invention;
FIG. 15 is a sixth schematic view of the magnetic desulfurization apparatus of the present invention;
FIG. 16 is a seventh schematic structural view of a magnetic desulfurization apparatus according to the present invention;
FIG. 17 is a schematic view eight of the magnetic desulfurization apparatus of the present invention;
FIG. 18 is a ninth structural schematic view of the magnetic desulfurization apparatus of the present invention;
FIG. 19 is a first schematic view of the wet desulfurization apparatus of the present invention;
FIG. 20 is a schematic view of a second embodiment of the wet desulfurization apparatus of the present invention;
FIG. 21 is a schematic view of the configuration of a wet desulfurization unit according to the present invention;
FIG. 22 is a fourth schematic view of the wet desulfurization unit of the present invention;
FIG. 23 is a schematic diagram of a fifth embodiment of the wet desulfurization apparatus of the present invention;
FIG. 24 is a first schematic view of the first embodiment of the present invention;
FIG. 25 is a schematic structural view of an air drying apparatus of the present invention;
FIG. 26 is a third schematic structural view of an air drying apparatus according to the present invention;
fig. 27 is a schematic view of the bottom bracket structure of the present invention.
In the figure: a crushing device 1; crushing the outer frame 1-1; 1-2 parts of a crushing wheel; 1-3 parts of a crushing wheel body; 1-4 parts of a crushing push rod I; the inner end push rod I is 1-5; inner end springs 1-6; 1-7 parts of inner-end clippers; 1-8 of crushing boss I; crushing 1-9 parts of clippers; the inner end pushes the spring 1-10; the inner end pushes a spring II 1-11; a second push rod 1-12 at the inner end; the inner end pushes a spring III 1-13; inner end sliding cavities 1-14; a second sliding cavity 1-15 at the inner end; 1-16 parts of a discharge port; 1-17 of a belt wheel I; 1-18 parts of a first transmission belt; a second belt wheel 1-19; 1-20 parts of an inner rotor; an inner end push rod III 1-21; the inner end of the sliding rod I is 1-22; the inner end pushes the spring four 1-23; 1-24 sliding rods at the lower end; a lower end push spring 1-25; 1-26 middle slide bars; 1-27 of a middle slide block; 1-28 of middle-end rotor; a second transmission belt 1-29; 1-30 parts of a crushing motor; a first right-end sliding rod 1-31; 1-32 right slide blocks; a first right end belt wheel 1-33; a second right belt wheel 1-34; a second right-end sliding block 1-35; a magnetic desulfurization device 2; a magnetic bar assembly 2-1; a third transmission belt 2-2; a lower chassis 2-3; 2-4 of an end plate; 2-5 of magnetic bars; 2-6 of magnetic rod sleeve; 2-7 of an arc-shaped groove; 2-8 of an arc-shaped groove II; 2-9 of arc-shaped groove; inner end fixing grooves 2-11; rotating the terminals 2-12; 2-13 of a hinge boss I; 2-14 of a second hinge boss; hinging bosses III 2-15; 2-16 of a screening plate; 2-17 of sieve pores; hinge posts one 2-18; the second hinge column 2-19; a rotating pulley A2-20; the first transmission bevel gear is 2-21; input motors 2-22; inputting bevel teeth 2-23; 2-24 of a bottom plate; 2-25 of left end rod; hinge plates 2-26 at the left end; 2-27 of left end chute; a pivoting articulated frame 2-28; the right end is hinged with a frame 2-29; 2-30 parts of a right end fixing rod; right end rod 2-31; 2-32 of an inner hollow cavity; 2-33 arc-shaped fixing rods; slide bars 2-34; 2-35 of sliding sleeve spring; 2-36 parts of sliding sleeve spring; hinge terminals 2-37; middle end transmission bevel gear A2-38; a wet desulfurization device 3; 3-1 of a first conveyer belt; a second conveyor belt 3-2; 3-3 parts of a conveyer belt; a fourth conveying belt 3-4; 3-5 of a conveyor belt; belt B3-6; 3-7 of a first belt wheel; 3-8 parts of a main body bracket; 