CN113604666A - Rare earth extraction decomposes integrative equipment - Google Patents

Abstract

The invention relates to decomposition equipment, in particular to rare earth extraction and decomposition integrated equipment. The invention provides a rare earth extraction and decomposition integrated device which can rapidly extract and decompose rare earth, can collect and store the extracted and decomposed rare earth as required and can rapidly and uniformly stir the rare earth. The utility model provides an integrative equipment of rare earth extraction decomposition, installs the blowing frame including the stabilizer blade top, and blowing frame lower part runs through the slidingtype and is equipped with first baffle, is equipped with the layering mechanism on the blowing frame, and the layering mechanism is connected with first baffle, and blowing frame lower part is equipped with the stock stop, stock stop and the cooperation of layering mechanism. The invention can ensure that the rare earth has enough precipitation time and effectively increase the rare earth extraction decomposition effect by arranging the layering mechanism and the material blocking mechanism; the invention can control the opening and closing of the second baffle plate according to the requirement by arranging the pulling mechanism and the material blocking mechanism, thereby effectively reducing the labor intensity of workers.

Description

Rare earth extraction decomposes integrative equipment

Technical Field

The invention relates to decomposition equipment, in particular to rare earth extraction and decomposition integrated equipment.

Background

The main process adopted by the rare earth production at present is oxidation sintering, acid leaching, extraction and the like in a wet smelting process, wherein the extraction is one of key links for ensuring the recovery rate of the rare earth, the separation effect of the rare earth and the purity of a product in the process flow, the rare earth is also one of main sources of wastewater in the smelting process, great labor is consumed for manually extracting and decomposing the rare earth by workers, long time is consumed for manually collecting the extracted and decomposed rare earth by workers, and the process of manually stirring the rare earth by the workers is complicated.

Therefore, the rare earth extraction and decomposition integrated equipment which can rapidly extract and decompose the rare earth, collect and store the extracted and decomposed rare earth as required and rapidly extract and decompose the rare earth uniformly needs to be designed.

Disclosure of Invention

The invention aims to provide a rare earth extraction and decomposition integrated device which can quickly extract and decompose rare earth, collect and store the extracted and decomposed rare earth as required and quickly stir the rare earth uniformly, so as to solve the defects that great labor is required to be consumed for manually extracting and decomposing the rare earth by workers, long time is required to be consumed for manually collecting the rare earth after extraction and decomposition by workers, and the process of manually stirring the rare earth uniformly by the workers is complicated in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides an integrative equipment is decomposed in rare earth extraction, includes stabilizer blade, blowing frame and first baffle, and the blowing frame is installed to the stabilizer blade top, and the blowing frame lower part is run through the slidingtype and is equipped with first baffle, is equipped with the layering mechanism on the blowing frame, and the layering mechanism is connected with first baffle, and blowing frame lower part is equipped with stock stop, stock stop and the cooperation of layering mechanism.

Further, the first supports are symmetrically welded on two sides of the discharging frame, the air cylinders are mounted on the first supports on the two sides, the third support is connected between the tops of the first baffle plates, the telescopic rods of the air cylinders are connected with the two portions of the third support, the second supports are welded on the lower portions of the two sides of the discharging frame, the first springs are connected between the two second supports and the first baffle plates, and the number of the first springs is two.

Furthermore, fourth supports are welded to the lower portions of two sides of the discharging frame, first sliding rods are welded to the two fourth supports, the number of the first sliding rods is two, a second baffle is arranged between the two first sliding rods in a sliding mode, second springs are sleeved on the two fourth supports, and two ends of each second spring are connected to the fourth supports and the second baffle respectively.

Further, first baffle top symmetric welding has the fifth support, blowing frame lower part symmetric welding has the roating seat, the rotary type is equipped with first reel between two roating seats, blowing frame lower part symmetric welding has the sixth support, the rotary type is equipped with the second reel between two sixth support lower parts, first sliding sleeve has all been welded to second baffle bottom both sides, equal slidingtype is equipped with the second slide bar in two first sliding sleeves, all the cover is equipped with the third spring on two second slide bars, the both ends of third spring are connected respectively on first sliding sleeve and second slide bar, the stay cord has all been welded to two second slide bar tip, two stay cords are connected on the fifth support that corresponds around second reel and first reel.

