CN220176631U - Screening plant with control iodizing device - Google Patents

Abstract

The utility model discloses a screening device with an iodine adding device, which relates to the technical field of screening devices and aims to solve the technical problems that in the prior art, a plurality of iodine adding barrels only have one iodine adding pump for supplying iodine, so that raw materials in an iodine pipe are easy to waste, and residual additives are easy to cause quality accidents; wherein, the draw-in groove that the equidistance was distributed has been seted up to screening incasement wall, sliding connection has the screen cloth between draw-in groove and the another corresponding draw-in groove, and this screening plant utilizes the feed cylinder subassembly to separate additive and iodine feeding, does not need to pull out the iodophor and arrange the iodine again when consequently changing salt kind, consequently can not cause the waste, and does not need to make a round trip to plug the iodophor, significantly reduced workman's work load to effectively reduce workman's intensity of labour.

Description

Screening plant with control iodizing device

Technical Field

The utility model belongs to the technical field of screening devices, and particularly relates to a screening device with an iodine adding control device.

Background

Along with the promotion of the market reform of salt industry, salt products are divided into important directions of salt products according to particle areas, salt products with different particle sizes need to be subdivided during factory production, and salt particles are generally screened through mechanical vibration in the prior art.

At present, before salt grain screening system sieves, need add iodine and additive, mix various components evenly, then sieve salt grain through the shale shaker, but current screening plant is when adding iodine, a plurality of iodizing barrels only one set of iodizing pump supplies iodine, therefore it is all to need to pull out the iodophor and arrange iodine again when changing salt kind each time, just can reuse after the iodophor is emptied, consequently cause the waste of raw materials in the iodophor easily, and the workman needs to make a round trip to plug the iodophor, workman's intensity of labour has been increased, and after changing the barrel, remaining additive causes the quality accident easily.

Therefore, in order to solve the above problem of easily wasting raw materials in the iodine pipes, there is a need to improve the use scenario of the screening device.

Disclosure of Invention

(1) Technical problem to be solved

Aiming at the defects of the prior art, the utility model aims to provide a screening device with an iodizing control device, which aims to solve the technical problems that in the prior art, a plurality of iodizing barrels only have one iodizing pump for supplying iodine, so that the waste of raw materials in an iodizing tube is easy to cause, and the quality accidents are easy to be caused by residual additives.

(2) Technical proposal

In order to solve the technical problems, the utility model provides a screening device with an iodine adding control device, which comprises a bottom plate, a left flexible supporting component, a right flexible supporting component and a screening box, wherein the left flexible supporting component and the right flexible supporting component are symmetrically distributed in front of and behind the upper end of the bottom plate and are sequentially and fixedly connected from left to right; the screening box comprises a screening box body, a screening box, a screening motor, a first feeding assembly, a second feeding assembly, a stirring shaft, a stirring rod, a motor frame, an eccentric wheel, a driving shaft, a sliding wheel and a motor frame, wherein the inner wall of the screening box body is provided with equally spaced clamping grooves, a screen is connected between the clamping grooves and the other corresponding clamping grooves in a sliding mode, the upper end of the bottom plate is provided with a mixing cylinder body, a first feeding assembly, a second feeding assembly and a charging cylinder assembly from left to right in sequence, the upper end of the mixing cylinder body is provided with an upper cover, the stirring shaft is rotationally connected with the upper cover, the stirring rod is arranged on the outer side of the stirring shaft in an equidistant mode, the front end of the bottom plate is fixedly connected with the motor frame, the upper end of the motor frame is fixedly connected with the screening motor, the rear end of the screening motor is provided with the eccentric wheel, the driving shaft connected with the screening box body is arranged at four corners of the lower end of the bottom plate.

