CN220004816U - Novel antistatic agent shale shaker - Google Patents

Abstract

The utility model relates to the technical field of antistatic material production, in particular to a novel antistatic vibrating screen, which comprises a base, wherein two ends of the upper part of the base are respectively provided with a bracket, one of the two ends of the upper part of the base is provided with a first vibrating motor, the other end of the upper part of the base is provided with a second vibrating motor, one side of the first vibrating motor, which is close to the second vibrating motor, is connected with a feed inlet baffle through a first connecting rod, one side of the second vibrating motor, which is close to the first vibrating motor, is connected with a discharge outlet baffle through a second connecting rod, a rotary drum is arranged between the feed inlet baffle and the discharge outlet baffle, and a circumferential surface array of the rotary drum is provided with filtering holes. The rotary drum can vibrate when rotating through the first vibration motor and the second vibration motor, so that the antistatic agent clamped in the filtering holes can be cleaned conveniently.

Description

Novel antistatic agent shale shaker

Technical Field

The utility model relates to the technical field of antistatic material production, in particular to a novel antistatic agent vibrating screen.

Background

Antistatic agents are additives which are added to plastics or applied to the surface of molded articles for the purpose of reducing static buildup, and generally, they are classified into two main types, i.e., internal type and external type, depending on the method of use, and are mainly internal type antistatic agents for plastics.

At present, when antistatic agent particles are produced, the antistatic agent particles are different in size, so that the large-particle antistatic agent raw materials cannot be conveniently screened, the large-particle and irregularly-shaped antistatic agent cannot be removed, the raw materials cannot be sufficiently dissolved with water, and the use is inconvenient.

The prior application number is as follows: CN202221244996.7 discloses an automatic material receiving mechanism of antistatic granulator, belong to antistatic production facility technical field, including the granulator body, collect the subassembly, screening subassembly and base, granulator body, collect subassembly and screening subassembly and fixed the setting in proper order on the base from a left side to the right side, collect the flitch that the subassembly set up including the slope, the bottom fixedly connected with electric putter of flitch, screening subassembly includes the screening case, the inside wall of screening case articulates the filter that has the slope to set up, the inside wall fixedly connected with slope of screening case sets up the flitch that gathers materials, a plurality of filtration pores have been seted up on the filter, the discharge gate has been seted up to the lateral wall of screening case, be located the discharge gate below on the base and receive the magazine, granulator body production antistatic agent granule sieves, the finished product is passed through the leading-in screening subassembly of collecting subassembly and is sieved, get rid of the antistatic agent granule of great size, in the standard size is led into and is received the magazine, receive the material, automatic sieving carries out the screening, convenient to use.

However, if the antistatic agent particles are the same as the apertures of the filter holes in the above technical scheme, the filter holes will be blocked, and the particles stuck in the filter holes cannot be vibrated out by lighter vibration, so that the particles need to be cleaned manually, and the work continuity is interrupted, so that time and labor are wasted.

Disclosure of Invention

The utility model aims to overcome the defects of the prior art, and provides a novel antistatic vibrating screen, wherein the circumference surface of a rotary drum is provided with a filtering hole, and screening of antistatic particles is realized through rotation of the rotary drum.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

the utility model provides a novel antistatic agent shale shaker, includes the base, the support is installed respectively at the upper portion both ends of base, one of them first vibrating motor is installed on the top of support, another second vibrating motor is installed on the top of support, first vibrating motor is close to one side of second vibrating motor is connected with the feed inlet baffle through the head rod, second vibrating motor is close to one side of first vibrating motor is connected with the discharge gate baffle through the second connecting rod, the feed inlet baffle with install the rotary drum between the discharge gate baffle, the circumference surface array of rotary drum is provided with the filtration pore. The rotary drum can vibrate when rotating through the first vibration motor and the second vibration motor, so that the antistatic agent clamped in the filtering holes can be cleaned conveniently.

Preferably, the pore diameter of the filter pores gradually decreases from the inner wall to the outer wall. The pore diameter of the smallest side of the filter pore can penetrate through the qualified antistatic agent.

Preferably, the upper portion of feed inlet baffle has been seted up the feed inlet, the feed inlet is close to one side of first vibrating motor is provided with the feed inlet guide plate, the discharge gate has been seted up to the lower part of discharge gate baffle, the discharge gate is close to one side of second vibrating motor is provided with the discharge gate guide plate. Is convenient for feeding and discharging.

Preferably, the bracket for mounting the second vibration motor is of an inverted U-shaped structure. The guide plate at the discharge port is convenient to penetrate through the bracket and the impurity collecting box is convenient to set.

Preferably, a power device for driving the rotary drum to rotate is arranged inside the rotary drum. The rotating drum is convenient to rotate, and the antistatic agent particles are continuously sieved.