3-9 parts of a first circulating pipe; 3-10 of a second belt wheel; 3-11 of a belt wheel; belt wheels four 3-12; a bottom end motor 3-13; a second circulation pipe 3-14; 3-15 parts of inner cavity; 3-16 parts of a hinge frame; a second hinge frame 3-17; three hinge brackets 3-18; four hinged brackets 3-19; 3-20 parts of lower main frame; circulating pipe three 3-21; circulating pipe four 3-22; 3-23 of a circulating motor; 3-24 parts of circulating blades; 3-25 parts of an inner slide bar; inner-slide communicating tubes 3-26; a first communicating pipe 3-27; closing the hinge rods 3-28; lower closure bars 3-29; 3-30 parts of a push plate; 3-31 parts of push plate push spring; an air drying device 4; a connecting plate 4-1; water leakage holes 4-2; 4-3, air-drying the motor; air-drying fan blades 4-4; collecting 4-5 push plates; 4-6 of middle end rod; side wall end rods 4-7; 4-8 of a side wall slider I; 4-9 parts of a side wall slider II; 4-10 parts of a side wall closing rod; 4-11 of a side wall push spring; 4-12 parts of side wall push spring II; side wall hinge rods I4-13; side wall connecting rods 4-14; 4-15 of a push spring; a bottom end bracket 5; a bottom end push rod 5-1; a bottom end bracket main body 5-2; and 5-3 parts of a bottom bracket push spring.
Detailed Description
The present invention will be described in further detail with reference to the accompanying drawings.
The fixed connection in the device is realized by fixing in modes of welding, thread fixing and the like, and different fixing modes are used in combination with different use environments; the rotary connection means that the bearing is arranged on the shaft in a drying mode, a spring retainer ring groove is formed in the shaft or the shaft hole, and the elastic retainer ring is clamped in the retainer ring groove to achieve axial fixation of the bearing and achieve rotation; the sliding connection refers to the connection through the sliding of the sliding block in the sliding groove or the guide rail; the hinge joint is a movable connection mode on connecting parts such as a hinge, a pin shaft, a short shaft and the like; the required sealing positions are sealed by sealing rings or O-shaped rings.
The first embodiment is as follows:
the present embodiment will be described below with reference to fig. 1 to 27, and a coal desulfurization apparatus includes a pulverization apparatus 1, a magnetic desulfurization apparatus 2, a wet desulfurization apparatus 3, an air drying apparatus 4, and a bottom end support 5, and is characterized in that: the crushing device 1 comprises a crushing outer frame 1-1, a crushing wheel 1-2, a crushing wheel body 1-3, a crushing push rod I1-4, two inner end push rods I1-5, two inner end springs 1-6, two inner end clippers 1-7, a crushing boss I1-8, a plurality of crushing clippers 1-9, an inner end push spring I1-10, an inner end push spring II 1-11, an inner end push rod II 1-12, an inner end push spring III 1-13, an inner end sliding cavity I1-14, an inner end sliding cavity II 1-15, a discharge port 1-16, a belt wheel I1-17, a transmission belt I1-18, a belt wheel II 1-19, an inner rotor I1-20, an inner end push rod III 1-21, an inner end slide rod I1-22, an inner end push spring IV 1-23, A first lower end sliding rod 1-24, a first lower end push spring 1-25, a first middle end sliding rod 1-26, a first middle end sliding block 1-27, a first middle end rotor 1-28, a second transmission belt 1-29, a crushing motor 1-30, a first right end sliding rod 1-31, a first right end sliding block 1-32, a first right end belt wheel 1-33, a second right end belt wheel 1-34 and a second right end sliding block 1-35, wherein a first crushing push rod 1-4 is slidably connected with a crushing wheel body 1-3, two first inner end push rods 1-5 are respectively hinged between the crushing wheel bodies 1-3, two inner