When the screening device of the technical scheme is used, the sliding wheel is utilized to move the bottom plate to the designated position, the additive and iodine are respectively added into the charging barrel assembly, the additive and the iodine are fed into the mixing barrel through the first charging assembly and the second charging assembly, salt to be screened is fed into the mixing barrel, the stirring shaft in the upper cover rotates to drive the stirring rod to rotate, the salt, the additive and the iodine are fully mixed, the mixed salt is fed into the screening box, the screening motor at the upper end of the motor frame is started, the eccentric wheel is rotated, the left flexible supporting assembly and the right flexible supporting assembly are matched, the driving shaft drives the regular vibration of the screening box, and the salt at the upper end of the screen is screened.

Further, the left flexible supporting component and the right flexible supporting component respectively comprise a supporting column, a connecting seat fixedly connected to the outer side of the screening box and a spring fixedly connected between the supporting column and the connecting seat, the height of the left flexible supporting component is smaller than that of the right flexible supporting component, and the screening box is convenient to vibrate due to the design of the spring, so that salt screening is achieved.

Further, the first feed assembly includes first feed pump, installs first connecting pipe of first feed pump entrance point, install first feed pump exit end and with the second connecting pipe that mixing drum links to each other, the second feed assembly includes the second feed pump, installs Y type connecting pipe of second feed pump entrance point, install the second feed pump exit end and with the third connecting pipe that mixing drum links to each other ensures iodine and additive can be sent into mixing drum.

Further, the feed cylinder assembly comprises a first feed cylinder, a second feed cylinder and a third feed cylinder which are sequentially arranged at the rear end of the first feed cylinder, two inlet ends of the Y-shaped connecting pipe are respectively connected with the second feed cylinder and the third feed cylinder, the first connecting pipe is connected with the first feed cylinder, and iodine and additives are respectively stored through the feed cylinder assembly.

Further, the locating holes are formed in the front end and the rear end of the screen, the front end and the rear end of the screening box are connected with locking bolts extending into the locating holes in a threaded mode, and stability of the screen is improved.

Further, a third feed pump is arranged at the left end of the mixing cylinder, and a feed pipe is arranged among the third feed pump, the mixing cylinder and the screening box, so that mixed salt can be fed into the screening box from the mixing cylinder.

Further, shaft coupling and agitator motor are installed in proper order to the (mixing) shaft upper end, install bilateral symmetry's stiffening rod between agitator motor and the upper cover, the quantity of screen cloth is not less than 2, and the mesh diameter of screen cloth is from last decreasingly down in proper order, ensures the screening effect to salt.

(3) Advantageous effects

Compared with the prior art, the utility model has the beneficial effects that: according to the screening device disclosed by the utility model, the additive and iodine are fed separately by using the cartridge component, so that the iodine is not required to be discharged again by pulling the iodine tube when salt seeds are replaced, waste is avoided, the iodine tube is not required to be inserted and pulled back and forth, the workload of workers is greatly reduced, the labor intensity of the workers is effectively reduced, meanwhile, quality accidents caused by the residual additive in the pump after the barrel is replaced are avoided, and the quality measurement of salt is effectively ensured.

Drawings

FIG. 1 is a schematic view of a separation structure of one embodiment of a screening apparatus of the present utility model;

FIG. 2 is a schematic perspective view of one embodiment of a screening apparatus of the present utility model;

fig. 3 is a schematic view showing the internal structure of a mixing drum in one embodiment of the screening device of the present utility model.

The marks in the drawings are: 1. a bottom plate; 2. a left flexible support assembly; 3. a right flexible support assembly; 31. a support column; 32. a connecting seat; 33. a spring; 4. a screening box; 5. a clamping groove; 6. a screen; 7. a mixing cylinder; 8. a first feed assembly; 81. a first feed pump; 82. a first connection pipe; 83. a second connection pipe; 9. a second feed assembly; 91. a second feed pump; 92. a Y-shaped connecting pipe; 93. a third connection pipe; 10. a cartridge assembly; 101. a first barrel; 102. a second barrel; 103. a third barrel; 11. an upper cover; 12. a stirring shaft; 13. a stirring rod; 14. a motor frame; 15. a screening motor; 16. an eccentric wheel; 17. a drive shaft; 18. positioning holes; 19. a locking bolt; 20. a third feed pump; 21. a feed pipe; 22. a coupling; 23. a stirring motor; 24. a reinforcing rod; 25. and a sliding wheel.

