CN210995184U - Master batch screening machine - Google Patents

Abstract

The utility model discloses a master batch sieve separator, including shale shaker (3), shale shaker (3) including casing (30) and set up in discharge gate (301) of casing (30) one end, shale shaker (3) still including connect in screen cloth group (31) on casing (30) and be located passageway group (32) of screen cloth group (31) below, screen cloth group (31) include a plurality of screen cloths that set up on the coplanar, passageway group (32) including a plurality of correspondences set up in the passageway of screen cloth below is close to the screen cloth of shale shaker (3) discharge end (50) more, and sieve mesh (313) on it is big more. The master batch screening machine of the utility model can screen master batches from small to large; meanwhile, the screen mesh is positioned on the same plane, and hands can easily touch the screen mesh, so that master batches remained on the screen mesh can be easily discharged, and the method is very convenient.

Description

Master batch screening machine

Technical Field

The utility model relates to a production facility of master batch, in particular to master batch sieve separator.

Background

Master batch sieve separator mainly used selects the master batch of different particle diameters, current master batch sieve separator includes the chassis, a spring, shale shaker and drive arrangement, the top of chassis is located to the shale shaker, both pass through spring coupling, drive arrangement is used for driving the reciprocating vibration of shale shaker, the inside screen cloth that is equipped with the sieve mesh in different apertures is seted up to the multilayer of shale shaker, the multilayer screen cloth divides into a plurality of storehouses with the shale shaker internal partitioning, every storehouse is provided with the discharge gate respectively, the shale shaker is feed end and discharge end respectively along length direction's both ends. When the master batch discharging device is used, master batches are fed from a feeding end, are screened into master batches with different particle sizes by a screen, and are discharged from a discharging end.

The prior art is disadvantageous in that when master batches with different particle sizes need to be screened, a plurality of different screen meshes are needed, the plurality of screen meshes in the prior art are arranged in a stacked manner in the vertical direction, and the screen meshes are arranged in a generally horizontal manner, for example, in the patent of the utility model china with the application number 201420185672.X, a mute electricity-saving horizontal reciprocating resonance screening machine is disclosed, and the screening machine comprises a first coarse material screen mesh, a second coarse material screen mesh and a fine material screen mesh which are horizontally arranged from top to bottom. In the screening machine in the prior art, master batches may remain on the screen after screening is finished, the master batches on the uppermost screen can be discharged from the discharge end only by being pushed by hands, but the screen below the top surface is difficult to touch by hands, so the master batches on the screen are difficult to discharge; in addition, the number of the screens is large, so that the requirement on the height direction is high, meanwhile, the weight of the vibrating screen is increased due to the increase of the number of the screens, the burden of the driving device is increased, and the energy consumption is not saved.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to the above-mentioned defect among the prior art, provide a master batch sieve separator, its discharge that can be convenient remains the master batch on the screen cloth.

In order to realize the above-mentioned utility model purpose, the utility model provides a master batch sieve separator, including the shale shaker, the shale shaker include the casing and set up in the discharge gate of casing one end, its characterized in that: the shale shaker still including connect in screen cloth group on the casing and being located the passageway group of screen cloth group below, the screen cloth group includes a plurality of screen cloths that set up on the coplanar, the passageway group include a plurality of correspondences set up in the passageway of screen cloth below is closer to the screen cloth of shale shaker discharge end more, and the sieve mesh on it is bigger.

Furthermore, the utility model discloses still provide following subsidiary technical scheme:

the casing is provided with the support limit, the screen cloth including support in support the sieve on the limit.

The screen cloth still including set up in the turn-ups at sieve both ends and set up in the arm-tie on the turn-ups.

Two adjacent screens are mutually attached.

The discharge port is provided with an inclined bottom surface.

The channel includes a support plate, a plurality of side walls disposed around the support plate, and an outlet disposed on one of the side walls.

The supporting plate is obliquely arranged, and the shell is provided with an opening avoiding the outlet.

The vibrating screen further comprises a spacing assembly arranged between the two screen meshes, and the spacing assembly comprises a spacing block and a spacing plate connected to the spacing block.

The spacing block is provided with a cutting groove, and the spacing plate is inserted into the cutting groove.

The number of the spacing blocks is two, and the spacing blocks are oppositely arranged on the left side and the right side of the shell.

Compared with the prior art, the utility model has the advantages of:

1. the utility model discloses a master batch sieve separator is provided with a plurality of screen meshes that are located on the coplanar and a plurality of passageways that are correspondingly arranged below the screen meshes, and the sieve mesh that is arranged on the screen mesh that is closer to the discharge end is bigger, so that during the vibration screening, the master batch can be screened from small to big; meanwhile, the screen mesh is positioned on the same plane, and can be easily touched by hands, so that the master batch remained on the screen mesh can be easily discharged, and the method is very convenient;

2. the utility model discloses in each screen cloth set up on the coplanar, do not arrange in the direction of height, therefore can reduce the distance of direction of height, when screening the master batch of multiple particle size, the weight of screen cloth is unchangeable basically, and is little to the influence of drive arrangement, more for energy-conservation;

3. the utility model discloses a master batch sieve separator still is provided with the interval subassembly, can separate different screen meshes to better assurance master batch can fully sieve.

