CN212854703U - High-efficient potassium fluotantalate production is with conversion crystallizer tank - Google Patents

Abstract

The utility model discloses a production of high-efficient potassium fluotantalate is with conversion crystallizer tank, including mount, control panel, button, dead lever, power wire, fixed frame, motor, two-way rabbling mechanism, puddler, cell body, backup pad and heater, the utility model discloses a two-way rabbling mechanism has been set up inside fixed frame, and the motor rotates and drives first axis of rotation and carries out the corotation, makes first axis of rotation drive first fluted disc and rotate, makes first fluted disc drive the second fluted disc through actuating mechanism and carries out the reversal, and the second fluted disc rotates and drives the second axis of rotation and rotate to make first axis of rotation and second axis of rotation carry out the rotation of opposite direction, and then make the puddler of first axis of rotation and second axis of rotation upper end carry out two-way stirring, reached and to stirring simultaneously, make potassium fluotantalate misce's advantage.

Description

High-efficient potassium fluotantalate production is with conversion crystallizer tank

Technical Field

The utility model relates to a high-efficient potassium fluotantalate production correlation field specifically is a high-efficient potassium fluotantalate production is with conversion crystallizer tank.

Background

Potassium fluotantalate, also called potassium heptafluotantalate, has a molecular formula of K2TaF7 and a molecular weight of 392.13, is a colorless orthorhombic system, is generally white acicular crystal, is not decomposed even when being hot, has a relative density of 4.56 and a melting point of 520 ℃, is slightly soluble in cold water and hydrofluoric acid, can be dissolved in hot water, and is toxic.

When processing production to potassium fluotantalate, need crystallize potassium fluotantalate, just need use the crystallizer at this time, in the crystallization process, often add the puddler and stir the inside potassium fluotantalate of crystallizer, the puddler often is the unipolar stirring at that time, and all stir in same direction, it is inhomogeneous to make potassium fluotantalate solution mix, influence the efficiency of crystallization, present high-efficient potassium fluotantalate production is difficult for carrying on two-way stirring simultaneously with the conversion crystallizer, lead to potassium fluotantalate to mix inhomogeneously.

SUMMERY OF THE UTILITY MODEL

Therefore, in order to solve the above-mentioned deficiency, the utility model provides a high-efficient potassium fluotantalate production is with conversion crystallizer tank here.

The utility model discloses a realize like this, construct a high-efficient potassium fluotantalate production with conversion crystallizer tank, the device includes mount, dead lever, power wire, cell body, backup pad and two-way rabbling mechanism, the mount right-hand member is provided with control panel, the button is installed to the control panel front end, the mount is fixed mutually through electric welding with the dead lever front end, the dead lever rear end is fixed with power wire, the dead lever passes through electric welding and fixed frame rear end fixed connection, fixed frame passes through the screw and is connected with motor bottom lock solid, the mount top is provided with the cell body, the mount bottom left and right sides is provided with the backup pad relatively, the mount is fixed with heating furnace bottom locking through pre-compaction bolt, fixed frame inside is provided with two-way rabbling mechanism, two-way rabbling mechanism output is provided with the puddler, two-, The first fixing block is connected with the output end of the motor in a rotating mode, the first rotating shaft penetrates through the middle of the first fixing block and is connected with the upper end of the first fluted disc in a rotating mode, the first fixing block is fixedly connected with the middle of the upper end of the first fluted disc, the output end of the first fluted disc is meshed with the output end of the driving mechanism, the driving mechanisms are oppositely arranged on the left side and the right side of the inside of the fixing frame, the driving mechanisms are in meshing transmission with the upper end edge of the second fluted disc, the second fluted disc is fixedly connected with the upper end of the second fixing block, the second rotating shaft penetrates through the middle of the second fixing block and synchronously rotates along with the second fluted disc, the first rotating shaft penetrates through the middle of the second rotating shaft, and the first rotating shaft is pivoted with the middle of the second rotating shaft, the first rotating shaft is fixed with the left end of the stirring rod through electric welding, the motor and the button are electrically connected with the control panel, and the control panel is electrically connected with a power supply lead.

