CN210022821U - Engineering plastic particle vibrating screen - Google Patents

Abstract

The utility model discloses an engineering plastic particle vibrating screen, which comprises a supporting table, a screen body, a dustproof cover, a first vibrating motor and a feeding area, wherein the screen body is arranged above the supporting table, the screen body and the dustproof cover are fixed by bolts, the first vibrating motor is arranged on the bottom surface of the screen body, the feeding area comprises a feeding box body, a vibrating plate, a second vibrating motor and two fans, the front side and the rear side of the feeding box body are respectively provided with a feeding port and a discharging port, the vibrating plate passes through the discharging port of the feeding box body and extends to the feeding end of the screen body, the second vibrating motor is arranged on the bottom surface of the vibrating plate, the left side and the right side of the feeding box body are respectively provided with an air inlet, the air outlets of the two fans are correspondingly arranged in the air inlets, the lower part of the air inlets is connected with the vibrating plate by an air deflector, the utility model, the material conveying is more uniform, so that the screening efficiency is improved.

Description

Engineering plastic particle vibrating screen

Technical Field

The utility model relates to an engineering plastics production facility field especially relates to an engineering plastics particle shale shaker.

Background

In the plastic extrusion production, in order to ensure uniform diameter among the prepared plastic particles and improve the product quality, the prepared plastic particles need to be screened and classified by a vibrating screen.

Because the plastic pellet is higher before getting into the shale shaker, so lead to there being some plastic pellet to condense into a mass, lead to the shale shaker to filter it, the defeated material device among the current can pour a large amount of materials into to the shale shaker in addition to lead to the shale shaker to produce and damage, and block up the sieve mesh of shale shaker easily, thereby lead to the problem that the work efficiency of shale shaker is low.

SUMMERY OF THE UTILITY MODEL

Utility model purpose: in order to solve the deficiency that exists among the background art, so the utility model provides an engineering plastic particle shale shaker.

The technical scheme is as follows: an engineering plastic particle vibrating screen comprises a supporting table, a screen body, a dustproof cover, a first vibrating motor and a feeding area, the screen body is arranged above the supporting platform, the screen body and the dust cover are fixed through bolts, the first vibrating motor is arranged on the bottom surface of the screen body, the feeding area comprises a feeding box body, a vibrating plate, a second vibrating motor and two fans, the front side and the rear side of the feeding box body are respectively provided with a feeding hole and a discharging hole, the vibrating plate passes through the discharging hole of the feeding box body and extends to the feeding end of the screen body, the second vibration motor is arranged on the bottom surface of the vibration plate, the left side and the right side of the feeding box body are respectively provided with an air inlet, the air outlets of the two fans are correspondingly arranged in the air inlets, and the lower portions of the air inlets are connected with the vibrating plate through air deflectors.

Preferably, the left side and the right side of the screen body and the dust cover are respectively provided with at least two screw holes for bolts to pass through.

Preferably, a material guide inclined plate pointing to the vibrating plate is arranged inside the feeding hole of the feeding box body.

Preferably, the screen frame includes first sieve, second sieve and connects the flitch, first sieve is located second sieve top, the second sieve is located connect the flitch top.

Preferably, the diameter of the sieve holes arranged on the surface of the first sieve plate is larger than that of the sieve holes arranged on the surface of the second sieve plate.

Preferably, the left side and the right side of the feeding box body are respectively provided with a mounting frame for mounting a fan, and the fan is mounted on the mounting frame.

Preferably, an elastic pad is arranged at the joint of the air deflector and the vibration plate.

The utility model discloses realize following beneficial effect:

1. through be equipped with the dust cover in the top of screen frame and can avoid having other impurity to drop to the screen frame inside to the problem of material pollution has been avoided.

2. Through the inside vibration board that is provided with of feeding box can filter the even transport of material to the screen frame in to the in-process of transporting is carried out at the vibration board, the fan cools off the material of vibration board top through the aviation baffle, thereby has avoided appearing the problem that the material condenses into the group because the high temperature.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the present disclosure and together with the description, serve to explain the principles of the disclosure.

Fig. 1 is a schematic view of the overall structure provided by the present invention.

Fig. 2 is a schematic view of the sieve body structure provided by the present invention.

Fig. 3 is a schematic plan view of the feeding area provided by the present invention.

In the figure: 1. the device comprises a supporting table, 2 a dustproof cover, 3 a first vibrating motor, 4 screw holes, 5 a feeding end, 6 a feeding box body, 7 a vibrating plate, 8 a discharging hole, 9 an installation frame, 10 a fan, 11 a first sieve plate, 12 a second sieve plate, 13 a material receiving plate, 14 sieve holes, 15 a sieve body, 16 an air deflector, 17 a second vibrating motor, 18 a material guiding inclined plate, 19 a feeding hole and 20 an air inlet.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

Example one

Referring to fig. 1-2, an engineering plastic particle vibrating screen comprises a supporting table 1, a screen body 15, a dust cover 2, a first vibrating motor 3 and a feeding area, wherein the screen body 15 is installed above the supporting table 1, the screen body 15 and the dust cover 2 are fixed through bolts, the first vibrating motor 3 is installed on the bottom surface of the screen body 15, the feeding area comprises a feeding box body 6, vibration board 7, second vibrating motor 17, and two fans 10, both sides are equipped with feed inlet 19 respectively around the feeding box 6, discharge gate 8, vibration board 7 passes the discharge gate 8 of feeding box 6 and extends to the feed end 5 setting of screen frame 15, second vibrating motor 17 is installed in the bottom surface of vibration board 7, the left and right sides of feeding box 6 is equipped with an air intake 20 respectively, the air outlet correspondence of two fans 10 is installed in air intake 20, the below of air intake 20 is passed through aviation baffle 16 and is connected with vibration board 7.