end springs 1-6 are arranged at the inner ends of the first two inner end push rods 1-5, two inner end clippers 1-7 are respectively slidably connected at the inner ends of the first two inner end push rods 1-5, and two inner end clippers 1-7 are both hinged on the first crushing push rods 1-4, a plurality of crushing clippers 1-9 are arranged on a crushing boss I1-8, an inner end sliding cavity II 1-15 is arranged at the inner end of the crushing boss I1-8, an inner end pushing spring I1-10 is arranged at the inner end of the inner end sliding cavity II 1-15, an inner end push rod II 1-12 is connected with the inner end sliding cavity II 1-15 in a sliding manner, an inner end push rod II 1-12 is arranged between the inner end pushing spring I1-10 and the inner end pushing spring II 1-11, the crushing boss I1-8 is connected with the inner end sliding cavity I1-14 in a sliding manner, the inner end sliding cavity I1-14 is arranged on a crushing wheel body 1-3, an inner end pushing spring III 1-13 is arranged in the inner end sliding cavity I1-14, the inner end push rod II 1-12 is fixedly connected with the crushing wheel body 1-3, a discharge port 1-16 is arranged on the side wall of a crushing outer frame 1-1, and the crushing 1-1 The two inner end sliding rods 1-22 are arranged, the two inner rotor rods 1-20 are arranged, the inner end push rods three 1-21 are fixedly connected with the inner end sliding rods 1-22, the inner end push springs four 1-23 are slidably connected with the inner end sliding rods 1-22, the inner rotor rods 1-20 are slidably connected with the inner end push rods three 1-21, the belt wheels 1-17 and the belt wheels 1-19 are respectively rotatably connected with the two inner rotor rods 1-20, the lower end sliding rods 1-24 are fixedly connected with the crushing outer frame 1-1, the lower end push springs 1-25 are connected with the lower end sliding rods 1-24 in a sleeved mode, the inner end sliding rods 1-22 are slidably connected with the lower end sliding rods 1-24, the lower end push springs 1-25 are arranged between the two inner end sliding rods 1-22, and the middle end sliding rods 1-26 are fixedly connected with the crushing outer frame 1-1, the middle end slide block I1-27 is connected with the middle end slide block I1-26 in a sliding way, the middle end slide block I1-27 is connected with the middle end rotor I1-28 in a rotating way, the transmission belt I1-18 is connected between the belt wheel I1-17, the belt wheel II 1-19 and the middle end rotor I1-28, the grinding motor 1-30 is fixedly connected with the grinding outer frame 1-1, the output shaft of the grinding motor 1-30 is fixedly connected with the belt wheel, the right end slide block I1-31 is fixedly connected with the grinding outer frame 1-1, the right end slide block I1-32 and the right end slide block II 1-35 are both connected with the right end slide block I1-31 in a sliding way, the right end belt wheel I1-33 is connected with the right end slide block I1-32 in a rotating way, and the right end slide, the transmission belt II 1-29 is connected among the crushing motor 1-30, the right end belt wheel I1-33, the right end belt wheel II 1-34 and the middle end rotor I1-28;
the inner end push springs 1-10 and the inner end push springs 1-11 are in a compressed state, and the crushing bosses 1-8 are far away from the inner end push rods 1-12 under the action of the elastic force of the inner end push springs 1-10; the pushing of the inner end pushing springs 1-13 and the pushing springs 1-10 to the crushing bosses 1-8 is balanced through the elastic force of the inner end pushing springs 1-11, so that the crushing bosses 1-8 are not contacted with the inner end push rods 1-12;