Further, be connected with the second sliding sleeve between the blowing frame top, the gliding style is equipped with the mounting panel on the second sliding sleeve, the symmetry cover is equipped with the fourth spring on the mounting panel, the both ends of fourth spring are connected respectively on mounting panel and second sliding sleeve, be connected with the seventh support between the mounting panel top, there is the motor through the bolt rigid coupling between the seventh support, blowing frame top symmetric welding has the eighth support, equal slidingtype is equipped with first wedge on two eighth supports, first wedge and mounting panel contact cooperation, all the cover is equipped with the fifth spring on two first wedges, the both ends of fifth spring are connected respectively on first wedge and eighth support, the output shaft of motor passes second sliding sleeve and mounting panel, the rigid coupling has the puddler on the output shaft of motor.

Further, third sliding sleeves are symmetrically welded on two sides of the discharging frame, a connecting rod is connected between the two first wedge-shaped blocks, fourth sliding sleeves are symmetrically welded on two sides of the top of the third support, third sliding rods are welded in the two fourth sliding sleeves, the number of the third sliding rods is two, the two third sliding rods are in sliding fit with the third sliding sleeves, the third sliding rods are in contact fit with the connecting rod, sixth springs are sleeved on the two third sliding rods, and two ends of each sixth spring are connected to the fourth sliding sleeves and the third sliding rods respectively.

Further, be connected with the collection frame between the stabilizer blade, the symmetrical welding of collection frame bottom has the fifth sliding sleeve, and equal slidingtype is equipped with the jam pole in two fifth sliding sleeves, and two jam poles and the cooperation of collection frame slidingtype all overlap on two jam poles and be equipped with the seventh spring, and the both ends of seventh spring are connected respectively on fifth sliding sleeve and jam pole, collect the frame slidingtype and be equipped with the hand-pulling piece, and the welding of hand-pulling piece bilateral symmetry has the second wedge, second wedge and the cooperation of jam pole contact.

Further, the jamming rod is cylindrical in shape.

Compared with the prior art, the invention has the beneficial effects that: 1. the invention can ensure that the rare earth has enough precipitation time and effectively increase the rare earth extraction decomposition effect by arranging the layering mechanism and the material blocking mechanism;

2. the invention can control the opening and closing of the second baffle plate according to the requirement by arranging the pulling mechanism and the material blocking mechanism, thereby effectively reducing the labor intensity of workers;

3. according to the invention, the stirring mechanism and the discharging frame are arranged, so that rare earth in the discharging frame can be quickly and uniformly stirred;

4. the invention realizes the sliding of the first wedge-shaped block at intervals by arranging the pushing mechanism and the stirring mechanism, thereby effectively improving the rare earth extraction speed;

5. according to the invention, the rare earth can be collected and stored by arranging the collecting mechanism and the discharging frame, so that the rare earth can be effectively prevented from flowing out too fast.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of the layered structure of the present invention.

Fig. 3 is a schematic perspective view of the stock stop of the present invention.

Fig. 4 is a schematic perspective view of the pulling mechanism of the present invention.

Fig. 5 is a schematic perspective view of the stirring mechanism of the present invention.

Fig. 6 is a schematic perspective view of the pushing mechanism of the present invention.

Fig. 7 is a schematic perspective view of the collecting mechanism of the present invention.

