CN214917922U - PBT particle rapid distributing mechanism - Google Patents

Abstract

The utility model discloses a quick feed mechanism of PBT granule installs vibrating motor (1.1) on the outer wall of branch workbin (1), install a cooling plate (1.2) in branch workbin (1), and leave a ejection of compact slit between the left side tank wall of cooling plate (1.2) and branch workbin (1), the open end in top of branch workbin (1) is installed and is divided material screen cloth (2), divides material screen cloth (2) to be located the top of cooling plate (1.2), and divides the bottom discharge gate of workbin (1) below to install waste material conveyer belt (4); and the periphery of the material distribution screen (2) is upwards turned with a baffle (2.1), a discharge hole (2.2) is formed at the intersection of the baffle (2.1) and the left box wall of the material distribution box (1), and a finished product conveyer belt (3) is positioned below the discharge hole (2.2). The utility model discloses a quick feed mechanism of PBT granule, it can be fast effectual filters and classify the PBT granule.

Description

PBT particle rapid distributing mechanism

Technical Field

The utility model relates to a feed mechanism especially relates to a mechanism that carries out quick classification according to the diameter size of PBT granule, belongs to PBT production facility technical field.

Background

At present, in the preparation process of the PBT granule material, after cutting and discharging, the PBT granules can be bagged after being cooled; however, on some occasions with higher requirements on the particle size precision of PBT particles, broken materials with small particle sizes are often doped in qualified materials; and the conventional production line is lack of an effective material distribution mechanism, so that a mechanism capable of rapidly powdering PBT (polybutylene terephthalate) granules is urgently needed.

Disclosure of Invention

An object of the utility model is to overcome above-mentioned not enough, provide a quick feed mechanism of PBT granule, it can be quick effectual filters and classify the PBT granule.

The purpose of the utility model is realized like this:

a PBT particle rapid material distribution mechanism comprises a material distribution box arranged on a rack, wherein a vibration motor is arranged on the outer wall of the material distribution box, a cooling plate is arranged in the material distribution box, a discharging slit is reserved between the cooling plate and the left box wall of the material distribution box, a material distribution screen is arranged at the top opening end of the material distribution box, the material distribution screen is positioned above the cooling plate, and a waste material conveying belt is arranged below a bottom discharging port of the material distribution box; and the periphery of the material distribution screen is upwards turned with a baffle, a discharge hole is formed at the intersection of the baffle and the left box wall of the material distribution box, and a finished product conveying belt is positioned below the discharge hole.

The utility model relates to a quick feed mechanism of PBT granule, divide material screen cloth and cooling plate parallel arrangement, and divide the material screen cloth to turn left from the right side and be the inclined plane setting downwards.

The utility model relates to a quick feed mechanism of PBT granule, divide tank wall slant all around of workbin to set up and constitute a toper structure.

The utility model relates to a quick feed mechanism of PBT granule, be provided with the ventilation hole on the cooling plate, and the aperture in ventilation hole is less than the mesh aperture of dividing the material screen cloth, installs a plurality of cooling fans on the bottom surface of this cooling plate.

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

the utility model discloses divide the material operation (or at the in-process of dividing the material, realized the screening of material simultaneously) to the in-process of cooling off after the cutting has been accomplished promptly to the granule to realized the rejection and recycle of the incomplete broken material of small-size footpath (the incomplete broken material of small-size footpath can be retrieved and extrude the grain cutting as the raw materials remelting to the fore track rabbling mechanism), and do not influence original operation cycle and operating efficiency.

Drawings

Fig. 1 is the utility model relates to a quick feed mechanism of PBT granule local top view.

Fig. 2 is the utility model discloses a quick feed mechanism of PBT granule's side partial cross-section.

Wherein:

a material separating box 1, a material separating screen 2, a finished product conveying belt 3, a waste conveying belt 4,

A baffle 2.1 and a discharge hole 2.2;

vibrating motor 1.1, cooling plate 1.2.