the magnetic desulfurizing device 2 comprises a magnetic rod assembly 2-1, a transmission belt III 2-2, a lower side underframe 2-3, an end plate 2-4, a plurality of magnetic rods 2-5, a magnetic rod sleeve 2-6, an arc groove I2-7, an arc groove II 2-8, an arc groove III 2-9, an inner end fixing groove 2-11, a rotating terminal 2-12, a hinge boss I2-13, a hinge boss II 2-14, a hinge boss III 2-15, a sieve moving plate 2-16, a sieve mesh 2-17, a hinge column I2-18, a hinge column II 2-19, a rotating belt pulley A2-20, a transmission cone tooth I2-21, an input motor 2-22, an input cone tooth 2-23, a bottom plate 2-24, a left end rod 2-25, a left end hinge plate 2-26, 2-27 of a left end chute, 2-28 of a rotary hinged frame, 2-29 of a right end hinged frame, 2-30 of a right end fixed rod, 2-31 of a right end rod, 2-32 of two inner hollow cavities, 2-33 of an arc fixed rod, 2-34 of a sliding rod, 2-35 of a sliding sleeve spring, 2-36 of a sliding sleeve spring, 2-37 of a hinged terminal and 2-38 of a middle end transmission bevel gear A2-38, 2-1 of a magnetic rod assembly is in clearance fit connection with a transmission belt III 2-2, 2-3 of a lower side underframe is in clearance fit connection with the transmission belt III 2-2, 2-7 of an arc groove I, 2-8 of an arc groove II and 2-9 of an arc groove III are all arranged on an end plate 2-4, 2-11 of an inner end fixed groove and 2-12 of a rotary terminal are all arranged on a magnetic rod sleeve, the first hinged lug boss 2-13, the second hinged lug boss 2-14 and the third hinged lug boss 2-15 are fixedly connected to a rotating terminal 2-12, two magnetic rod sleeves 2-6 and two end plates 2-4 are arranged, the first hinged lug boss 2-13, the second hinged lug boss 2-14 and the third hinged lug boss 2-15 are respectively connected in the first arc-shaped groove 2-7, the second arc-shaped groove 2-8 and the third arc-shaped groove 2-9 in a clearance fit mode, the two magnetic rod sleeves 2-6 are respectively and fixedly connected to two ends of the plurality of magnetic rods 2-5, two ends of the plurality of magnetic rods 2-5 are respectively arranged in the inner end fixing grooves 2-11, a plurality of sieve holes 2-17 are arranged, a plurality of sieve holes 2-17 are respectively arranged on the sieve moving plates 2-16, the first hinged columns 2-18 and the second hinged columns 2-19 are respectively and hingedly connected to the left side and the right side of the lower end face of the, the rotating belt wheel A2-20 is fixedly connected with a first transmission bevel gear 2-21, the input motor 2-22 is fixedly connected with an input bevel gear 2-23, a left end rod 2-25 and a right end rod 2-31 are fixedly connected with a bottom plate 2-24, two inner end hollow cavities 2-32 are respectively arranged on the left end rod 2-25 and the right end rod 2-31, a left end hinged plate 2-26, a rotating hinged frame 2-28, a right end hinged frame 2-29 and a right end fixed rod 2-30 are respectively fixedly connected with the bottom plate 2-24, a left end sliding groove 2-27 is arranged on the left end hinged plate 2-26, the first transmission bevel gear 2-21 is rotatably connected with the rotating hinged frame 2-28, the input motor 2-22 is fixedly connected with the bottom plate 2-24, two ends of a sliding rod 2-34 are respectively slidably connected in the two inner end hollow cavities 2-32, the arc-shaped fixed rod 2-33 is fixedly connected with the right end hinge frame 2-29, the sliding sleeve spring I2-35 and the sliding sleeve spring II 2-36 are arranged in the inner hollow cavity 2-32, the sliding sleeve spring I2-35 and the sliding sleeve spring II 2-36 are respectively arranged at the upper end and the lower end of the sliding rod 2-34, the hinge terminal 2-37 is fixedly connected with the sliding rod 2-34, the middle end transmission bevel gear A2-38 is rotatably connected with the hinge terminal 2-37, and the transmission belt III 2-2 is connected between the magnetic rod sleeve 2-6 and the rotating belt pulley A2-20;
