CN215744737U - Extrusion granulator for oxygenation agent preparation with sieving mechanism - Google Patents

Abstract

The utility model relates to an extrusion granulator is used in oxygenation agent preparation with sieving mechanism relates to the technical field of oxygenation agent preparation equipment, and extrusion granulator includes the granulator body, is equipped with out the hopper on the granulator body, one side that the granulator body is close to out the hopper is equipped with two support bodies, has all seted up the slide on two support bodies, and two support body tops are equipped with a screening otter board, and the screening otter board is the slope form setting, and the screening otter board is close to the surperficial fixedly connected with and the slider of slide one-to-one of support body, and the one end that the granulator body was kept away from to out the hopper is located screening otter board top, and two support bodies are equipped with the shake subassembly that the drive screening otter board removed on the mounting panel with one side fixedly connected with mounting panel. The method has the effect of improving the qualified rate of the oxygen increasing agent product.

Description

Extrusion granulator for oxygenation agent preparation with sieving mechanism

Technical Field

The application relates to the field of oxygenating agent preparation equipment, in particular to an extrusion granulator for oxygenating agent preparation with a screening device.

Background

The oxygen increasing agent has the functions of refreshing water bottom, increasing dissolved oxygen, degrading toxin and the like, and is widely used for seawater and fresh water aquatic animal culture ponds. The oxygenation agent is generally granular, so that the oxygenation agent is convenient for operators to directly throw; the storage and the use are convenient; the oxygen increasing agent particles can quickly sink to the bottom of the pond, a large amount of oxygen is generated after the oxygen increasing agent particles react with water, the dissolved oxygen in the water body is increased, the high dissolved oxygen in the water is maintained for a long time, and the sufficient and effective oxygen increasing efficiency is guaranteed.

The oxygen increasing agent raw material is in a powder form, and the powder oxygen increasing agent raw material needs to be extruded into a granular oxygen increasing agent by a granulator. Referring to fig. 1, the granulator includes granulator body 1, is equipped with out hopper 11 on granulator body 1, goes out hopper 11 below and is provided with support body 2, and fixedly connected with is the screening otter board 3 of slope form on the support body 2, has placed collection box 6 under the screening otter board 3, and the one end that granulator body 1 was kept away from to screening otter board 3 is connected with and collects bag 52.

When making the oxygenating agent granule, granulator body 1 discharges graininess oxygenating agent along hopper 11, and the screening otter board 3 is fallen to discharge oxygenating agent granule, and the screening otter board 3 screens the oxygenating agent, sieves the tiny particle oxygenating agent that does not conform to the standard to the collection box 6 of screening otter board 3 below. The oxygenant particles which are kept on the upper surface of the screening mesh plate 3 and meet the production standard roll to the collecting bag 52 along the screening mesh plate 3.

Aiming at the related technologies, the inventor considers that the screening mesh plate 3 is fixedly connected to the frame body 2, when the oxygenation agent particles fall onto the screening mesh plate 3 along the discharge hopper 11, the screening mesh plate 3 screens the oxygenation agent particles, when the oxygenation agent particles are piled up and agglomerated, the screening mesh plate 3 is difficult to screen the oxygenation agent fully, so that the oxygenation agent particles which do not accord with the production standard fall into the collection bag 52 in a rolling manner, and the qualification rate of the oxygenation agent product is reduced.

SUMMERY OF THE UTILITY MODEL

In order to improve the qualification rate of oxygenating agent product, the application provides an oxygenating agent preparation is with extrusion granulator with sieving mechanism.

The application provides a preparation of oxygenating agent is with extrusion granulator adopts following technical scheme with sieving mechanism:

the utility model provides an extrusion granulator for oxygenating agent preparation with sieving mechanism, extrusion granulator include the granulator body, are equipped with out the hopper on the granulator body, one side that the granulator body is close to out the hopper is equipped with two support bodies, has all seted up the slide on two support bodies, and two support body tops are equipped with a screening otter board, and the screening otter board is slope form setting, and the screening otter board is close to the fixed surface of support body and is connected with the slider of slide one-to-one, and the one end that the granulator body was kept away from to play hopper lies in screening otter board top, and two support bodies are equipped with the shake subassembly that the drive screening otter board removed with one side fixedly connected with mounting panel on the mounting panel.