Detailed Description

Referring to fig. 1 and 2, the utility model relates to a PBT granule fast distributing mechanism, include the branch workbin 1 installed on the frame, install vibrating motor 1.1 on the outer wall of branch workbin 1, install a cooling plate 1.2 in the branch workbin 1, and leave a discharge slit between the left side tank wall of cooling plate 1.2 and branch workbin 1, the open end in top of branch workbin 1 installs branch screen 2, and branch screen 2 is located the top of cooling plate 1.2, and installs waste material conveyer belt 4 below the bottom discharge gate of branch workbin 1; the periphery of the material distribution screen 2 is upwards turned with a baffle 2.1, a discharge hole 2.2 is arranged at the intersection of the baffle 2.1 and the left box wall of the material distribution box 1, and a finished product conveying belt 3 is positioned below the discharge hole 2.2;

further, the material distribution screen 2 and the cooling plate 1.2 are arranged in parallel, and the material distribution screen 2 is arranged in an inclined plane from right to left and downwards;

furthermore, the peripheral box walls of the material distribution box 1 are obliquely arranged to form a conical structure, so that the falling of materials is facilitated;

when the PBT material separating device is used, cut PBT particles fall into the right side of the material separating screen 2 through the conveyer belt positioned above the right side of the material separating screen 2, and then roll down leftwards under the oblique arrangement action of the vibrating motor 1.1 and the material separating screen 2, and in the process, broken materials with small particle sizes fall onto the cooling plate 1.2 through the material separating screen 2, are continuously cooled and roll down, are guided by the oblique outer wall of the material separating box 1 after passing through the material discharging slit, fall onto the waste material conveyer belt 4 through the bottom material discharging port of the material separating box 1, and are conveyed back to the previous process for recycling; the materials with qualified grain diameters fall onto a finished product conveyer belt 3 through a discharge hole 2.2 of the material distributing screen 2 and are then conveyed to a packing position for packing operation;

furthermore, the cooling plate 1.2 is provided with vent holes, the aperture of the vent holes is smaller than the aperture of the meshes of the material distribution screen 2, and the bottom surface of the cooling plate 1.2 is provided with a plurality of cooling fans, so that cooling air is introduced through the cooling fans to cool the material of the cooling plate 1.2, the material on the material distribution screen 2 can be cooled again after the cooling air is attenuated, and the attenuated cooling air can not blow up the material on the material distribution screen 2 and can take away part of heat;

in addition: it should be noted that the above-mentioned embodiment is only a preferred embodiment of the present patent, and any modification or improvement made by those skilled in the art based on the above-mentioned conception is within the protection scope of the present patent.

Claims (4)

1. The utility model provides a quick feed mechanism of PBT granule which characterized in that: the automatic material distribution machine comprises a material distribution box (1) arranged on a rack, wherein a vibration motor (1.1) is arranged on the outer wall of the material distribution box (1), a cooling plate (1.2) is arranged in the material distribution box (1), a discharging slit is reserved between the cooling plate (1.2) and the left box wall of the material distribution box (1), a material distribution screen (2) is arranged at the opening end of the top of the material distribution box (1), the material distribution screen (2) is positioned above the cooling plate (1.2), and a waste conveying belt (4) is arranged below the bottom discharging port of the material distribution box (1); and the periphery of the material distribution screen (2) is upwards turned with a baffle (2.1), a discharge hole (2.2) is formed at the intersection of the baffle (2.1) and the left box wall of the material distribution box (1), and a finished product conveyer belt (3) is positioned below the discharge hole (2.2).

2. The rapid PBT particle distribution mechanism of claim 1, wherein: divide material screen cloth (2) and cooling plate (1.2) parallel arrangement, and divide material screen cloth (2) to be the inclined plane setting from right side down to left side.

3. The rapid PBT particle distribution mechanism of claim 1, wherein: the peripheral box walls of the material distribution box (1) are obliquely arranged to form a conical structure.

4. The rapid PBT particle distribution mechanism of claim 1, wherein: the cooling plate (1.2) is provided with a vent hole, the aperture of the vent hole is smaller than the mesh aperture of the material distribution screen (2), and the bottom surface of the cooling plate (1.2) is provided with a plurality of cooling fans.

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