the magnetic rods 2-5 can adsorb iron sulfide impurities in the crushed coal blocks, so that primary desulfurization of the crushed coal blocks can be conveniently completed through the magnetic rods 2-5;
the wet desulphurization device 3 comprises a first conveyor belt 3-1, a second conveyor belt 3-2, a third conveyor belt 3-3, a fourth conveyor belt 3-4, a fifth conveyor belt 3-5, a transmission belt B3-6, two belt wheels 3-7, a main body support 3-8, a first circulation pipe 3-9, a second belt wheel 3-10, a third belt wheel 3-11, two belt wheels four 3-12, a bottom end motor 3-13, a second circulation pipe 3-14, an inner cavity 3-15, a first hinge frame 3-16, a second hinge frame 3-17, a third hinge frame 3-18, a fourth hinge frame 3-19, a lower main frame 3-20, a third circulation pipe 3-21, a fourth circulation pipe 3-22, a circulation motor 3-23, circulation blades 3-24, an inner slide rod 3-25, a third circulation pipe 3-4, a fourth circulation pipe 3-12, 3-26 parts of inner slide rod communicating pipe, 3-27 parts of communicating pipe, 3-28 parts of closed hinged rod, 3-29 parts of lower side closed rod, 3-30 parts of push plate and 3-31 parts of push plate push spring, 3-16 parts of hinged frame, 3-17 parts of hinged frame, 3-18 parts of hinged frame and 3-19 parts of hinged frame are all fixedly connected with 3-8 parts of main body support, 3-15 parts of inner cavity are arranged at inner end of 3-8 parts of main body support, 3-7 parts of two belt wheels are rotationally connected with 3-16 parts of hinged frame, 3-10 parts of belt wheels are rotationally connected with 3-17 parts of hinged frame, 3-11 parts of belt wheels are rotationally connected with 3-18 parts of hinged frame, 3-12 parts of two belt wheels are rotationally connected with 3-19 parts of hinged frame, 3-1 part of conveying belt is connected between 3-7 parts of two, a second conveyor belt 3-2 is connected between a first belt wheel 3-7 and a second belt wheel 3-10, a fourth conveyor belt 3-4 is connected between a third belt wheel 3-11 and a fourth belt wheel 3-12, a fifth conveyor belt 3-5 is connected between the fourth belt wheels 3-12, a first circulating pipe 3-9 and a second circulating pipe 3-14 are both arranged on a main body support 3-8, the first circulating pipe 3-9 and the second circulating pipe 3-14 are both communicated with an inner cavity 3-15, a bottom end motor 3-13 is fixedly connected with the main body support 3-8, the third conveyor belt 3-3 is connected on output shafts of the second belt wheel 3-10, the third belt wheel 3-11 and the bottom end motor 3-13, the main body support 3-8 is fixedly connected with a lower main frame 3-20, the lower main frame 3-20 and the fourth circulating pipe 3-22 are both arranged at the inner end of the lower main frame 3-20, the circulating motor 3-23 is fixedly connected with the lower main frame 3-20, the circulating blade 3-24 is fixedly connected with the circulating motor 3-23, the circulating blade 3-24 is arranged in the circulating pipe four 3-22, the circulating pipe three 3-21 is communicated with the circulating pipe one 3-9, the circulating pipe two 3-14 is communicated with the circulating pipe two 3-14, the inner slide bar 3-25 is fixedly connected with the lower main frame 3-20, the inner slide bar communicating pipe 3-26 is arranged on the inner slide bar 3-25, the inner slide bar 3-25 is communicated with the circulating pipe three 3-21 and the circulating pipe four 3-22, the push plate 3-30 is slidably connected with the lower main frame 3-20, the push plate 3-30 is slidably hinged with the closing hinged rod 3-28, the closing hinged rod 3-28 is rotatably connected with the lower main frame 3-20, the closed hinged rods 3-28 are hinged with the lower side closed rods 3-29, the lower side closed rods 3-29 are rotatably connected with the lower side main frame 3-20, the push plate push springs 3-31 are arranged at the lower ends of the push plates 3-30, the communicating pipes 3-27 are arranged at the inner ends of the lower side main frame 3-20, and the communicating pipes 3-27 are communicated with the circulating pipes three 3-21 and the circulating pipes four 3-22;