Reference numerals: 1_ foot, 2_ discharge frame, 3_ first flap, 4_ layering mechanism, 41_ first bracket, 42_ cylinder, 43_ second bracket, 44_ first spring, 45_ third bracket, 5_ striker, 51_ fourth bracket, 52_ first slide bar, 53_ second flap, 54_ second spring, 6_ pulling mechanism, 61_ fifth bracket, 62_ swivel seat, 63_ first reel, 64_ sixth bracket, 65_ second reel, 66_ first slide, 67_ second slide bar, 68_ third spring, 69_ pull rope, 7_ stirring mechanism, 71_ second slide bar, 72_ mounting plate, 73_ fourth spring, 74_ seventh bracket, 75_ motor, 76_ eighth bracket, 77_ first wedge block, 78_ fifth spring, 79_ stirring bar, 8_ pushing mechanism, 81_ third slide bar, 82_ connecting bar, 83_ fourth slide bar, 84_ third slide bar, 85_ sixth spring, 9_ collection mechanism, 91_ collection frame, 92_ fifth sliding sleeve, 93_ jamming rod, 94_ seventh spring, 95_ hand-pull block, 96_ second wedge block.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-7, the present invention provides a technical solution: a rare earth extraction and decomposition integrated device comprises a support leg 1, a discharge frame 2, a first baffle 3, a layering mechanism 4, a first support 41, a cylinder 42, a second support 43, a first spring 44, a third support 45, a material blocking mechanism 5, a fourth support 51, a first sliding rod 52, a second baffle 53, a second spring 54, a pulling mechanism 6, a fifth support 61, a rotary seat 62, a first reel 63, a sixth support 64, a second reel 65, a first sliding sleeve 66, a second sliding rod 67, a third spring 68, a pull rope 69, a stirring mechanism 7, a second sliding sleeve 71, a mounting plate 72, a fourth spring 73, a seventh support 74, a motor 75, an eighth support 76, a first wedge-shaped block 77, a fifth spring 78, a stirring rod 79, a pushing mechanism 8, a third sliding sleeve 81, a connecting rod 82, a fourth sliding sleeve 83, a third sliding rod 84, a sixth spring 85, a collecting mechanism 9, a collecting frame 91, a fifth sliding sleeve 92, Blocking rod 93, seventh spring 94, hand power piece 95 and second wedge 96, blowing frame 2 is installed to stabilizer blade 1 top, and blowing frame 2 lower part runs through the slidingtype and is equipped with first baffle 3, is equipped with layering mechanism 4 on the blowing frame 2, and layering mechanism 4 is connected with first baffle 3, and blowing frame 2 lower part is equipped with stock stop 5, stock stop 5 and the cooperation of layering mechanism 4.

First support 41 is welded to the equal symmetry in the left and right sides of blowing frame 2, all installs cylinder 42 on the first support 41 of the left and right sides, is connected with third support 45 between 3 top front sides of first baffle, and cylinder 42's telescopic link and third support 45 rear side left and right sides are connected, and second support 43 is all welded to blowing frame 2 left and right sides lower part, is connected with first spring 44 between two second supports 43 and the first baffle 3, and first spring 44's quantity is two.

The lower parts of the left side and the right side of the discharging frame 2 are welded with fourth supports 51, first sliding rods 52 are welded on the two fourth supports 51, the number of the first sliding rods 52 is two, a second baffle 53 is arranged between the two first sliding rods 52 in a sliding mode, the second baffle 53 is matched with the discharging frame 2 in a sliding mode, the two fourth supports 51 are sleeved with second springs 54, and two ends of each second spring 54 are connected to the fourth supports 51 and the corresponding second baffle 53 respectively.

First 3 top front side symmetrical welding of baffle have fifth support 61, blowing frame 2 rear side lower part symmetrical welding has roating seat 62, the rotary type is equipped with first reel 63 between two roating seats 62, blowing frame 2 rear side lower part symmetrical welding has sixth support 64, the rotary type is equipped with second reel 65 between two sixth support 64 lower parts, first sliding sleeve 66 has all been welded to the second baffle 53 bottom left and right sides, equal slidingtype is equipped with second slide bar 67 in two first sliding sleeve 66, all the cover is equipped with third spring 68 on two second slide bars 67, the both ends of third spring 68 are connected respectively on first sliding sleeve 66 and second slide bar 67, stay cord 69 has all been welded to two second slide bar 67 rear ends, two stay cord 69 are connected on corresponding fifth support 61 around second reel 65 and first reel 63.