Through adopting above-mentioned technical scheme, when having the oxygenating agent granule to fall to the screening otter board along a hopper in the granulator body on, start the shake subassembly, shake subassembly drive screening otter board along slide reciprocating motion, screening otter board reciprocating motion makes the oxygenating agent granule on the screening otter board take place to shake to make the oxygenating agent granule dispersion of bulk, reach the mesh of fully screening to the oxygenating agent granule, improved the qualification rate of oxygenating agent product.

Optionally, the shake subassembly include with mounting panel fixed connection's driving motor, driving motor's output shaft is vertical setting, cam of fixedly connected with on driving motor's the output shaft, the lateral wall of cam and the mutual contact of a lateral wall that the screening otter board is close to mutually, fixedly connected with spring on the mounting panel, the spring is located one side of cam, the one end that the mounting panel was kept away from to the spring is connected with the screening otter board.

Through adopting above-mentioned technical scheme, when needs screening oxygenating agent granule, start driving motor, driving motor's output shaft rotates and drives the cam rotation, the cam rotates and drives the screening otter board and remove towards the direction of keeping away from the mounting panel along the slide, stretch the spring when screening otter board removes, the cam continues to rotate, the spring restores deformation gradually this moment, the in-process that the spring restores deformation will screen the otter board to the direction pulling that is close to the mounting panel, thereby realize making the mesh of screening otter board reciprocating motion, and then screen the oxygenating agent granule.

Optionally, the two ends of the screening net plate are fixedly connected with a baffle plate, each baffle plate is arranged along the discharging direction of the discharging hopper, and the baffle plate close to the spring is fixedly connected with the spring.

By adopting the technical scheme, when the screening screen plate moves, the baffle blocks the oxygen increasing agent particles on the screening screen plate from splashing, so that the possibility of oxygen increasing agent loss during screening of the oxygen increasing agent particles is reduced.

Optionally, one end of the baffle, which is far away from the screening net plate, is fixedly connected with a cover plate together.

By adopting the technical scheme, when the particles of the oxygen increasing agent are screened, the cover plate can further reduce the possibility of splashing of the particles of the oxygen increasing agent.

Optionally, one end of the screening mesh plate, which is far away from the granulator body, is provided with a collection assembly for collecting the oxygenation agent particles.

By adopting the technical scheme, the screened oxygenation agent particles can be collected by operators.

Optionally, the collecting assembly comprises a supporting frame, the supporting frame comprises an annular frame body, a plurality of supporting rods are fixedly connected to the frame body, the plurality of supporting rods are distributed along the circumferential direction of the frame body, a collecting bag is sleeved on the frame body and located between the plurality of supporting rods, an annular pressing plate is inserted into the frame body, and the collecting bag is located between the frame body and the annular pressing plate.

Through adopting above-mentioned technical scheme, when needs are collected the oxygenating agent granule that screens, cup joint collection bag and framework, then peg graft annular clamp plate and framework, collect the bag this moment and be located between framework and the annular clamp plate, the framework is fixed the collection bag with annular clamp plate simultaneously, does not need the manual support of operating personnel to collect the bag.

Optionally, the one end fixedly connected with receiving hopper that the granulator body was kept away from to the screening otter board, the length that the receiving hopper is close to granulator body one end is greater than the length that the granulator body one end was kept away from to the receiving hopper, and the one end that the granulator body was kept away from to the receiving hopper is located the framework top.

Through adopting above-mentioned technical scheme, the oxygenating agent granule that screens falls to the collection bag along the receiving hopper in, reduces the oxygenating agent granule and falls to the in-process of collection bag and take place the possibility of outer spattering.

Optionally, a recycling bin is arranged between the two shelf bodies.