Detailed Description

The specific embodiment is a screening device provided with a control iodizing device, the split structure of the screening device is shown in fig. 1, the three-dimensional structure of the screening device is shown in fig. 2, the screening device comprises a bottom plate 1, a left flexible supporting component 2, a right flexible supporting component 3 and a screening box 4, wherein the left flexible supporting component 2 and the right flexible supporting component 3 are sequentially and fixedly connected to the upper end of the bottom plate 1 from left to right and are symmetrically distributed front to back, and the screening box 4 is arranged between the left flexible supporting component 2 and the right flexible supporting component 3; the inner wall of the screening box 4 is provided with equally distributed clamping grooves 5, a screen 6 is slidably connected between the clamping grooves 5 and another corresponding clamping groove 5, a mixing cylinder 7, a first feeding component 8, a second feeding component 9 and a charging cylinder component 10 are sequentially arranged at the upper end of the bottom plate 1 from left to right, an upper cover 11 is arranged at the upper end of the mixing cylinder 7, a stirring shaft 12 is rotationally connected with the upper cover 11, equally distributed stirring rods 13 are arranged at the outer side of the stirring shaft 12, a motor frame 14 is fixedly connected with the front end of the bottom plate 1, a screening motor 15 is fixedly connected with the upper end of the motor frame 14, an eccentric wheel 16 is arranged at the rear end of the screening motor 15, a driving shaft 17 connected with the screening box 4 is arranged at the rear end of the eccentric wheel 16, and sliding wheels 25 are arranged at four corners of the lower end of the bottom plate 1.

The left flexible supporting component 2 and the right flexible supporting component 3 respectively comprise a supporting column 31, a connecting seat 32 fixedly connected to the outer side of the screening box 4 and a spring 33 fixedly connected between the supporting column 31 and the connecting seat 32, and the height of the left flexible supporting component 2 is smaller than that of the right flexible supporting component 3.

Meanwhile, the first feeding assembly 8 comprises a first feeding pump 81, a first connecting pipe 82 installed at the inlet end of the first feeding pump 81, and a second connecting pipe 83 installed at the outlet end of the first feeding pump 81 and connected with the mixing cylinder 7, the second feeding assembly 9 comprises a second feeding pump 91, a Y-shaped connecting pipe 92 installed at the inlet end of the second feeding pump 91, and a third connecting pipe 93 installed at the outlet end of the second feeding pump 91 and connected with the mixing cylinder 7, the cylinder assembly 10 comprises a first cylinder 101, a second cylinder 102 and a third cylinder 103 installed at the rear end of the first cylinder 101 in sequence, two inlet ends of the Y-shaped connecting pipe 92 are respectively connected with the second cylinder 102 and the third cylinder 103, and the first connecting pipe 82 is connected with the first cylinder 101.

In addition, locating holes 18 are formed in the front end and the rear end of the screen 6, locking bolts 19 extending into the locating holes 18 are connected to the front end and the rear end of the screening box 4 in a threaded mode, a third feed pump 20 is mounted at the left end of the mixing cylinder 7, and a feed pipe 21 is mounted among the third feed pump 20, the mixing cylinder 7 and the screening box 4.

In addition, shaft coupling 22 and agitator motor 23 are installed in proper order to the (mixing) shaft 12 upper end, install bilateral symmetry's stiffening rod 24 between agitator motor 23 and the upper cover 11, the quantity of screen cloth 6 is not less than 2, and the mesh diameter of screen cloth 6 is from last decreasingly in proper order.

A schematic of the internal structure of the mixing drum 7 in the screening device is shown in fig. 3.