Preferably, the driving mechanism comprises a gear, a rotating rod, a bearing seat and an outer frame, the gear is in meshing transmission with the lower end of the first fluted disc and the upper end of the second fluted disc, the rotating rod rotates synchronously along with the gear, the rotating rod is movably nested on the inner side of the bearing seat, the bearing seat is fastened at the right end inside the outer frame through a screw, and the outer frame and the right end inside the fixed frame are fastened.

Preferably, the two driving mechanisms are arranged, and the driving mechanisms are symmetrically distributed along the left side and the right side inside the fixing frame.

Preferably, the first and second toothed discs are equal in size, and are symmetrically distributed.

Preferably, the diameter of the first rotating shaft is smaller than that of the second rotating shaft, and the first rotating shaft penetrates through the middle of the second rotating shaft.

Preferably, the upper ends of the first rotating shaft and the second rotating shaft are both provided with stirring rods, and the two stirring rods are opposite in size.

Preferably, the gear, the rotating rod and the bearing seat central line are in the same horizontal direction.

Preferably, the gear is engaged with the first fluted disc and the second fluted disc at an angle of ninety degrees, and the gear is arranged on the left side and the right side of the middle part of the first fluted disc and the second fluted disc.

Preferably, the first rotating shaft is made of 45 # steel, and has high hardness and strong corrosion resistance.

Preferably, the gear is made of 42CrMo gear steel and has the advantages of high strength, high hardenability, good toughness and the like.

The utility model has the advantages of as follows: the utility model discloses an improve and provide a high-efficient potassium fluotantalate production with conversion crystallizer groove here, compare with equipment of the same type, have following improvement:

the method has the advantages that: a high-efficient potassium fluotantalate production is with conversion crystallizer tank, through having set up two-way rabbling mechanism in fixed frame inside, the motor rotates and drives first axis of rotation and carry out the corotation, make first axis of rotation drive first fluted disc and rotate, make first fluted disc drive the second fluted disc through actuating mechanism and carry out the reversal, the second fluted disc rotates and drives the second axis of rotation and rotate, thereby make first axis of rotation and second axis of rotation carry out the rotation of opposite direction, and then make the puddler of first axis of rotation and second axis of rotation upper end carry out two-way stirring, reached and to stirring simultaneously in two-way, make potassium fluotantalate misce bene's advantage.

The advantages are two: a high-efficient potassium fluotantalate production is with conversion crystallizer groove through having set up actuating mechanism on first fluted disc and second fluted disc, first fluted disc corotation drives the gear and rotates in the bearing frame inboard through the bull stick to make the gear drive second fluted disc carry out the reversal, reached and to have made first fluted disc and second fluted disc carry out opposite direction pivoted advantage.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the front view structure of the crystallization tank of the present invention;

FIG. 3 is a schematic view of the sectional structure of the two-way stirring mechanism of the present invention;

FIG. 4 is a schematic side view of the bidirectional stirring mechanism of the present invention;

fig. 5 is a schematic sectional structure diagram of the driving mechanism of the present invention.

Wherein: the device comprises a fixed frame-1, a control panel-2, a button-3, a fixed rod-4, a power supply lead-5, a fixed frame-6, a motor-7, a bidirectional stirring mechanism-8, a stirring rod-9, a tank-10, a supporting plate-11, a heating furnace-12, a first rotating shaft-81, a first fixed block-82, a first fluted disc-83, a driving mechanism-84, a second fluted disc-85, a second fixed block-86, a second rotating shaft-87, a gear-841, a rotating rod-842, a bearing seat-843 and an outer frame-844.