Through adopting above-mentioned technical scheme, the collecting box is collected the tiny particle oxygenating agent that sieves, collects the back when full when the collecting box, and operating personnel can pour the oxygenating agent granule in the collecting box into the granulator body and carry out the reprocess, reduces the possibility that takes place the wasting of resources.

In summary, the present application includes at least one of the following beneficial technical effects:

1. by arranging the screening screen plate and the shaking assembly for driving the screening screen plate to move, the oxygenant particles on the screening screen plate are more fully screened, and the qualification rate of the oxygenant product is improved;

2. through setting up support frame and annular pressure plate, make the collection bag can receive better fixed, reduce the possibility that the landing takes place for the collection bag when collecting the oxygenating agent granule.

Drawings

Fig. 1 is a schematic view of the overall structure of an extrusion granulator in the related art.

Fig. 2 is a schematic diagram showing the overall structure of an extrusion granulator according to an embodiment of the present application.

Fig. 3 is a cross-sectional view showing a positional relationship between a frame body and a screen plate according to an embodiment of the present application.

Fig. 4 is a schematic diagram of a structure of a jitter assembly according to an embodiment of the present application.

FIG. 5 is a cross-sectional view of a collection assembly embodying features of the present application.

Description of reference numerals: 1. a granulator body; 11. a discharge hopper; 2. a frame body; 21. a slideway; 3. screening a screen plate; 31. a slider; 32. a baffle plate; 33. a cover plate; 34. a material receiving hopper; 4. a dithering component; 41. a drive motor; 42. a cam; 43. a spring; 5. a collection assembly; 51. a support frame; 511. a frame body; 512. a strut; 52. a collection bag; 53. an annular pressure plate; 6. a recycling bin; 7. and (7) mounting the plate.

Detailed Description

The present application is described in further detail below with reference to figures 2-5.

The embodiment of the application discloses an oxygenating agent preparation is with extrusion granulator with sieving mechanism. Referring to fig. 2 and 3, the granulator includes granulator body 1, is equipped with out hopper 11 on the granulator body 1, and the sieving mechanism sets up in one side that granulator body 1 is close to out hopper 11. The sieving mechanism includes two support bodies 2, and two support bodies 2 are arranged along the length direction of the discharge hopper 11, and one of them is higher near the height of the support body 2 of the discharge hopper 11, and the height of the other support body 2 far away from the discharge hopper 11 is lower. Two 2 tops of support body are provided with a screening otter board 3 jointly, and every support body 2 has all seted up a slide 21 near the surface of screening otter board 3, and the length direction of every slide 21 all with the length direction mutually perpendicular who goes out hopper 11, the screening otter board 3 be close to the fixed surface of support body 2 be connected with the slider 31 of slide 21 one-to-one, every slider 31 all with corresponding slide 21 sliding connection.

The screening otter board 3 is the slope form setting, and one side of screening otter board 3 is equipped with the shake subassembly 4 that makes screening otter board 3 along 3 width direction reciprocating motion of screening otter board, and the one end that screening otter board 3 keeps away from hopper 11 is provided with the collection subassembly 5 of collecting the oxygenating agent granule, is provided with collection granule oxygenating agent's collection case 6 under the screening otter board 3.

When having the oxygenating agent granule to drop to screening otter board 3 along hopper 11 in granulator body 1, drive shake subassembly 4, shake subassembly 4 and make screening otter board 3 and support body 2 take place relative slip, screening otter board 3 slides and makes the oxygenating agent granule on screening otter board 3 shake on screening otter board 3 is reciprocal, at the in-process of oxygenating agent granule shake, the oxygenating agent granule of piling up the conglobation is shaken the dispersion, thereby make screening otter board 3 can carry out abundant screening to the oxygenating agent granule on screening otter board 3, the qualification rate of oxygenating agent product has been improved.

In the process of screening 3 shakings of otter board, the oxygenating agent granule falls to collection subassembly 5 along the screening otter board 3 of slope, simultaneously at the in-process of screening 3 shakings of otter board, the oxygenating agent granule of tiny granule is fallen to the collection box 6 by the screening, after the oxygenating agent granule in the collection box 6 is collected fully, operating personnel can drop the oxygenating agent granule in the collection box 6 into granulator body 1, granulator body 1 processes the oxygenating agent of tiny granule into the oxygenating agent granule that accords with production standard once more.

