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CN-224225953-U - Take burr granule material feed divider

CN224225953UCN 224225953 UCN224225953 UCN 224225953UCN-224225953-U

Abstract

The utility model relates to a burr-bearing granular material distributing device, and belongs to the field of material batching. Including rotatory riding wheel (3), branch feed cylinder (2) and collecting hopper (4), rotatory riding wheel (3) drive divides feed cylinder (2) rotatory, divides feed cylinder (2) slope setting, and has connect feeder hopper (1), is equipped with vortex post (6) and single spiral flight (5) in dividing feed cylinder (2), is equipped with a plurality of rings of feed inlets (7) on dividing feed cylinder (2) lateral wall, and collecting hopper (4) interval is established in branch feed cylinder (2) below, and every collecting hopper (4) all corresponds to establish in round feed inlet (7) below. The turbulent flow column (6) breaks up materials, and under the rotation action of the inclined material distributing cylinder (2), the materials are equally intercepted to the collecting hopper (4) by the material distributing ports (7) arranged on each section in the straight line rolling and sliding advancing process, and then guided to the next working position. The problems that the conventional equipment cannot realize straight line equal division of small-grain titanium, burrs are arranged on the periphery of the titanium, particles are mutually hung, and equal division errors are large are solved.

Inventors

  • PENG HONGLIANG

Assignees

  • 攀钢集团攀枝花钢铁研究院有限公司

Dates

Publication Date
20260512
Application Date
20250513

Claims (10)

  1. 1. The material distributing device with the burr particles is characterized by comprising a rotary riding wheel (3), a distributing cylinder (2) and a collecting hopper (4), wherein the rotary riding wheel (3) is arranged at two ends of the distributing cylinder (2) and can drive the distributing cylinder (2) to rotate, the distributing cylinder (2) is obliquely arranged, the upper inclined end of the distributing cylinder is connected with a feeding hopper (1), a turbulent flow column (6) and a single-buckle spiral sheet (5) are sequentially arranged on the inner wall of the distributing cylinder (2) close to the end of the feeding hopper (1) at intervals, a plurality of annular distributing openings (7) are arranged on the side wall of the distributing cylinder (2) at intervals, the collecting hopper (4) is axially arranged below the distributing cylinder (2) at intervals, and each collecting hopper (4) is correspondingly arranged below one circle of distributing openings (7).
  2. 2. The burr-bearing granular material distributing device according to claim 1, wherein the inclination angle of the distributing cylinder (2) is 1-15 degrees.
  3. 3. The burr-bearing granular material distributing device according to claim 1, wherein the feeding hopper (1) is L-shaped, one end of the feeding hopper (1) extends into the distributing cylinder (2), the angle between the bending position and the horizontal plane is 1-25 degrees, and a vibrating motor is arranged outside the bending position.
  4. 4. The device for distributing the particle materials with the burrs, as claimed in claim 1, wherein the turbulence column (6) is a prismatic column and is provided with at least one.
  5. 5. The burr-bearing granular material distributing device according to claim 1, wherein the pitch of the single-buckle spiral sheet (5) is 3-15 times of the maximum grain diameter of the material.
  6. 6. The burr-bearing granular material distributing device of claim 1, wherein the distributing opening (7) is of a screw hole structure, and the distributing opening (7) can be plugged by a plug.
  7. 7. The burr-bearing granular material distributing device according to claim 1, wherein the side wall of the discharging end of the distributing cylinder (2) is provided with a material guiding hole (8), the material guiding hole (8) is in an annular shape, and a collecting hopper (4) is arranged below the material guiding hole.
  8. 8. The burr-bearing granular material distributing device according to claim 1, wherein the rotary riding wheel (3) comprises a power roller (31), a driven roller (32), a frame (35) and a mounting plate (33), the power roller (31) and the driven roller (32) are arranged on the frame (35) in parallel, the mounting plate (33) is arranged in a gap between the power roller (31) and the driven roller (32) and is connected with the feeding hopper (1), flange parts (34) are arranged at two ends of the power roller (31) and the driven roller (32), and the flange parts (34) at the same side end parts of the power roller (31) and the driven roller (32) are in rolling connection with the distributing cylinder (2).
  9. 9. The device for separating the particle materials with the burrs, as set forth in claim 8, characterized in that a head rolling ring (10) and a tail rolling ring (9) are respectively arranged at two ends of the separating cylinder (2), the head rolling ring (10) and the tail rolling ring (9) are placed on a flange part (34) at the end part at the same side with the power cylinder (31) and the driven cylinder (32), and the tail rolling ring (9) can keep the axial position of the separating cylinder (2) fixed.
  10. 10. The burr-bearing granular material distributing device as set forth in claim 9, wherein the outer side of the tail rolling ring (9) is provided with an annular groove, and the groove is clamped on the flange parts (34) of the power roller (31) and the driven roller (32).