Be connected with second sliding sleeve 71 between the blowing frame 2 top, the gliding formula of second sliding sleeve 71 is equipped with mounting panel 72, the symmetrical cover is equipped with fourth spring 73 on the mounting panel 72, the both ends of fourth spring 73 are connected respectively on mounting panel 72 and second sliding sleeve 71, mounting panel 72 top symmetrical connection has seventh support 74, there is motor 75 through the bolt rigid coupling between the seventh support 74, blowing frame 2 top rear side symmetrical welding has eighth support 76, all the gliding formula is equipped with first wedge 77 on two eighth supports 76, first wedge 77 and mounting panel 72 contact cooperation, all the cover is equipped with fifth spring 78 on two first wedge 77, the both ends of fifth spring 78 are connected respectively on first wedge 77 and eighth support 76, the output shaft of motor 75 passes second sliding sleeve 71 and mounting panel 72, the rigid coupling has puddler 79 on the output shaft of motor 75.

Third sliding sleeves 81 are symmetrically welded at the rear parts of the left side and the right side of the feeding frame 2, a connecting rod 82 is connected between two first wedge-shaped blocks 77, fourth sliding sleeves 83 are symmetrically welded at the left side and the right side of the top of a third support 45, third sliding rods 84 are welded in the two fourth sliding sleeves 83, the number of the third sliding rods 84 is two, the two third sliding rods 84 are in sliding fit with the third sliding sleeves 81, the third sliding rods 84 are in contact fit with the connecting rod 82, sixth springs 85 are sleeved on the two third sliding rods 84, and two ends of the sixth springs 85 are connected to the fourth sliding sleeves 83 and the third sliding rods 84 respectively.

Be connected with between 1 rear side of stabilizer blade and collect frame 91, collect frame 91 bottom rear side symmetrical welding has fifth sliding sleeve 92, equal slidingtype is equipped with jam pole 93 in two fifth sliding sleeves 92, two jam poles 93 and collect frame 91 slidingtype cooperation, it is equipped with seventh spring 94 all to overlap on two jam poles 93, the both ends of seventh spring 94 are connected respectively on fifth sliding sleeve 92 and jam pole 93, it is equipped with hand-drag piece 95 to collect the sliding type behind frame 91, the symmetrical welding of the 95 left and right sides of hand-drag piece has second wedge 96, second wedge 96 and the cooperation of the contact of jam pole 93.

When workers need to extract and decompose rare earth, the workers can firstly pour the rare earth into the discharging frame 2, the first baffle 3 can prevent the rare earth from directly flowing out of the discharging frame 2, the rare earth can be precipitated on the first baffle 3, when the workers need to take out the rare earth extracted and decomposed in the discharging frame 2, the workers can make the layering mechanism 4 stretch, the layering mechanism 4 extends to drive the first baffle 3 to slide forwards in the discharging frame 2, the first baffle 3 moves forwards, the rare earth extracted and decomposed in the discharging frame 2 can fall onto the material blocking mechanism 5, the layering mechanism 4 contracts to drive the first baffle 3 to slide backwards in the discharging frame 2, the rare earth extracted and decomposed in the discharging frame 2 is moved backwards by the first baffle 3 to temporarily stop falling onto the material blocking mechanism 5, after the layering mechanism 4 contracts and resets, the workers can close the layering mechanism 4, and then the workers can pull the material blocking mechanism 5 forwards, the stock stop 5 is stretched, and the tombarthite that the extraction decomposed to accomplish can flow from the stock stop 5, and the stock stop 5 goes up the whole back that flow of tombarthite that the extraction decomposed to accomplish, and the workman can loosen the stock stop 5 rapidly, and stock stop 5 resets can temporarily flow the tombarthite that the extraction decomposed to accomplish out, and if the workman still need continue when extracting the decomposition tombarthite, the workman is above-mentioned operation once more can.