The equal fixedly connected with baffle 32 in both ends of screening otter board 3, every baffle 32 all sets up along the ejection of compact direction of play hopper 11, and apron 33 of the common fixedly connected with of one end that screening otter board 3 was kept away from to two baffles 32, and the one end that goes out hopper 11 stretches into between screening otter board 3 and the apron 33. By arranging the baffle plate 32 and the cover plate 33, the possibility that the oxygen increasing agent particles are splashed due to shaking in the moving process of the screening net plate 3 is reduced. One end of the screening net plate 3 far away from the discharge hopper 11 is fixedly connected with a receiving hopper 34, and the length of one end of the receiving hopper 34 far away from the screening net plate 3 is smaller than the length of one end of the receiving hopper 34 close to the screening net plate 3. By arranging the receiving hopper 34, the particles of the oxygen increasing agent on the screening mesh plate 3 can better fall into the collecting assembly 5, and the possibility of splashing when the particles of the oxygen increasing agent fall into the collecting assembly 5 is reduced.

Referring to fig. 2 and 4, the shaking assembly 4 comprises a mounting plate 7 disposed on one side of a baffle 32, the mounting plate 7 and the baffle 32 are disposed in parallel, and each end of the mounting plate 7 is fixedly connected to an end portion close to the frame body 2. Mounting panel 7 is close to driving motor 41 of one end fixedly connected with of support body 2, and driving motor 41's output shaft is vertical setting, cam 42 of fixedly connected with on driving motor 41's the output shaft, and cam 42 is the level setting, and cam 42's lateral wall and the baffle 32 that is close to mutually laminate each other, and cam 42's both sides all are equipped with a spring 43, and the one end of every spring 43 all with mounting panel 7 fixed connection, the other end all with the baffle 32 fixed connection that is close to mutually.

When the screening net plate 3 needs to screen the oxygenating agent particles, the driving motor 41 is started, the driving motor 41 rotates to drive the cam 42 to rotate, the cam 42 rotates to drive the screening net plate 3 to move along the slide rail 21 in the direction far away from the mounting plate 7, and the spring 43 is stretched while the screening net plate 3 moves in the direction far away from the mounting plate 7. With the continuous rotation of the cam 42, the spring 43 gradually recovers deformation, and the spring 43 recovers deformation to pull the screening screen plate 3 to move along the slide rail 21 to the direction close to the mounting plate 7, so that the screening screen plate 3 reciprocates to screen the oxygenating agent particles in the screening screen plate 3.

Referring to fig. 5, the collecting assembly 5 includes a supporting frame 51, the supporting frame 51 includes an annular frame 511, the frame 511 is located below one end of the receiving hopper 34 far away from the screening net plate 3, four supporting rods 512 are fixedly connected to a lower surface of the frame 511, the four supporting rods 512 are equidistantly distributed along a circumferential direction of the frame 511, a collecting bag 52 is sleeved on the frame 511, and the collecting bag 52 is located between the four supporting rods 512. An annular pressing plate 53 is inserted into the frame body 511, and the annular pressing plate 53 fixes the frame body 511 and the collecting bag 52, so that the possibility that the collecting bag 52 topples over when collecting the oxygen increasing agent particles is reduced.

The embodiment of the application provides an oxygenating agent preparation is with extrusion granulator's implementation principle does with sieving mechanism: when the granulator body 1 is provided with the oxygenant particles which fall onto the screening screen plate 3 along the discharge hopper 11, the driving motor 41 is started, the driving motor 41 rotates to drive the cam 42 to rotate, the cam 42 rotates to drive the screening screen plate 3 to slide towards the direction close to or far away from the mounting plate 7, and the screening screen plate 3 slides to enable the oxygenant particles on the screening screen plate 3 to shake.