a calcium chloride solution is arranged in the inner cavity 3-15, and wet desulphurization is completed through the contact of the calcium chloride solution in the inner cavity 3-15 and the coal briquette; the inner cavity 3-15, the circulation pipe 3-21 and the circulation pipe I3-9, and the circulation pipe II 3-14 are communicated to complete the circulation of the calcium chloride solution;
the air drying device 4 comprises a connecting plate 4-1, water leakage holes 4-2, an air drying motor 4-3, air drying fan blades 4-4, a collecting push plate 4-5, a middle end rod 4-6, a side wall end rod 4-7, a side wall slider I4-8, a side wall slider II 4-9, a side wall closing rod 4-10, a side wall push spring I4-11, a side wall push spring II 4-12, a side wall hinge rod I4-13, a side wall connecting rod 4-14 and a push spring 4-15, the water leakage holes 4-2 are arranged on the connecting plate 4-1, the connecting plate 4-1 is fixedly connected with the air drying motor 4-3, the air drying motor 4-3 is fixedly connected with the air drying fan blades 4-4, the collecting push plate 4-5 is slidably connected with the middle end rod 4-6, the middle end rod 4-6 is fixedly connected with the connecting plate 4-1, the push springs 4-15 are connected with the middle end rod 4-6 in a sleeved mode, the push springs 4-15 are arranged at the lower end of the collecting push plate 4-5, the side wall end rods 4-7 are arranged on the side wall of the connecting plate 4-1, the side wall sliders I4-8 and the side wall sliders II 4-9 are connected with the side wall end rods 4-7 in a sliding mode, the side wall closing rods 4-10 are hinged to the side wall of the connecting plate 4-1, the side wall hinge rods I4-13 are hinged to the side wall sliders II 4-9, the side wall hinge rods I4-13 are hinged to the side wall closing rods 4-10, the side wall hinge rods I4-13 are rotatably connected with the connecting plate 4-1, and the side wall push springs I4-11 and the side wall push springs II 4-12 are connected with the side wall end rods 4-7 in a sleeved;
the bottom support 5 comprises a bottom push rod 5-1, a bottom support main body 5-2 and a bottom support push spring 5-3, the bottom push rod 5-1 is connected with the bottom support main body 5-2 in a sliding mode, the bottom support push spring 5-3 is arranged between the bottom push rod 5-1 and the bottom support main body 5-2, the crushing outer frame 1-1 is fixedly connected with the bottom support main body 5-2, the bottom plate 2-24 is fixedly connected with the bottom push rod 5-1, the lower side main frame 3-20 is fixedly connected with the bottom support main body 5-2, and the connecting plate 4-1 is fixedly connected with the bottom support main body 5-2.
The second embodiment is as follows:
the first embodiment will be described with reference to fig. 1 to 27, and the first embodiment will be further described with the inner end push springs 1 to 10 and the inner end push springs 1 to 11 being in a compressed state.
The third concrete implementation mode:
this embodiment will be described with reference to fig. 1 to 27, and this embodiment will further describe the first embodiment in which the inner end push springs four 1 to 23 are in a compressed state.
The fourth concrete implementation mode:
the present embodiment is described below with reference to fig. 1-27, and the present embodiment further describes the first embodiment in that the length of the first hinge post 2-18 is greater than the length of the second hinge post 2-19.