The worker manually slides the first baffle 3 to the front side in the material placing frame 2 and consumes large strength, so the worker only needs to extend and retract the air cylinder 42, the extension rod of the air cylinder 42 can push the third support 45 to move to the front side, the third support 45 moves to the front side to drive the first baffle 3 to slide to the front side in the material placing frame 2, the first spring 44 is stretched, the rare earth extracted and decomposed in the material placing frame 2 can fall onto the material blocking mechanism 5, when the extension rod of the air cylinder 42 is contracted, the extension rod of the air cylinder 42 can drive the third support 45 to move to the rear side, the third support 45 moves to the rear side to drive the first baffle 3 to slide to the rear side in the material placing frame 2, the first spring 44 is reset to assist the first baffle 3 to slide to the rear side, the rare earth extracted and decomposed in the material placing frame 2 can temporarily stop falling onto the material blocking mechanism 5, after the extension rod of the air cylinder 42 is contracted and reset, the worker may turn off the air cylinder 42 and repeat the above operation again if the worker further needs to continue sliding the first shutter 3 to the front side in the drop frame 2.

The rare earth after the completion of the extraction decomposition falls onto the second shutter 53, and then the worker can slide the second shutter 53 on the first slide bar 52 to the front side, the second spring 54 is stretched, and the rare earth after the completion of the extraction decomposition in the discharge frame 2 flows out from the bottom, and when the worker does not need to flow out the rare earth after the completion of the extraction decomposition for a while, the worker can quickly loosen the second shutter 53, and the second spring 54 is reset to slide the second shutter 53 on the first slide bar 52 to the rear side, and the rare earth after the completion of the extraction decomposition stops flowing out for a while, and if the worker needs to continue to flow out the rare earth after the completion of the extraction decomposition, the worker repeats the above operation again.

The worker manually slides the second flap 53, which requires a large force, so that when the first flap 3 slides to the front side, the first flap 3 drives the fifth bracket 61 and the pull rope 69 to move to the front side, the first reel 63 and the second reel 65 rotate to guide the pull rope 69, the pull rope 69 is tensioned, the pull rope 69 drives the second slide rod 67 to slide to the rear side in the first sliding sleeve 66, the third spring 68 is compressed, the second slide rod 67 slides to the rear side to drive the second flap 53 to slide to the rear side, the second flap 53 blocks the discharge frame 2, when the first flap 3 slides to the rear side, the first flap 3 drives the fifth bracket 61 and the pull rope 69 to move to the rear side, the pull rope 69 is released, the third spring 68 is reset to push the second slide rod 67 to slide to the front side in the first sliding sleeve 66, the second slide rod 67 slides to the front side to drive the second flap 53 to slide to the front side, the second shutter 53 stops temporarily blocking the discharge frame 2, so that the apparatus effectively reduces the labor intensity of the worker.

In order to uniformly extract the rare earth, a worker only needs to rotate the motor 75, the output shaft of the motor 75 rotates the stirring rod 79, the stirring rod 79 rotates to uniformly stir the rare earth in the discharge frame 2, when the worker does not need to uniformly stir the rare earth in the discharge frame 2 for a while, the worker can turn off the motor 75, then the worker can simultaneously slide the first wedge block 77 to the rear side in the eighth bracket 76, the fifth spring 78 is stretched, then the worker needs to pull the motor 75 upwards, the motor 75 moves upwards to drive the seventh bracket 74 to move upwards, the seventh bracket 74 moves upwards to slide the mounting plate 72 upwards in the second sliding sleeve 71, the stirring rod 79 moves upwards accordingly, when the stirring rod 79 moves upwards to stop contacting with the rare earth for a while, the fourth spring 73 is compressed, the stirring rod 79 stops stirring the rare earth for a while, when the mounting plate 72 moves upwards to pass over the first wedge block 77, the fifth spring 78 resets to enable the first wedge block 77 to slide forwards and reset, the first wedge block 77 slides forwards to limit the mounting plate 72, the mounting plate 72 and the stirring rod 79 can be located at fixed positions, if a worker needs to continue to stir the rare earth, the worker can enable the first wedge block 77 to slide backwards in the eighth support 76 again, the fourth spring 73 resets to enable the mounting plate 72, the motor 75 and the stirring rod 79 to slide downwards and reset, the worker repeats the operation again, and the device can continue to stir the rare earth in the discharge frame 2 uniformly.