Description

Take burr granule material feed divider Technical Field The utility model relates to a burr-bearing granular material distributing device, and belongs to the field of material batching. Background On-line material separation refers to on-line uniform separation of particles into a plurality of equal parts, which is a common procedure in industrial production and has very wide application. At present, the particle materials can be simply divided into two equal parts which are approximately the same on line by using the bipartite device, and the error is larger. If the material is divided into four equal parts, the material is connected with a bisector again for secondary material separation. The disadvantage is that it can only be divided into even numbers, and the more the number of stages, the greater the height space occupied by the apparatus. Is not suitable for most use occasions. The rotary dividing machine can also be used, the material flow rotates at a certain speed, the lower circular receiving hopper is equally divided into a plurality of fan-shaped receiving hoppers, and the equally divided materials are respectively led out by a chute. The dividing precision is higher than that of a divider in the mode, but the dividing materials can only be distributed circumferentially. And cannot be used in the situation that the material distribution points are required to be distributed in a straight line. At present, in the production process of small-particle titanium, the crushed particle materials are required to be approximately equally divided into a plurality of parts, and equally divided output points are required to be distributed in a straight line, so that the structure is compact. Because burrs are arranged on the periphery of the titanium material, particles are mutually hung, the equally dividing error is large, and no available equipment can be found in the market at present. Disclosure of utility model The utility model aims to solve the technical problems that the conventional equipment cannot realize straight line equal division of small-grain titanium, burrs are arranged on the periphery of the titanium, particles are mutually hung, and equal division errors are large. The utility model solves the technical problems by adopting the technical scheme that the burr-bearing granular material distributing device comprises a rotary riding wheel, a distributing cylinder and a collecting hopper, wherein the rotary riding wheel is arranged at two ends of the distributing cylinder and can drive the distributing cylinder to rotate, the distributing cylinder is obliquely arranged, the inclined upper end is connected with a feeding hopper, a turbulent flow column and a single-buckle spiral sheet are sequentially arranged on the inner wall of the distributing cylinder close to the feeding hopper end at intervals, a plurality of circles of distributing openings which are annularly arranged are arranged on the side wall of the distributing cylinder at intervals, the collecting hopper distributing cylinder is axially arranged below the distributing cylinder at intervals, and each collecting hopper is correspondingly arranged below one circle of distributing openings. Wherein, the inclination angle of the feed distributing cylinder in the device is 1-15 degrees. Wherein, in above-mentioned device the feeder hopper is L shape, feeder hopper one end stretches into in the branch feed cylinder, and the angle of department of bending and horizontal plane is 1~ 25, and the department of bending outside is provided with vibrating motor. Wherein, in the above-mentioned device, the vortex post is prismatic post, and is provided with at least one. Wherein, the pitch of the single-buckle spiral sheet in the device is 3-15 times of the maximum grain diameter of the material. Wherein, in above-mentioned device divide the feed inlet to be screw structure, and divide the feed inlet accessible end cap shutoff. Wherein, be provided with the guiding hole on the discharge end lateral wall of feed cylinder among the above-mentioned device, the guiding hole is annular setting, and the below also is provided with the collecting hopper. The rotary riding wheel comprises a power roller, a driven roller, a frame and a mounting plate, wherein the power roller and the driven roller are arranged on the frame in parallel, the mounting plate is arranged in a gap between the power roller and the driven roller and is connected with a feed hopper, flange parts are arranged at two ends of the power roller and the driven roller, and the flange parts at the end parts of the same side of the power roller and the driven roller are in rolling connection with the material distributing cylinder. Further, in the device, the two ends of the distributing cylinder are respectively provided with a head rolling ring and a tail rolling ring, the head rolling ring and the tail rolling ring are placed on flange parts at the end parts on the same side with