Detailed Description

The present invention will be described in detail with reference to the accompanying fig. 1-5, and the technical solutions in the embodiments of the present invention will be clearly and completely described, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The utility model provides a high-efficient potassium fluotantalate production is with conversion crystallizer through the improvement here, including mount 1, dead lever 4, power wire 5, cell body 10, backup pad 11 and two-way rabbling mechanism 8, mount 1 right-hand member is provided with control panel 2, control panel 2 front end is installed button 3, mount 1 and dead lever 4 front end are fixed mutually through electric welding, dead lever 4 rear end is fixed with power wire 5, dead lever 4 is fixed with fixed frame 6 rear end through electric welding, fixed frame 6 passes through the screw and is connected with motor 7 bottom lock solid, mount 1 top is provided with cell body 10, mount 1 bottom left and right sides is provided with backup pad 11 relatively, mount 1 is fixed with heating furnace 12 bottom lock solid through the pre-compaction bolt, fixed frame 6 is inside to be provided with two-way rabbling mechanism 8, two-way rabbling mechanism 8 output is, the bidirectional stirring mechanism 8 comprises a first rotating shaft 81, a first fixed block 82, a first fluted disc 83, a driving mechanism 84, a second fluted disc 85, a second fixed block 86 and a second rotating shaft 87, the first rotating shaft 81 is rotatably connected with the output end of the motor 7, the first rotating shaft 81 penetrates through the middle part of the first fixed block 82, the first rotating shaft 81 is rotatably connected with the upper end of the first fluted disc 83, the first fixed block 82 is fixedly connected with the middle part of the upper end of the first fluted disc 83, the first fluted disc 83 is meshed with the output end of the driving mechanism 84, the driving mechanism 84 is oppositely arranged on the left side and the right side inside the fixed frame 6, the driving mechanism 84 is meshed with the upper end edge of the second fluted disc 85 for transmission, the second fluted disc 85 is fixedly connected with the upper end of the second fixed block 86, the second rotating shaft 87 penetrates through the middle part of the second fixed block 86, the second rotating shaft 87 synchronously rotates along with the second, the first rotating shaft 81 is pivoted with the middle part of the second rotating shaft 87, the first rotating shaft 81 is fixed with the left end of the stirring rod 9 through electric welding, the motor 7 and the button 3 are both electrically connected with the control panel 2, and the control panel 2 is electrically connected with the power supply lead 5.

Further, the driving mechanism 84 comprises a gear 841, a rotating rod 842, a bearing seat 843 and an outer frame 844, the gear 841 is in meshing transmission with the lower end of the first fluted disc 83 and the upper end of the second fluted disc 85, the rotating rod 842 synchronously rotates along with the gear 841, the rotating rod 842 is movably nested inside the bearing seat 843, the bearing seat 843 is fastened at the right end inside the outer frame 844 through screws, and the outer frame 844 is fastened at the right end inside the fixed frame 6.

Furthermore, the two driving mechanisms 84 are arranged, and the driving mechanisms 84 are symmetrically distributed along the left side and the right side inside the fixed frame 6, so that the first toothed disc 83 and the second toothed disc 85 can rotate stably.

Further, the first fluted disc 83 and the second fluted disc 85 have the same size, and the first fluted disc 83 and the second fluted disc 85 are symmetrically distributed, so as to facilitate the function of respectively driving the first rotating shaft 81 and the second rotating shaft 87 to rotate.

Further, the diameter of the first rotating shaft 81 is smaller than that of the second rotating shaft 87, and the first rotating shaft 81 penetrates through the middle of the second rotating shaft 87, so as to facilitate the rotation of the first rotating shaft 81 inside the second rotating shaft 87.

Further, first axis of rotation 81 and second axis of rotation 87 upper end all are provided with puddler 9 to two puddlers 9 sizes are relative, do benefit to and play the effect of carrying out two-way stirring.

Further, the central lines of the gear 841, the rotating rod 842 and the bearing seat 843 are in the same horizontal direction, which is favorable for the gear 841 to rotate smoothly.

Further, the gear 841 is engaged with the first and second toothed discs 83 and 85 at a ninety degree angle, and the gear 841 is disposed at the left and right sides of the middle portions of the first and second toothed discs 83 and 85, so as to facilitate the first and second toothed discs 83 and 85 to move in opposite directions.

Further, the first rotating shaft 81 is made of 45 # steel, and has high hardness and strong corrosion resistance.

Furthermore, the gear 841 is made of 42CrMo gear steel and has the advantages of high strength, high hardenability, good toughness and the like.