When the oxygenation agent particles on the screening mesh plate 3 shake, the small-particle oxygenation agent which does not meet the production standard is screened and dropped into the recovery box 6, and the oxygenation agent particles which meet the production standard slide into the collection bag 52 along the material receiving hopper 34. When the collection bag 52 is full of oxygen-increasing agent particles and a new collection bag 52 needs to be replaced, the annular pressing plate 53 is pulled in a direction away from the frame 511 to separate the annular pressing plate 53 and the frame 511 from each other, then the collection bag 52 is taken out, the new collection bag 52 is sleeved on the frame 511, and then the annular pressing plate 53 is pressed to enable the annular pressing plate 53 to be inserted into the frame 511. After the collection of the small-particle oxygen increasing agent in the recycling box 6 is completed, an operator can pour the small-particle oxygen increasing agent in the recycling box 6 into the granulator body 1, and the granulator body 1 processes the poured small-particle oxygen increasing agent.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides an oxygenating agent preparation is with extrusion granulator with sieving mechanism, extrusion granulator include granulator body (1), is equipped with out hopper (11) on granulator body (1), its characterized in that: granulator body (1) is close to one side of going out hopper (11) and is equipped with two support bodies (2), slide (21) have all been seted up on two support bodies (2), two support body (2) tops are equipped with one and screen otter board (3), screen otter board (3) are the slope form setting, screen otter board (3) are close to slider (31) of the fixed surface of support body (2) and slide (21) one-to-one, the one end that goes out hopper (11) and keep away from granulator body (1) is located screen otter board (3) top, two support body (2) with one side fixedly connected with mounting panel (7), be equipped with shake subassembly (4) that drive screening otter board (3) removed on mounting panel (7).

2. The extrusion granulator for preparation of oxygen increasing agent with screening device as set forth in claim 1, wherein: shake subassembly (4) including with mounting panel (7) fixed connection's driving motor (41), the output shaft of driving motor (41) is vertical setting, cam (42) of fixedly connected with on the output shaft of driving motor (41), the lateral wall and the lateral wall that screening otter board (3) are close to mutually contact of lateral wall of cam (42), fixedly connected with spring (43) on mounting panel (7), spring (43) are located one side of cam (42), the one end that mounting panel (7) were kept away from in spring (43) is connected with screening otter board (3).

3. The extrusion granulator for preparation of oxygen increasing agent with screening device as set forth in claim 2, wherein: the two ends of the screening screen plate (3) are fixedly connected with a baffle (32), each baffle (32) is arranged along the discharging direction of the discharging hopper (11), and the baffle (32) close to the spring (43) is fixedly connected with the spring (43).

4. The extrusion granulator for preparation of oxygen increasing agent with screening device as set forth in claim 3, wherein: one end of the baffle (32) far away from the screening screen plate (3) is fixedly connected with a cover plate (33) together.

5. The extrusion granulator for preparation of oxygen increasing agent with screening device as set forth in claim 1, wherein: and one end of the screening screen plate (3) far away from the granulator body (1) is provided with a collecting assembly (5) for collecting the oxygenating agent.

6. The extrusion granulator for preparation of oxygen increasing agent with screening device as set forth in claim 5, wherein: collect subassembly (5) including support frame (51), support frame (51) are including being annular framework (511), a plurality of branches of fixedly connected with (512) on framework (511), the circumference distribution of framework (511) is followed in a plurality of branches (512), the cover is equipped with collection bag (52) on framework (511), collection bag (52) are located between a plurality of branches (512), it has one ring clamp plate (53) to peg graft on framework (511), collection bag (52) are located between framework (511) and ring clamp plate (53).

7. The extrusion granulator for preparation of oxygen increasing agent with screening device as set forth in claim 1, wherein: screening otter board (3) keep away from one end fixedly connected with receiving hopper (34) of granulator body (1), and receiving hopper (34) are greater than receiving hopper (34) and keep away from the length of granulator body (1) one end near granulator body (1) one end, and the one end that granulator body (1) was kept away from in receiving hopper (34) is located framework (511) top.

8. The extrusion granulator for preparation of oxygen increasing agent with screening device as set forth in claim 1, wherein: a recycling box (6) is arranged between the two frame bodies (2).

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