Drawings

Fig. 1 is the structure schematic diagram of the master batch screening machine of the utility model.

Fig. 2 is a schematic structural view of a vibrating screen according to the present invention.

Fig. 3 is a schematic view of the vibrating screen of the present invention when the screen set is not installed.

Fig. 4 is a schematic structural diagram of the screen mesh of the present invention.

Fig. 5 is a schematic structural diagram of the middle channel of the present invention.

Fig. 6 is a schematic structural view of the middle spacer assembly of the present invention.

Detailed Description

The following non-limiting detailed description of the present invention is provided in connection with the preferred embodiments and accompanying drawings.

As shown in fig. 1, the master batch screening machine according to a preferred embodiment of the present invention includes a bottom frame 1, a spring assembly 2, a vibrating screen 3 and a driving device.

The spring assembly 2 is connected between the chassis 1 and the vibrating screen 3, and the driving device is connected to the chassis 1, which may employ a vibrating motor for driving the vibrating screen 3 to vibrate. The chassis 1, the spring assembly 2, the vibrating screen 3 and the driving device are connected in a connecting mode in the prior art, and the details are not repeated here.

As shown in fig. 2, shaker 3 includes a housing 30, a plurality of screen groups 31 connected to housing 30, and a channel group 32 located below screen groups 31.

As shown in fig. 3, a convex supporting edge 300 is disposed on an inner wall of the casing 30, the supporting edge 300 is used for placing the screen set 31, a discharge port 301 is disposed at an end of the casing 30, and an inclined bottom surface 302 is disposed at the discharge port 301, so that the master batches at the discharge port 301 can more conveniently flow out of the discharge port 301 under the action of gravity.

The screen group 31 includes a plurality of screens disposed on the same plane, the screens and the casing can be fixed to each other by bolts, and a single screen is provided with a screen hole 313 with a uniform aperture. From 5 to the discharge end 50 of shale shaker 3's feed end, be close to the screen cloth of discharge end 50 more, the sieve mesh that sets up on it is big for after the vibration, the less master batch of particle diameter is sieved out by the screen cloth earlier, and the great master batch of particle diameter then still remains in the screen cloth top and is filtered by being removed to next screen cloth, and all screen cloths all can't filterable master batches then flow out from discharge gate 301, thereby accomplish the screening of different particle diameter master batches.

As shown in fig. 4, the screen includes a screen plate 31a, flanges 31b provided at both ends of the screen plate 31a, and pull plates 31c provided on the flanges 31 b. The pulling plate 31c extends towards the inside of the screen for facilitating the taking of the screen by hand. The sieve plate 31a is provided with sieve holes 313 with uniform apertures. The distance between two adjacent screens is less than the particle diameter of minimum master batch to prevent that the master batch from dropping in the interval between two screens, preferably, two adjacent screens laminate each other, make the master batch can steady removal to next screen cloth.

In this embodiment, the supporting edge 300 is horizontally disposed on the casing 30, and the sieve plates 31a of each sieve are supported by the supporting edge 300, so that the sieve plates 31a are located on the same horizontal plane; the support edge 300 may also be arranged to be gradually inclined downwards from the feeding end 5 to the discharging end 50, so that the master batch can move along to the next screen when vibrating.

In this embodiment, the screen set 31 is provided with three screens, which are a first screen 310, a second screen 311 and a third screen 312, and the screen holes 313 on the three screens are sequentially enlarged to screen out master batches with different particle sizes.

The channel group 32 is used for sending out master batches screened by the screen, and comprises a plurality of channels corresponding to the screen, and the channels are arranged below the screen and used for isolating master batches with different particle sizes. In this embodiment, the channels include a first channel 320 corresponding to the first screen 310, a second channel 321 corresponding to the second screen 311, and a third channel 322 corresponding to the third screen 312.

The passage includes a support plate 32a disposed obliquely, four side walls 32b disposed around the support plate 32a, and an outlet 32c disposed on one of the side walls 32b, and may be connected to the cabinet 30 by welding. After the master batch is sieved from the screen cloth, the master batch falls into the corresponding channel below the screen cloth and flows out from the outlet 32c along the supporting plate 32a, and the side wall 32b can block the master batch in other channels to prevent the master batch with different grain diameters from being mixed again. An opening 30a avoiding the outlet 32c is provided on the housing 30 for discharging the master batch.

With further reference to fig. 3 and 6, the shaker 3 further includes a spacer assembly 33 disposed between the two screens. The spacing member 33 includes two spacing blocks 330 connected to the supporting side 300 and two spacing plates 331 disposed on the spacing blocks 330, preferably, the two spacing blocks 330 are disposed on the left and right sides of the casing 30 to better support the spacing plates 331. The spacer 330 is connected to the supporting edge 300 by bolts, and can be used to position the screens on both sides, and the screen is provided with a notch 31d matching with the supporting edge 300. The spacer 330 further has a slot 331a, and the spacer 331 is inserted into the slot 331 a. When the partition plate 331 is inserted into the cut groove 331a, the distance between the bottom of the partition plate 331 and the sieve plate is smaller than the minimum particle size of the master batch, thereby preventing the master batch from entering from one sieve plate to the other, preferably, the bottom of the partition plate 331 is in contact with the sieve plate.

