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CN-224225864-U - Device for sorting conical objects into guide pipes

CN224225864UCN 224225864 UCN224225864 UCN 224225864UCN-224225864-U

Abstract

The utility model relates to the technical field of material arrangement, and particularly provides a device for sorting conical objects into guide pipes, which comprises a conical chute, a first guide pipe, an air tap assembly and a swinging mechanism, wherein the conical chute is a chute which is longitudinally tapered, the top end of the conical chute is provided with a closed structure close to a small end and an opening structure close to a large end, the first guide pipe is fixedly connected to the small end of the conical chute and communicated with the small end, the inner diameter of the first guide pipe is between 1 and 2 times of the resting size of the conical objects, the air tap assembly is arranged in the conical chute in a hanging mode, the air tap assembly blows air flow which is directed to the first guide pipe after being connected with an air source, and the swinging mechanism is used for controlling the air tap assembly to swing in the conical chute.

Inventors

  • LI BAOCHENG
  • FU DIANQIN
  • ZHAO BINGWEI

Assignees

  • 超越创科(广州)智能控制系统有限公司

Dates

Publication Date
20260512
Application Date
20250508

Claims (10)

  1. 1. An apparatus for sequencing conical objects into a conduit, said apparatus comprising: the conical chute is a chute which is longitudinally tapered to be conical, and the top end of the conical chute is provided with a closed structure close to the small end and an opening structure close to the large end; A first conduit fixedly connected to and communicating with the small end of the conical chute, the lowest point of the edge of the end of the first conduit connected with the conical chute being not higher than the bottom of the inner wall of the conical chute, the inner diameter of the first conduit being between 1 and 2 times the resting size of the conical object; The air tap assembly is arranged in the conical chute in a hanging manner, and blows out air flow which is directed to the first conduit after being communicated with an air source; And the swinging mechanism is used for controlling the air tap assembly to swing in the conical chute.
  2. 2. The apparatus for sequencing conical objects fed into a conduit according to claim 1, wherein the conical chute is a diamond-shaped chute, and the included angle between the inclined plate forming the diamond-shaped chute and the horizontal plane is greater than the repose angle of the conical objects.
  3. 3. A device for sequencing conical objects fed into a conduit according to claim 2, wherein the bottom of the rhombus-shaped trough is arranged obliquely downwards, and the small end of the conical chute is arranged below.
  4. 4. The apparatus for sequencing conical objects fed into a conduit according to claim 1, wherein said rocking mechanism comprises: The swing shaft is rotationally connected into the conical chute, and the air tap assembly is fixedly connected to the swing shaft; And the swinging motor is used for driving the swinging shaft to reciprocate so as to drive the air tap assembly to swing.
  5. 5. The apparatus for sequencing conical objects fed into a conduit according to claim 4, wherein said rocking motor is configured to reciprocate said rocking shaft by means of a crank rocker.
  6. 6. The apparatus for sequencing conical objects fed into a conduit according to claim 1, wherein an included angle exists between said air cap assembly and the bottom of said conical chute.
  7. 7. The apparatus for sequencing conical objects fed into a conduit according to any of claims 1-5, further comprising: The grid curtain is positioned between the air nozzle assembly and the small end of the conical chute and used for blocking the conical object from entering the air nozzle assembly.
  8. 8. The apparatus for sequencing conical objects fed into a conduit according to any of claims 1-5, further comprising: a sequencing mechanism fixedly connected to the discharge port of the first conduit for controlling the cone objects to be discharged one by one; a gate mechanism fixedly connected to the discharge port of the sequencing mechanism.
  9. 9. The apparatus for sequencing conical objects fed into a conduit according to claim 8, wherein said sequencing means comprises: The sequencing bin is internally provided with a first channel penetrating through the sequencing bin, one end of the first channel is communicated with one end of the first conduit far away from the conical chute, and the gate mechanism is used for intermittently sealing one end of the first channel far away from the first conduit; a first jaw assembly located at an end of the first passageway proximate the first conduit; The second clamping jaw assembly is positioned at the inner side of the first channel and used for grabbing the conical object on the gate mechanism, and the distance between the second clamping jaw assembly and the first clamping jaw assembly is larger than the height of one conical object and smaller than the heights of two conical objects; the lifting module is fixedly connected to the output end of the lifting module and used for lifting the second clamping jaw assembly; and the sensing module is used for identifying the conical object entering the first channel to form a control signal.
  10. 10. The apparatus for sequencing conical objects fed into a conduit according to claim 9, further comprising: The steering mechanism is used for changing the advancing direction of the cone, a bent second channel is arranged in the steering mechanism, the second channel is communicated with the first channel, and the second channel is a right-angle channel or an obtuse-angle channel.