When the screening device of the technical scheme is used, the bottom plate 1 is moved to a designated position by utilizing the sliding wheel 25, additives and iodine are respectively added into the feed cylinder assembly 10, the additives and the iodine are fed into the mixing cylinder 7 through the first feed assembly 8 and the second feed assembly 9, salt to be screened is fed into the mixing cylinder 7, the stirring shaft 12 in the upper cover 11 is rotated to drive the stirring rod 13 to rotate, the salt, the additives and the iodine are fully mixed, the mixed salt is fed into the screening box 4, the screening motor 15 at the upper end of the motor frame 14 is started, the eccentric wheel 16 is rotated, the left flexible support assembly 2 and the right flexible support assembly 3 are matched, the driving shaft 17 drives the screening box 4 to vibrate regularly, and the salt at the upper end of the screen 6 is screened.

Claims (7)

1. The screening device comprises a bottom plate, a left flexible supporting component, a right flexible supporting component and a screening box, wherein the left flexible supporting component and the right flexible supporting component are sequentially and fixedly connected to the upper end of the bottom plate from left to right and are symmetrically distributed front to back; the screening box is characterized in that equally spaced clamping grooves are formed in the inner wall of the screening box, a screen is connected between the clamping grooves and another corresponding clamping groove in a sliding mode, a mixing cylinder body, a first feeding assembly, a second feeding assembly and a charging barrel assembly are sequentially arranged at the upper end of a bottom plate from left to right, an upper cover is arranged at the upper end of the mixing cylinder body, a stirring shaft is connected in the upper cover in a rotating mode, stirring rods which are equally spaced are arranged outside the stirring shaft, a motor frame is fixedly connected to the front end of the bottom plate, a screening motor is fixedly connected to the upper end of the motor frame, an eccentric wheel is arranged at the rear end of the screening motor, a driving shaft connected with the screening box is arranged at the rear end of the eccentric wheel, and sliding wheels are arranged at four corners of the lower end of the bottom plate.

2. The screening device with iodine adding control device according to claim 1, wherein the left flexible supporting component and the right flexible supporting component each comprise a supporting column, a connecting seat fixedly connected to the outer side of the screening box, and a spring fixedly connected between the supporting column and the connecting seat, and the height of the left flexible supporting component is smaller than that of the right flexible supporting component.

3. The screening device with iodine adding control device according to claim 1, wherein the first feeding assembly comprises a first feeding pump, a first connecting pipe installed at an inlet end of the first feeding pump, a second connecting pipe installed at an outlet end of the first feeding pump and connected with the mixing cylinder, and the second feeding assembly comprises a second feeding pump, a Y-shaped connecting pipe installed at an inlet end of the second feeding pump, and a third connecting pipe installed at an outlet end of the second feeding pump and connected with the mixing cylinder.

4. A screening device provided with a controlled iodizing device according to claim 3, characterized in that the cartridge assembly comprises a first cartridge, a second cartridge and a third cartridge mounted in sequence at the rear end of the first cartridge, two inlet ends of the Y-shaped connecting tube are connected with the second cartridge and the third cartridge respectively, and the first connecting tube is connected with the first cartridge.

5. The screening device with the iodine adding control device according to claim 1, wherein positioning holes are formed in the front end and the rear end of the screen, and locking bolts extending into the positioning holes are connected to the front end and the rear end of the screening box in a threaded mode.

6. The screening device with the iodine adding control device according to claim 1, wherein a third feed pump is arranged at the left end of the mixing cylinder, and a feed pipe is arranged among the third feed pump, the mixing cylinder and the screening box.

7. The screening device with the iodine adding device control function according to claim 1, wherein a coupler and a stirring motor are sequentially arranged at the upper end of the stirring shaft, reinforcing rods which are distributed in a bilateral symmetry manner are arranged between the stirring motor and the upper cover, the number of the screen meshes is not less than 2, and the mesh diameters of the screen meshes are sequentially decreased from top to bottom.