The coal desulfurization device of the invention has the working principle that:
when in use, raw coal is put into the crushing outer frame 1-1 from the upper end of the crushing outer frame 1-1, the crushing motor 1-30 is started, the crushing motor 1-30 rotates to drive the transmission belt II 1-29 to rotate, the transmission belt II 1-29 rotates to drive the middle end rotor I1-28 to rotate, the middle end rotor I1-28 rotates to drive the transmission belt I1-18 to rotate, the transmission belt I1-18 rotates to be connected with the belt wheel I1-17 and the belt wheel II 1-19 in an interference fit manner through the transmission belt I1-18, the belt wheel I1-17 and the belt wheel II 1-19 are driven to rotate simultaneously, and the crushing wheel body 1-3 is driven to rotate through the fixed connection between the belt wheel I1-17 and the belt wheel II 1-19 and the crushing wheel body 1-3, poking raw coal to the inner end of the crushing outer frame 1-1 through a crushing push rod I1-4 connected with the crushing wheel body 1-3 in a sliding manner, extruding the raw coal through a crushing boss I1-8 and a crushing pusher 1-9 to complete crushing work of the raw coal, and enabling the crushed raw coal to flow out through a discharge port 1-16 on the crushing outer frame 1-1; the input motor 2-22 is started, the input motor 2-22 rotates to drive the input bevel gear 2-23 to rotate, the raw coal block flowing out of the discharge port 1-16 falls into the screening plate 2-16, the screening plate 2-16 drives the hinge post I2-18 and the hinge post II 2-19 to slide downwards along the left end rod 2-25 and the right end rod 2-31 respectively under the action of the gravity of the raw coal block pushing the screening plate 2-16, the sliding rod 2-34 is pushed to simultaneously move downwards along the hinge post I2-18 and the hinge post II 2-19 through the sliding sleeve spring II 2-36 arranged on the sliding rod 2-34, and the middle end transmission bevel gear A2-38 connected on the sliding rod 2-34 is in meshing transmission with the transmission bevel gear I2-21 and the input bevel gear 2-23, the transmission between the first transmission bevel gear 2-21 and the input bevel gear 2-23 is realized, the first transmission bevel gear 2-21 rotates to drive the rotating belt pulley A2-20 to rotate, the rotating belt pulley A2-20 drives the magnetic rod sleeve 2-6 to rotate through the third transmission belt 2-2, the magnetic rod sleeve 2-6 rotates to drive the magnetic rod 2-5 to rotate around the axis of the arc-shaped fixed rod 2-33, and the magnetic force of the magnetic rod 2-5 is used for adsorbing iron sulfide impurities in the crushed coal briquette to finish the process of physical desulfurization; starting a bottom end motor 3-13, driving a conveyor belt III 3-3 to rotate by the rotation of the bottom end motor 3-13, driving a conveyor belt II 3-2 to rotate by the rotation of the conveyor belt III 3-10, driving a conveyor belt I3-7 to rotate by the rotation of the conveyor belt II 3-2, driving a conveyor belt I3-1 to rotate by the rotation of the conveyor belt I3-7, driving a conveyor belt IV 3-4 to rotate by a conveyor belt III 3-11, driving a conveyor belt IV 3-4 to rotate by a conveyor belt IV 3-12, driving a conveyor belt IV 3-5 to rotate by a conveyor belt IV 3-12, and conveying the crushed coal blocks from the conveyor belt I3-1 to the conveyor belt IV 3-5 by the rotation of the conveyor belt IV 3-1, the conveyor belt II 3-2, the conveyor belt III 3-3, the conveyor belt IV 3-4 and the conveyor belt IV 3-5, and through the infiltration of the calcium chloride solution in the inner cavity 3-15, wet desulphurization is completed through the contact of the calcium chloride solution in the inner cavity 3-15 and the coal briquette, the coal briquette after wet desulphurization falls into the connecting plate 4-1, the air drying motor 4-3 is started and drives the air drying fan blade 4-4 to rotate, the air drying fan blade 4-4 rotates to drive air to flow, and the raw coal briquette on the connecting plate 4-1 is subjected to Von air drying treatment through the water leakage hole 4-2, so that the desulphurization process of the raw coal is completed.
It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.