CN215095510U - Efficient material mixing and conveying mechanism - Google Patents

Abstract

The utility model discloses an efficient material mixing and conveying mechanism, which comprises a stirring chamber and a screw sleeve, wherein the top of the stirring chamber is provided with a first feeding hopper and a second feeding hopper, and the first feeding hopper and the second feeding hopper are both provided with vibrating screens for screening the particle size of materials; a stirring blade is arranged in an inner cavity of the stirring chamber, a discharge hopper communicated with an inlet of a screw sleeve is arranged at the bottom of the stirring chamber, an openable valve plate is arranged at an outlet of the discharge hopper, and a conveying screw rod which rotates directionally is arranged in the screw sleeve; the screw rod sleeve is provided with the discharge gate near conveying screw rod terminal position, and the mixing effect is better.

Description

Efficient material mixing and conveying mechanism

Technical Field

The utility model belongs to the technical field of the technique of material production facility and specifically relates to indicate an efficient material mixing conveying mechanism.

Background

The nylon material is horn-shaped semitransparent or milky crystalline resin with high toughness, has high mechanical strength, high softening point, heat resistance, low friction coefficient and wear resistance, and is an important engineering plastic. At present, when some flame-retardant products are prepared based on nylon materials, other materials and the nylon materials need to be fully mixed, and then the mixed materials can be plasticized by means of pressure and shearing force generated by rotation of a screw rod. The existing material mixing equipment is simple in structure and general in mixing effect, and materials with overlarge particle sizes are easily mixed in the mixing period, so that particle size screening cannot be performed.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome prior art not enough, provide an efficient material mixing conveyor.

In order to achieve the above purpose, the utility model provides an efficient material mixing and conveying mechanism, which comprises a stirring chamber and a screw sleeve, wherein the top of the stirring chamber is provided with a first feeding hopper and a second feeding hopper, and the first feeding hopper and the second feeding hopper are both provided with vibrating screens for screening material particle sizes; a stirring blade is arranged in an inner cavity of the stirring chamber, a discharge hopper communicated with an inlet of a screw sleeve is arranged at the bottom of the stirring chamber, an openable valve plate is arranged at an outlet of the discharge hopper, and a conveying screw rod which rotates directionally is arranged in the screw sleeve; the screw rod sleeve is provided with a discharge hole at the position close to the tail end of the conveying screw rod.

Further, the valve plate is provided with a switch driving cylinder for driving the valve plate to move along the transverse direction, wherein the valve plate is in sliding fit with the outlet of the discharge hopper.

Furthermore, a transverse sliding groove for inserting the valve plate in a transverse sliding mode is arranged at the outlet of the discharge hopper.

Further, the stirring blade is provided with a driving vertical shaft which is vertically arranged, and a stirring driving motor connected with the driving vertical shaft is arranged at the top of the stirring chamber.

Further, a screw driving motor connected with the front end part of the conveying screw is arranged outside the screw sleeve.

Further, each vibrating screen is obliquely arranged.

Further, the screw sleeve is horizontally and transversely arranged, and an inlet of the screw sleeve is arranged at the top of the outer wall of the front end of the screw sleeve.

The utility model adopts the above technical scheme, its beneficial effect lies in: after the material that sends into first feeder hopper and second feeder hopper through vibrating screen carries out the particle size screening, make the material in the teeter chamber carry out intensive mixing through stirring vane afterwards and mix to the material after the intensive mixing is handled in sending into the screw rod sleeve, has ensured to send into telescopic material intensive mixing of screw rod and has accorded with the particle size requirement.

Drawings

Fig. 1 is a schematic structural view of a mixing and conveying mechanism.

Wherein, 1-stirring chamber, 2-first feed hopper, 3-second feed hopper, 4-vibrating screen, 5-stirring blade, 51-driving vertical shaft, 6-discharge hopper, 7-valve plate, 8-screw sleeve, 81-conveying screw.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully hereinafter with reference to the accompanying drawings. The preferred embodiments of the present invention are shown in the drawings. The invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. These embodiments are provided so that this disclosure will be thorough and complete.

Referring to fig. 1, in this embodiment, an efficient material mixing and conveying mechanism includes a stirring chamber 1 and a screw sleeve 8, a first feeding hopper 2 and a second feeding hopper 3 are disposed at the top of the stirring chamber 1, and the first feeding hopper 2 and the second feeding hopper 3 are used for feeding two different materials into an inner cavity of the stirring chamber 1 respectively. First feeder hopper 2 and 3 departments of second feeder hopper all are provided with vibrating screen 4 that is used for screening the material particle diameter to the material granule that accords with the production requirement passes vibrating screen 4 and gets into in the 1 inner chamber of teeter chamber, and screens the too big rubbing crusher constructs of the artifical regular clearance return upper reaches of material granule accessible and carry out the regrinding.

Further, every vibrating screen 4 of this embodiment all is the slant and arranges, avoids the too big material granule of particle diameter to block up vibrating screen 4.

In the present embodiment, a stirring blade 5 is disposed in the inner cavity of the stirring chamber 1, wherein the stirring blade 5 is configured with a driving vertical shaft 51 arranged vertically, and the top of the stirring chamber 1 is provided with a stirring driving motor connected with the driving vertical shaft 51, that is: the drive end of the stirring drive motor extends through the stirring chamber 1 and is connected with the upper end of the drive vertical shaft 51, so that the stirring drive motor drives the stirring blade 5 to do directional rotation motion around the drive vertical shaft 51, and the materials fed through the first feed hopper 2 and the second feed hopper 3 are fully stirred and mixed through the stirring blade 5.