The process of sliding the first wedge-shaped block 77 manually by a worker is complicated, so that when the third support 45 slides to the rear side, the third support 45 drives the third sliding rod 84 to slide to the rear side in the third sliding sleeve 81, the sixth spring 85 is compressed, when the third sliding rod 84 slides to the rear side to contact with the connecting rod 82, the third sliding rod 84 can drive the connecting rod 82 to move to the rear side, the first wedge-shaped block 77 can slide to the rear side along with the third sliding rod, the fifth spring 78 is compressed, when the third support 45 slides to the front side, the third support 45 drives the third sliding rod 84 to slide to the front side in the third sliding sleeve 81, the sixth spring 85 is reset to assist the third sliding rod 84 to slide to the front side, when the third sliding rod 84 slides to the front side to temporarily stop contacting with the connecting rod 82, the fifth spring 78 is reset to slide the first wedge-shaped block 77 and the connecting rod 82 to slide to the front side, so that the device realizes the interval control of sliding of the first wedge-shaped block 77, thereby effectively improving the rare earth extraction speed.

The direct outflow of the rare earth after the extraction and decomposition will cause waste, so the rare earth flowing out from the discharge frame 2 will fall into the collection frame 91 for storage and collection, the worker only needs to slide the hand-pulling block 95 to the front side in the collection frame 91, and at the same time the hand-pulling block 95 will shield the rare earth in the collection frame 91, thereby effectively avoiding the excessive outflow of the rare earth, the sliding of the hand-pulling block 95 to the front side will drive the second wedge 96 to move to the front side, the second wedge 96 will move to the front side to contact with the blocking rod 93, the wedge will press the blocking rod 93 downwards, so the blocking rod 93 will slide downwards in the fifth sliding sleeve 92, the seventh spring 94 will be compressed, at this time the blocking rod 93 will temporarily stop blocking the collection frame 91, the rare earth in the collection frame 91 will flow out, when the worker temporarily does not need to make the outflow of the rare earth, the worker can slide the hand-pulling block 95 to the rear side in the collection frame 91, the sliding of the hand-pulling block 95 to the rear side will drive the second wedge 96 to move to the rear side, second wedge 96 moves to the rear side and stops temporarily and when blocking rod 93 contacts, and seventh spring 94 resets and can promote blocking rod 93 and can slide in fifth sliding sleeve 92 to reset upwards, and blocking rod 93 can block up collection frame 91 again this moment, and the tombarthite that collects in the frame 91 at this moment can stop temporarily and flow, and this equipment can effectually avoid the direct outflow of tombarthite to cause the waste.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. The utility model provides an integrative equipment is decomposed in rare earth extraction, including stabilizer blade (1), blowing frame (2) and first baffle (3), its characterized in that: discharging frame (2) is installed to stabilizer blade (1) top, and discharging frame (2) lower part runs through the slidingtype and is equipped with first baffle (3), is equipped with layering mechanism (4) on discharging frame (2), and layering mechanism (4) are connected with first baffle (3), and discharging frame (2) lower part is equipped with stock stop (5), stock stop (5) and layering mechanism (4) cooperation.

2. The rare earth extraction decomposition integrated apparatus as claimed in claim 1, wherein: the material placing frame is characterized in that first supports (41) are symmetrically welded on two sides of the material placing frame (2), air cylinders (42) are installed on the first supports (41) on the two sides, a third support (45) is connected between the tops of the first baffle plates (3), telescopic rods of the air cylinders (42) are connected with the two portions of the third support (45), second supports (43) are welded on the lower portions of the two sides of the material placing frame (2), first springs (44) are connected between the two second supports (43) and the first baffle plates (3), and the number of the first springs (44) is two.