The screen body 15 and the left and right sides of the dust cover 2 are respectively provided with at least two screw holes 4 for bolts to pass through.

A material guide inclined plate 18 pointing to the vibrating plate 7 is arranged inside a feed port 19 of the feed box body 6.

The screen frame 15 includes first sieve 11, second sieve 12 and connects flitch 13, and second sieve 12 top is located to first sieve 11, and second sieve 12 is located and connects flitch 13 top.

The diameter of the screen holes 14 arranged on the surface of the first screen deck 11 is larger than the diameter of the screen holes 14 arranged on the surface of the second screen deck 12.

The specific implementation mode is that when the screen body 15 and the dust cover 2 are fixed, only bolts need to pass through the screen body 15 and the screw holes 4 arranged on the left side and the right side of the dust cover 2, the dust cover is arranged to prevent impurities in the air from falling into the screen body 15 to pollute materials, the material dumping inclined plate 18 is arranged inside the discharge hole 8 of the feeding box body 6 to dump the materials quickly, when the material dumping device works, a granulator drops the materials after granulating into the vibrating plate 7 through the feed hole 19, the second vibrating motor 17 drives the vibrating plate 7 to vibrate, when the vibrating plate 7 transports the materials, the fan 10 arranged outside the feeding box body 6 works, the air outlet of the fan 10 blows air into the feeding box body 6, the air deflector 16 is arranged to guide the air above the vibrating plate 7 to cool the materials, the materials cooled on the vibrating plate 7 are transported through the discharge hole 8 of the feeding box body 6 and then arrive at the screen body 15 to perform vibration screening, when the material that vibration board 7 carried is received to feed end 5 when screen frame 15, first vibrating motor 3 begins to vibrate and screens, the utility model discloses a first sieve 11 that screen frame 15 set up is used for sifting out the great material of granule, and second sieve 12 is used for sifting out standard material granule, and the flitch 13 that connects that the bottommost set up then is the minimum material of remaining granule, and first sieve 11 in the concrete application, second sieve 12 all are equipped with the window that is used for unloading with the afterbody of dash receiver in order to supply to unload.

Example two

With continuing reference to fig. 1-2, in the second embodiment of the present invention, the implementation is substantially the same as that of the first embodiment, except that,

the left and right sides of feed box 6 is equipped with the mounting bracket 9 that is used for installing fan 10 respectively, and fan 10 installs on mounting bracket 9, and the realization that the mounting bracket 9 that here set up can the preferred is fixed fan 10, and the distance between the air outlet that can guarantee fan 10 and feed window's air intake 20 is the shortest to guarantee that fan 10 can provide great wind-force to feed box 6.

The connection between the air deflector 16 and the vibration plate is provided with an elastic pad, and considering that the vibration plate 7 is driven by the second vibration motor 17 to vibrate at a high frequency, the elastic pad can provide a damping effect for the air deflector 16 in order to prevent the air deflector 16 from being damaged.

The above embodiments are only for illustrating the technical conception and the features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and to implement the present invention, which cannot limit the protection scope of the present invention. All changes and modifications that come within the spirit of the invention are desired to be protected.

Claims (7)

1. An engineering plastic particle vibrating screen is characterized by comprising a supporting platform, a screen body, a dustproof cover, a first vibrating motor and a feeding area, the screen body is arranged above the supporting platform, the screen body and the dust cover are fixed through bolts, the first vibrating motor is arranged on the bottom surface of the screen body, the feeding area comprises a feeding box body, a vibrating plate, a second vibrating motor and two fans, the front side and the rear side of the feeding box body are respectively provided with a feeding hole and a discharging hole, the vibrating plate passes through the discharging hole of the feeding box body and extends to the feeding end of the screen body, the second vibration motor is arranged on the bottom surface of the vibration plate, the left side and the right side of the feeding box body are respectively provided with an air inlet, the air outlets of the two fans are correspondingly arranged in the air inlets, and the lower portions of the air inlets are connected with the vibrating plate through air deflectors.

2. The engineering plastic particle vibrating screen as claimed in claim 1, wherein the screen body and the dust cover are respectively provided with at least two screw holes for bolts to pass through at the left and right sides.

3. The engineering plastic particle vibrating screen as claimed in claim 1, wherein a material guiding inclined plate pointing to the vibrating plate is arranged inside the feeding port of the feeding box body.

4. The engineering plastic particle vibrating screen as claimed in claim 1, wherein the screen body comprises a first screen plate, a second screen plate and a material receiving plate, the first screen plate is arranged above the second screen plate, and the second screen plate is arranged above the material receiving plate.

5. The engineering plastic particle vibrating screen as claimed in claim 4, wherein the surface of the first screen plate is provided with a screen diameter larger than that of the second screen plate.

6. The engineering plastic particle vibrating screen as claimed in claim 1, wherein the left and right sides of the feeding box body are respectively provided with a mounting rack for mounting a fan, and the fan is mounted on the mounting rack.

7. The engineering plastic particle vibrating screen as claimed in claim 1, wherein an elastic pad is disposed at the connection between the air deflector and the vibrating plate.

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