According to the table, the gear 841 is made of 42CrMo gear steel, so that the strength, the hardenability and the toughness of the gear are greatly enhanced, and the service life of the gear is prolonged.

The utility model provides a conversion crystallization tank for producing high-efficiency potassium fluotantalate through improvement, which operates in the following way;

firstly, before use, firstly, horizontally placing a conversion crystallization tank for producing high-efficiency potassium fluotantalate, and fixedly supporting the crystallization tank by a supporting plate 11;

secondly, when in use, an external power supply is connected through a power supply lead 5 to provide power for the crystallization tank;

thirdly, adding a proper amount of potassium fluotantalate into the tank body 10, and connecting a natural gas connecting house to the upper end of the heating furnace 12, so that the heating furnace 12 heats the potassium fluotantalate in the tank body 10;

fourthly, simultaneously pressing the button 3 on the upper end of the control panel 2 to start the crystallization tank, electrifying the motor 7 to work, driving the first rotating shaft 81 to rotate forward through the rotor arranged at the front end, enabling the first rotating shaft 81 to drive the first fluted disc 83 to rotate, enabling the first fluted disc 83 to rotate forward to drive the gear 841 to rotate on the inner side of the bearing block 843 through the rotating rod 842, enabling the gear 841 to drive the second fluted disc 85 to rotate reversely, enabling the second fluted disc 85 to rotate to drive the second rotating shaft 87 to rotate, thereby enabling the first rotating shaft 81 and the second rotating shaft 87 to rotate in opposite directions, further enabling the stirring rod 9 on the upper ends of the first rotating shaft 81 and the second rotating shaft 87 to stir bidirectionally, thereby enabling the potassium fluotantalate to be mixed uniformly and accelerating the crystallization rate of the potassium fluotantalate;

fifthly, wherein the first and second fixing blocks 82 and 86 function to smoothly rotate the first and second rotating shafts 81 and 87.

The utility model provides a high-efficient potassium fluotantalate production is with conversion crystallizer through the improvement, through set up two-way rabbling mechanism 8 in fixed frame 6 inside, motor 7 rotates and drives first axis of rotation 81 and carry out the corotation, make first axis of rotation 81 drive first fluted disc 83 and rotate, make first fluted disc 83 drive second fluted disc 85 through actuating mechanism 84 and carry out the reversal, second fluted disc 85 rotates and drives second axis of rotation 87 and rotate, thereby make first axis of rotation 81 and second axis of rotation 87 carry out the rotation of opposite direction, and then make puddler 9 of first axis of rotation 81 and second axis of rotation 87 upper end carry out two-way stirring, reached and to stirring simultaneously in two-way, make potassium fluotantalate misce's advantage; through having set up actuating mechanism 84 on first fluted disc 83 and second fluted disc 85, first fluted disc 83 corotation drives gear 841 and rotates at the bearing frame 843 inboard through bull stick 842 to make gear 841 drive second fluted disc 85 and carry out the reversal, reached and to have made first fluted disc 83 and second fluted disc 85 carry out opposite direction pivoted advantage.

The basic principle and the main characteristics of the utility model and the advantages of the utility model have been shown and described above, and the utility model discloses the standard part that uses all can purchase from the market, and dysmorphism piece all can be customized according to the record of the description with the drawing, and the concrete connection mode of each part all adopts conventional means such as ripe bolt rivet among the prior art, welding, and machinery, part and equipment all adopt prior art, conventional model, and conventional connection mode in the prior art is adopted in addition to circuit connection, and the details are not repeated here.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (8)