In this embodiment, the bottom of the mixing chamber 1 is provided with a discharge hopper 6 communicated with the inlet of the screw sleeve 8, the discharge hopper 6 is communicated with the mixing chamber 1, the outlet of the discharge hopper 6 is provided with a valve plate 7 capable of opening and closing, wherein the valve plate 7 of this embodiment is provided with a switch driving cylinder for driving the valve plate 7 to move along the transverse direction, and the valve plate 7 is in sliding fit with the outlet of the discharge hopper 6, that is: the valve plate 7 is slidably inserted into the transverse sliding groove formed in the outlet of the discharge hopper 6, so that the valve plate 7 is opened and closed under the driving of the switch driving cylinder. After the materials are stirred and mixed in the inner cavity of the stirring chamber 1 and meet the preset requirement (preferably, the stirring time is taken as a reference, and the stirring requirement is met after the stirring time is reached), the valve plate 7 is opened in a sliding mode, so that the mixed materials can be discharged through an outlet of the discharge hopper 6. And secondly, after the material discharge amount meets the requirement or the material is emptied, the valve plate 7 is driven to slide and close by the switch driving cylinder.

Further, the screw sleeve 8 is horizontally arranged and its inlet is provided at the top position of the outer wall of the front end of the screw sleeve 8.

In this embodiment, the material discharged from the discharge hopper 6 is fed into the inner cavity of the screw sleeve 8, wherein a conveying screw 81 for directional rotation is disposed in the screw sleeve 8, specifically, a screw driving motor connected to the front end of the conveying screw 81 is disposed outside the screw sleeve 8, and the conveying screw 81 is driven by the screw driving motor to perform directional rotation. The screw sleeve 8 is provided with a discharge port at a position near the end of the conveying screw 81. From this, the material that sends into in the screw rod sleeve 8 inner chamber carries the antedisplacement along screw rod sleeve 8 gradually under the screw rod blade's of conveying screw 81 drive to in transportation process, the screw rod blade can carry out plastify, extrusion etc. to the material.

To facilitate an understanding of the above-described mixing and conveying mechanism, further explanation will be made below in conjunction with specific working processes.

The use method of the mixing and conveying mechanism comprises the following steps:

step A1: the two materials enter a stirring chamber 1 through a first feed hopper 2 and a second feed hopper 3 respectively, wherein the materials are screened by a vibrating screen during entering to obtain material particles which do not meet the requirement of particle size;

step A2: the materials in the stirring chamber 1 are stirred and mixed through the stirring blades 5;

step A3: after the materials are fully stirred and mixed, the valve plate 7 is opened to enable the materials to enter the screw rod sleeve 8 through the outlet of the discharge hopper 6;

step A4: the material in the screw sleeve 8 is directionally conveyed by the conveying screw 81 and finally discharged from the discharge port of the conveying screw 81.

The above-described embodiments are merely preferred embodiments of the present invention, which are not intended to limit the present invention in any way. Those skilled in the art can make many changes, modifications, and equivalents of the embodiments of the invention without departing from the scope of the invention. Therefore, the content of the technical scheme of the utility model, according to the equivalent change made by the idea of the utility model, should be covered in the protection scope of the utility model.

Claims (7)

1. The utility model provides an efficient material mixing conveying mechanism which characterized in that: the device comprises a stirring chamber (1) and a screw sleeve (8), wherein a first feed hopper (2) and a second feed hopper (3) are arranged at the top of the stirring chamber (1), and vibrating screens (4) for screening the particle size of materials are arranged at the first feed hopper (2) and the second feed hopper (3); a stirring blade (5) is arranged in an inner cavity of the stirring chamber (1), a discharge hopper (6) communicated with an inlet of a screw sleeve (8) is arranged at the bottom of the stirring chamber (1), a valve plate (7) capable of opening and closing is arranged at an outlet of the discharge hopper (6), and a conveying screw (81) capable of directionally rotating is arranged in the screw sleeve (8); the screw sleeve (8) is provided with a discharge hole at the tail end position close to the conveying screw (81).

2. A high efficiency material mixing conveyor as in claim 1 wherein: the valve plate (7) is provided with a switch driving cylinder for driving the valve plate to move along the transverse direction, wherein the valve plate (7) is in sliding fit with an outlet of the discharge hopper (6).

3. A high efficiency material mixing conveyor as in claim 1 wherein: and a transverse sliding groove for inserting the valve plate (7) in a transverse sliding manner is arranged at the outlet of the discharge hopper (6).

4. A high efficiency material mixing conveyor as in claim 1 wherein: stirring vane (5) are configured with vertical arrangement drive vertical axis (51), stirring room (1) top is provided with the stirring driving motor who is connected with drive vertical axis (51) looks transmission.

5. A high efficiency material mixing conveyor as in claim 1 wherein: and a screw driving motor connected with the front end part of the conveying screw (81) is arranged outside the screw sleeve (8).

6. A high efficiency material mixing conveyor as in claim 1 wherein: each vibrating screen (4) is obliquely arranged.

7. A high efficiency material mixing conveyor as in claim 1 wherein: the screw sleeve (8) is horizontally and transversely arranged, and an inlet of the screw sleeve is arranged at the top of the outer wall of the front end of the screw sleeve (8).

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