Description

Device for sorting conical objects into guide pipes Technical Field The utility model relates to the technical field of material arrangement, in particular to a device for sorting conical objects by feeding the conical objects into a guide pipe. Background In the injection molding industry, after liquid plastic solidifies in a mold, cone-shaped plastic workpieces fall to a turnover box at the bottom of an injection molding machine in disorder, the cone-shaped plastic workpieces in the turnover box are disordered, and when cone objects are conveyed to the next procedure, the cone-shaped workpieces need to be guaranteed to be distributed neatly and need to be tidied. When the conical part enters the gradually contracted guide groove from a container with the plane area being more than several times larger than that of the cone, the conical object is clamped in the region of the resting size when the width dimension of the section of the guide groove is equal to the resting size, and the conical object cannot continuously advance to the guide groove, so that the problem of material clamping is solved. The present application thus proposes a device for sequencing conical objects fed into a duct. Disclosure of utility model The utility model aims to provide a device for conveying conical objects into a guide pipe for sorting, so as to solve the problem of material clamping in the existing conical part feeding process. In order to achieve the above purpose, the present utility model provides the following technical solutions: The device for sorting conical objects into the guide pipes comprises a conical chute, a first guide pipe, an air tap assembly and a swinging mechanism, wherein the conical chute is a chute which is longitudinally tapered into a cone shape, the top end of the conical chute is provided with a closed structure close to a small end and an opening structure close to a large end, the first guide pipe is fixedly connected to the small end of the conical chute and communicated with the small end of the conical chute, the lowest point of the edge of one end of the first guide pipe connected with the conical chute is not higher than the bottom of the inner wall of the conical chute, the inner diameter of the first guide pipe is between 1 and 2 times of the resting size of the conical objects, the air tap assembly is arranged in the conical chute in a hanging mode, the air tap assembly blows air flow which is directed to the first guide pipe after being connected with an air source, and the swinging mechanism is used for controlling the air tap assembly to swing in the conical chute. Furthermore, the conical chute is a diamond-shaped groove, and the included angles between the inclined plate forming the diamond-shaped groove and the horizontal plane are larger than the repose angle of the conical object. Further, the bottom of the rhombic groove is obliquely downwards arranged, and the small end of the conical chute is positioned below. Further, the rocking mechanism includes: The swing shaft is rotationally connected into the conical chute, and the air tap assembly is fixedly connected to the swing shaft; And the swinging motor is used for driving the swinging shaft to reciprocate so as to drive the air tap assembly to swing. Further, the swing motor drives the swing shaft to rotate in a reciprocating manner in a crank and rocker mode. Further, an included angle exists between the air nozzle assembly and the bottom of the conical chute. Further, the device further comprises: The grid curtain is positioned between the air nozzle assembly and the small end of the conical chute and used for blocking a conical object from entering the position of the air nozzle assembly Further, the device further comprises: a sequencing mechanism fixedly connected to the discharge port of the first conduit for controlling the cone objects to be discharged one by one; a gate mechanism fixedly connected to the discharge port of the sequencing mechanism. Further, the sorting mechanism includes: The sequencing bin is internally provided with a first channel penetrating through the sequencing bin, one end of the first channel is communicated with one end of the first conduit far away from the conical chute, and the gate mechanism is used for intermittently sealing one end of the first channel far away from the first conduit; a first jaw assembly located at an end of the first passageway proximate the first conduit; The second clamping jaw assembly is positioned at the inner side of the first channel and used for grabbing the conical object on the gate mechanism, and the distance between the second clamping jaw assembly and the first clamping jaw assembly is larger than the height of one conical object and smaller than the heights of two conical objects; the lifting module is fixedly connected to the output end of the lifting module and used for lifting the second clamping jaw assembly; and the sensing module is used for iden