Preferably, the height of the bracket to which the first vibration motor is mounted is higher than the height of the bracket to which the second vibration motor is mounted. The rotary drum is obliquely arranged, so that the antistatic agent can slide to the side with lower height due to self weight when the rotary drum rotates.

Preferably, a receiving box is arranged below the rotary drum, and a sundry collecting box is arranged below the discharge port guide plate.

Compared with the prior art, the utility model has the beneficial effects that:

1. the utility model has simple structure, the filter holes are arranged on the circumferential surface of the rotary drum, the screening of the antistatic agent particles is realized through the rotation of the rotary drum, and the antistatic agent particles clamped in the filter holes can be easily and repeatedly vibrated into the rotary drum when rotating to one side far away from the base because the two ends of the rotary drum are respectively connected with the first vibration motor and the second vibration motor, so that the self-cleaning of the filter holes is realized.

2. The both ends of this device rotary drum are connected with first vibration motor and second vibration motor respectively, can realize that the vibrations effect at rotary drum both ends is the same, avoid because the vibrations effect of certain one end is not enough to shake the antistatic agent granule of card in the filtration pore and fall, improve the filtration pore self-cleaning effect of this device.

3. The aperture of the filtering hole of the device is gradually reduced from the inner wall of the rotary drum to the outer wall, so that the antistatic agent particles can be prevented from being completely blocked in the filtering hole, and the blocked antistatic agent particles can be easily shaken off when rotating to one side far away from the base along with the rotary drum.

Drawings

FIG. 1 is a front view of the present utility model;

FIG. 2 is a top view of the present utility model;

FIG. 3 is a schematic diagram of the overall structure of the device;

FIG. 4 is a cross-sectional view of the present device;

fig. 5 is a schematic view of the structure of the through holes on the drum.

In the figure: 1. a base; 2. a bracket; 3. a first vibration motor; 4. a second vibration motor; 5. a first connecting rod; 6. a second connecting rod; 7. a feed inlet baffle; 8. a discharge port baffle; 9. a feed inlet guide plate; 10. a discharge port guide plate; 11. a rotating drum; 12. a receiving box; 13. and a impurity collecting box.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Examples

The utility model provides a novel antistatic agent shale shaker, the structure is as shown in fig. 1-5, includes base 1, support 2 is installed respectively at the upper portion both ends of base 1, one of them first vibrating motor 3 is installed on the top of support 2, another second vibrating motor 4 is installed on the top of support 2, first vibrating motor 3 is close to one side of second vibrating motor 4 is connected with feed inlet baffle 7 through head rod 5, second vibrating motor 4 is close to one side of first vibrating motor 3 is connected with discharge gate baffle 8 through second connecting rod 6, feed inlet baffle 7 with install rotary drum 11 between the discharge gate baffle 8, rotary drum 11's circumference surface array is provided with the filtration pore. The rotary drum 11 can vibrate when rotating through the first vibration motor 3 and the second vibration motor 4, so that the antistatic agent clamped in the filter holes can be cleaned conveniently. The inside of the rotary drum 11 is provided with a power device for driving the rotary drum 11 to rotate. The rotation of the drum 11 is facilitated, and the antistatic agent particles are continuously sieved.

The first connecting rod 5 is fixedly connected with the feed inlet baffle 7, the second connecting rod 6 is fixedly connected with the discharge outlet baffle 8, the first vibration motor 3 and the second vibration motor 4 drive the feed inlet baffle 7 and the discharge outlet baffle 8 to vibrate through the first connecting rod 5 and the second connecting rod 6 respectively, the rotary drum 11 between the feed inlet baffle 7 and the discharge outlet baffle 8 is indirectly driven to vibrate, and the rotary drum 11 can rotate to screen antistatic agent particles continuously, so that when the antistatic agent particles clamped in the filter holes rotate to the upper part of the rotary drum 11, the clamped antistatic agent particles can be vibrated out through the vibration of the rotary drum 11, and the antistatic agent particles fall into the rotary drum 11 again, so that the filter holes can filter and screen the antistatic agent particles again.

The aperture of the filtering holes gradually reduces from the inner wall to the outer wall. The pore diameter of the smallest side of the filter pore can penetrate through the qualified antistatic agent.

The rotary drum 11 is rotating all the time, and antistatic agent granule is filtering screening through the filtration pore in the side that rotary drum 11 pressed close to base 1 all the time, the accessible filtration pore that the particle diameter is little is sieved out and falls into material receiving box 12, the particle diameter is similar with the aperture of filtration pore then can block in the filtration pore, when rotary drum 11 shakes, the antistatic agent granule that part blocked can be shaked again to rotary drum 11 in, the more tight part antistatic agent granule of card is when rotating to the one side of keeping away from base 1 along with rotary drum 11, under the vibrations of rotary drum 11, also because the filtration pore aperture of rotary drum 11 inner wall is greater than the filtration pore aperture of rotary drum 11 outer wall, can be by the relatively easy follow filtration pore in shake again to rotary drum 11 in, realize automatic clearance filtration pore, the practicality is strengthened, sustainable incessant filters screening to antistatic agent granule.