3. The rare earth extraction decomposition integrated apparatus as claimed in claim 2, wherein: fourth support (51) have all been welded to blowing frame (2) both sides lower part, all welded first slide bar (52) on two fourth support (51), the quantity of first slide bar (52) is two, slidingtype is equipped with second baffle (53) between two first slide bars (52), second baffle (53) and blowing frame (2) slidingtype cooperation, all overlap on two fourth support (51) and be equipped with second spring (54), the both ends of second spring (54) are connected respectively on fourth support (51) and second baffle (53).

4. The rare earth extraction decomposition integrated apparatus as claimed in claim 3, wherein: first baffle (3) top symmetric welding has fifth support (61), blowing frame (2) lower part symmetric welding has roating seat (62), the rotary type is equipped with first reel (63) between two roating seats (62), blowing frame (2) lower part symmetric welding has sixth support (64), the rotary type is equipped with second reel (65) between two sixth support (64) lower parts, first sliding sleeve (66) have all been welded to second baffle (53) bottom both sides, all the slidingtype is equipped with second slide bar (67) in two first sliding sleeve (66), all the cover is equipped with third spring (68) on two second slide bar (67), the both ends of third spring (68) are connected respectively on first sliding sleeve (66) and second slide bar (67), stay cord (69) have all been welded to two second slide bar (67) tip, two stay cord (69) are connected on corresponding fifth support (61) around second reel (65) and first reel (63).

5. The rare earth extraction decomposition integrated apparatus as claimed in claim 4, wherein: a second sliding sleeve (71) is connected between the top ends of the material placing frames (2), a mounting plate (72) is arranged on the second sliding sleeve (71) in a sliding mode, fourth springs (73) are symmetrically sleeved on the mounting plate (72), two ends of each fourth spring (73) are connected to the mounting plate (72) and the second sliding sleeve (71) respectively, a seventh support (74) is connected between the tops of the mounting plates (72), a motor (75) is fixedly connected between the seventh supports (74) through bolts, eighth supports (76) are symmetrically welded on the tops of the material placing frames (2), first wedge blocks (77) are arranged on the two eighth supports (76) in a sliding mode, the first wedge blocks (77) are in contact fit with the mounting plate (72), fifth springs (78) are sleeved on the two first wedge blocks (77), and two ends of each fifth spring (78) are connected to the first wedge blocks (77) and the eighth supports (76) respectively, an output shaft of the motor (75) penetrates through the second sliding sleeve (71) and the mounting plate (72), and a stirring rod (79) is fixedly connected to the output shaft of the motor (75).

6. The rare earth extraction decomposition integrated apparatus as claimed in claim 5, wherein: third sliding sleeve (81) have been welded to blowing frame (2) bilateral symmetry, be connected with connecting rod (82) between two first wedge (77), third support (45) top bilateral symmetry has fourth sliding sleeve (83), all weld in two fourth sliding sleeves (83) third slide bar (84), the quantity of third slide bar (84) is two, two third slide bar (84) and third sliding sleeve (81) slidingtype cooperation, third slide bar (84) and connecting rod (82) contact cooperation, all overlap on two third slide bar (84) and be equipped with sixth spring (85), the both ends of sixth spring (85) are connected respectively on fourth sliding sleeve (83) and third slide bar (84).

7. The rare earth extraction decomposition integrated apparatus as claimed in claim 6, wherein: be connected with between stabilizer blade (1) and collect frame (91), it has fifth sliding sleeve (92) to collect frame (91) bottom symmetric welding, equal slidingtype is equipped with jam pole (93) in two fifth sliding sleeves (92), two jam poles (93) and collection frame (91) slidingtype cooperation, it all overlaps on two jam poles (93) and is equipped with seventh spring (94), the both ends of seventh spring (94) are connected respectively on fifth sliding sleeve (92) and jam pole (93), it is equipped with hand piece (95) to collect frame (91) slidingtype, hand piece (95) bilateral symmetry welding has second wedge (96), second wedge (96) and jam pole (93) contact cooperation.

8. The rare earth extraction decomposition integrated apparatus as claimed in claim 7, wherein: the blocking rod (93) is cylindrical in shape.

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