1. A high-efficiency conversion crystallization tank for producing potassium fluotantalate comprises a fixing frame (1), a fixing rod (4), a power supply lead (5), a tank body (10) and a supporting plate (11), a control panel (2) is arranged at the right end of the fixing frame (1), a button (3) is arranged at the front end of the control panel (2), the fixing frame (1) is fixed with the front end of the fixing rod (4) through electric welding, a power supply lead (5) is fixed at the rear end of the fixed rod (4), the fixed rod (4) is fixedly connected with the rear end of the fixed frame (6) through electric welding, the fixed frame (6) is locked and connected with the bottom of the motor (7) through a screw, the top of the fixed frame (1) is provided with a groove body (10), the left side and the right side of the bottom of the fixed frame (1) are oppositely provided with supporting plates (11), the fixed frame (1) is locked and fixed with the bottom of the heating furnace (12) through a prepressing bolt;

the method is characterized in that: still include two-way rabbling mechanism (8), fixed frame (6) inside is provided with two-way rabbling mechanism (8), two-way rabbling mechanism (8) output is provided with puddler (9), two-way rabbling mechanism (8) include first axis of rotation (81), first fixed block (82), first fluted disc (83), actuating mechanism (84), second fluted disc (85), second fixed block (86) and second axis of rotation (87), first axis of rotation (81) are connected with motor (7) output rotation, first axis of rotation (81) run through in first fixed block (82) middle part to first axis of rotation (81) are connected with first fluted disc (83) upper end rotation, first fixed block (82) and first fluted disc (83) upper end middle part fixed connection, first fluted disc (83) and actuating mechanism (84) output, the utility model discloses a stirring rod, including fixed frame (6), fixed frame (6) inside left and right sides is provided with actuating mechanism (84) relatively, actuating mechanism (84) and second fluted disc (85) upper end edge meshing transmission, second fluted disc (85) and second fixed block (86) upper end fixed connection, second axis of rotation (87) run through in second fixed block (86) middle part to second axis of rotation (87) rotate along with second fluted disc (85) synchronous rotation, first axis of rotation (81) run through in second axis of rotation (87) middle part to first axis of rotation (81) and second axis of rotation (87) middle part pin joint, first axis of rotation (81) are fixed with puddler (9) left end through the electric welding, motor (7) and button (3) all are connected with control panel (2) electricity, control panel (2) are connected with power wire (5) electricity.

2. The conversion and crystallization tank for producing the high-efficiency potassium fluotantalate as claimed in claim 1, wherein: actuating mechanism (84) include gear (841), bull stick (842), bearing frame (843) and frame (844), gear (841) and first fluted disc (83) lower extreme and second fluted disc (85) upper end meshing transmission, bull stick (842) rotate along with gear (841) is synchronous, bull stick (842) activity nestification is inboard in bearing frame (843), bearing frame (843) pass through the bolt fastening in the inside right-hand member of frame (844), frame (844) and the inside right-hand member of fixed frame (6).

3. The conversion and crystallization tank for producing the high-efficiency potassium fluotantalate as claimed in claim 1, wherein: the two driving mechanisms (84) are arranged, and the driving mechanisms (84) are symmetrically distributed along the left side and the right side inside the fixed frame (6).

4. The conversion and crystallization tank for producing the high-efficiency potassium fluotantalate as claimed in claim 1, wherein: the first fluted disc (83) and the second fluted disc (85) are equal in size, and the first fluted disc (83) and the second fluted disc (85) are symmetrically distributed.

5. The conversion and crystallization tank for producing the high-efficiency potassium fluotantalate as claimed in claim 1, wherein: the diameter of the first rotating shaft (81) is smaller than that of the second rotating shaft (87), and the first rotating shaft (81) penetrates through the middle of the second rotating shaft (87).

6. The conversion and crystallization tank for producing the high-efficiency potassium fluotantalate as claimed in claim 1, wherein: and stirring rods (9) are arranged at the upper ends of the first rotating shaft (81) and the second rotating shaft (87), and the two stirring rods (9) are opposite in size.

7. The conversion and crystallization tank for producing the high-efficiency potassium fluotantalate as claimed in claim 2, wherein: the central lines of the gear (841), the rotating rod (842) and the bearing seat (843) are in the same horizontal direction.

8. The conversion and crystallization tank for producing the high-efficiency potassium fluotantalate as claimed in claim 2, wherein: the gear (841) is meshed with the first fluted disc (83) and the second fluted disc (85) at an angle of ninety degrees, and the gear (841) is arranged at the left side and the right side of the middle parts of the first fluted disc (83) and the second fluted disc (85).

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