The upper portion of feed inlet baffle 7 has seted up the feed inlet, the feed inlet is close to one side of first vibrations motor 3 is provided with feed inlet guide plate 9, the discharge gate has been seted up to the lower part of discharge gate baffle 8, the discharge gate is close to one side of second vibrations motor 4 is provided with discharge gate guide plate 10. Is convenient for feeding and discharging. The height of the bracket 2 to which the first vibration motor 3 is mounted is higher than the height of the bracket 2 to which the second vibration motor 4 is mounted. The inclined installation of the drum 11 facilitates the anti-static agent to slide to the side with lower height due to the dead weight when the drum 11 rotates.

The antistatic agent granule that needs to filter screening gets into the rotary drum 11 inside from the feed inlet through feed inlet guide plate 9, through the rotation of rotary drum 11, realizes incessantly filtering the screening to antistatic agent granule, and the great antistatic agent granule of screening remains in rotary drum 11 inside all the time, again because rotary drum 11's mounting means is the height that highly is higher than the discharge gate direction of feed inlet direction, when rotary drum 11 constantly rotates, the inside great antistatic agent granule of rotary drum 11 slides to the discharge gate direction, finally flows from the discharge gate direction, gets into miscellaneous box 13 through discharge gate guide plate 10.

The bracket 2 for mounting the second vibration motor 4 is of an inverted U-shaped structure. The discharge port guide plate 10 is convenient to pass through the bracket 2, and the impurity collecting box 13 is convenient to arrange.

Because the hole that can supply discharge gate guide plate 10 to pass is had in the structure middle part of falling U type, the support 2 of this direction is passed to the discharge gate guide plate 10 of being convenient for, and the great antistatic agent granule direction collection miscellaneous box 13's of screening out is gone up to the inside filtration of rotary drum 11 upper portion, is convenient for collect great antistatic agent granule, makes the inside work that can last filtration screening of rotary drum 11, improves the practicality of this device.

A receiving box 12 is arranged below the rotary drum 11, and a impurity collecting box 13 is arranged below the discharge port guide plate 10. The rotary drum 11 continuously rotates to filter and screen the inside antistatic agent particles, the filtered and screened antistatic agent falls into the material collecting box 12 due to the dead weight of the antistatic agent, and the larger-particle antistatic agent particles filtered and screened out remain in the rotary drum 11 and then enter the impurity collecting box 13 through the discharge port guide plate 10 on the discharge port, so that qualified antistatic agent and unqualified antistatic agent can be conveniently stored in a distinguishing mode.

The present utility model is not limited to the above-mentioned embodiments, and any changes or modifications within the scope of the present utility model will be apparent to those skilled in the art. Therefore, the protection scope of the present utility model shall be subject to the protection scope of the claims.

Claims (7)

1. The utility model provides a novel antistatic agent shale shaker, includes base (1), support (2) are installed respectively at the upper portion both ends of base (1), one of them first vibrating motor (3) are installed on the top of support (2), another second vibrating motor (4) are installed on the top of support (2), first vibrating motor (3) are close to one side of second vibrating motor (4) is connected with feed inlet baffle (7) through head rod (5), second vibrating motor (4) are close to one side of first vibrating motor (3) is connected with discharge gate baffle (8) through second connecting rod (6), feed inlet baffle (7) with install rotary drum (11) between discharge gate baffle (8), the circumference surface array of rotary drum (11) is provided with the filtration pore.

2. The novel antistatic vibrating screen according to claim 1, wherein the pore diameter of the filter pore is gradually reduced from the inner wall to the outer wall.

3. The novel antistatic vibrating screen according to claim 2, wherein a feed inlet is formed in the upper portion of the feed inlet baffle (7), a feed inlet guide plate (9) is arranged on one side, close to the first vibrating motor (3), of the feed inlet, a discharge outlet is formed in the lower portion of the discharge outlet baffle (8), and a discharge outlet guide plate (10) is arranged on one side, close to the second vibrating motor (4), of the discharge outlet.

4. A novel antistatic agent vibrating screen according to claim 3, characterized in that the bracket (2) for mounting the second vibrating motor (4) is of an inverted U-shaped structure.

5. The novel antistatic agent vibrating screen according to claim 4, wherein a power device for driving the rotary drum (11) to rotate is arranged inside the rotary drum (11).

6. The novel antistatic vibrating screen according to claim 5, wherein the height of the bracket (2) for mounting the first vibrating motor (3) is higher than the height of the bracket (2) for mounting the second vibrating motor (4).

7. The novel antistatic vibrating screen according to claim 6, wherein a receiving box (12) is arranged below the rotary drum (11), and a trash collecting box (13) is arranged below the discharge port guide plate (10).