The partition plate 331 is inserted into the partition block 330, so that the master batch can be sufficiently screened, and insufficient screening caused by too short residence time of the master batch on the screen can be prevented, for example, the master batch which should fall from the first screen 310 is moved to the second screen 311, and the master batch falls from the second screen 311 and is mixed into the master batch with a primary particle size.

Specifically, the master batch can be sufficiently screened at a certain screen by the following method during screening: the partition plate 331 is inserted into the partition block 330, and then the master batch is poured onto the first screen 310, the driving device drives the vibrating screen 3 to vibrate, and a part of the master batch is screened by the first screen 310 and flows out from the first passage 320. Due to the obstruction of the partition plate 331, the master batches cannot enter the second screen 310, the vibration time of the master batches at the first screen 310 can be manually grasped, and after the master batches are screened for a certain time at the first screen 310, the partition plate 331 between the first screen 310 and the second screen 311 can be pulled away, so that the master batches are moved to the second screen 311 for screening; similarly, the screening time of the master batches on the second screen 311 can be manually controlled, and after a certain time, the master batches are drawn out of the partition board 331 between the second screen 311 and the third screen 312, so that the master batches move to the third screen 312 for screening; after a certain time, the partition 331 between the third screen 312 and the discharge port 301 is removed, so that the master batch can flow out of the discharge port 301. By ensuring the screening time, the master batch can be sufficiently screened.

Because the screens are all located the top layer, the staff can touch the master batch on the screen easily, consequently can be convenient remove remaining master batch to second screen cloth 311, third screen cloth 312 and sieve or push out discharge gate 301 ejection of compact.

The utility model discloses a master batch sieve separator possesses following advantage at least:

1. the utility model discloses a master batch sieve separator is provided with a plurality of screen meshes that are located on the coplanar and a plurality of passageways that are correspondingly arranged below the screen meshes, and the sieve mesh that is arranged on the screen mesh that is closer to the discharge end is bigger, so that during the vibration screening, the master batch can be screened from small to big; meanwhile, the screen mesh is positioned on the same plane, and can be easily touched by hands, so that the master batch remained on the screen mesh can be easily discharged, and the method is very convenient;

2. the utility model discloses in each screen cloth set up on the coplanar, do not arrange in the direction of height, therefore can reduce the distance of direction of height, when screening the master batch of multiple particle size, the weight of screen cloth is unchangeable basically, and is little to the influence of drive arrangement, more for energy-conservation;

3. the utility model discloses a master batch sieve separator still is provided with the interval subassembly, can separate different screen meshes to better assurance master batch can fully sieve.

Claims (10)

1. The utility model provides a master batch sieve separator, includes shale shaker (3), shale shaker (3) including casing (30) and set up in discharge gate (301) of casing (30) one end, its characterized in that: the vibrating screen (3) further comprises a screen group (31) connected to the casing (30) and a channel group (32) located below the screen group (31), wherein the screen group (31) comprises a plurality of screens arranged on the same plane, the channel group (32) comprises a plurality of channels correspondingly arranged below the screens, and the screen closer to the discharge end (50) of the vibrating screen (3), the larger the screen hole (313) on the screen group is.

2. The master batch screening machine according to claim 1, characterized in that: the machine shell (30) is provided with a supporting edge (300), and the screen comprises a screen plate (31a) supported on the supporting edge (300).

3. The master batch screening machine according to claim 2, characterized in that: the screen is characterized by further comprising flanges (31b) arranged at two ends of the screen plate (31a) and pull plates (31c) arranged on the flanges (31 b).

4. The master batch screening machine according to claim 1, characterized in that: two adjacent screens are mutually attached.

5. The masterbatch screening machine of any one of claims 1 to 4, wherein: the discharge hole (301) is provided with an inclined bottom surface (302).

6. The masterbatch screening machine of any one of claims 1 to 4, wherein: the channel includes a support plate (32a), a plurality of side walls (32b) disposed around the support plate (32a), and an outlet (32c) disposed on one of the side walls (32 b).

7. The master batch screening machine of claim 6, characterized in that: the supporting plate (32a) is obliquely arranged, and the shell (30) is provided with an opening (30a) avoiding the outlet (32 c).

8. The master batch screening machine according to claim 1, characterized in that: the vibrating screen (3) further comprises a spacing assembly (33) arranged between the two screen meshes, wherein the spacing assembly (33) comprises a spacing block (330) and a spacing plate (331) connected to the spacing block (330).

9. The master batch screening machine of claim 8, characterized in that: the spacing block (330) is provided with a cutting groove (331a), and the spacing plate (331) is inserted in the cutting groove (331 a).

10. The master batch screening machine according to claim 8 or 9, characterized in that: the number of the spacing blocks (330) is two, and the spacing blocks are oppositely arranged on the left side and the right side of the machine shell (30).

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