CN203649811U - Rotary material separating mechanism - Google Patents

Abstract

The utility model relates to a rotary material separating mechanism. Left and right bearing support blocks are respectively installed on left and right installing base blocks; a central spindle shaft seat is installed on the left bearing support block; a central spindle is installed on the central spindle shaft seat; a material separating shaft bearing seat is installed on the right bearing support block; a material separating shaft motor installing plate is installed on the right side of the right bearing support block; a stepping motor is installed on the material separating shaft motor installing plate; the front end of the stepping motor is connected with a material separating shaft via a coupling; the material separating shaft is supported by the material separating shaft bearing seat; the central spindle is sleeved in the material separating shaft; four material separating holes are uniformly arranged in the material separating shaft; two of the material separating holes are vertical material separating holes and the other two are horizontal material separating holes; one of the horizontal material separating holes is capable of allowing a screw to enter; a through hole perpendicular to the central spindle in the vertical direction is arranged in the central spindle; and the stepping motor drives the material separating shafts to rotate for 90 degrees counterclockwise so as to allow the horizontal material separating holes in the material separating shaft to be in a vertical state and be concentric with the through hole in the central spindle, so the screw is guided to the through hole.

Description

A kind of rotation feeding distribution mechanism

Technical field:

The utility model relates to a kind of rotation feeding distribution mechanism apparatus field, relates in particular a kind of rotation feeding distribution mechanism that screw is carried out to sub-material.

Background technology:

Screw and nut is all while being used in conjunction with, is all screw and nut need to be assembled together when use, and the screw and nut after coordinating is transported to desired position uses, easy to use like this.And screw and nut to be assembled into be all generally manual operation together, because the screw and nut of different size is very many, assembling is wasted time and energy, labour intensity is large, inefficiency.

Utility model content:

The purpose of this utility model is for the deficiencies in the prior art part, and a kind of rotation feeding distribution mechanism is provided, and screw can be rotated to sub-material and be transported to standard operation position, for next step assembles and prepare with nut.

Technology solution of the present utility model is as follows:

A kind of rotation feeding distribution mechanism, it comprises installation sole piece, left bearing back-up block, right bearing back-up block, sub-material bearing housing, sub-material axle, stepper motor, shaft coupling, sub-material spindle motor installing plate, is connected and fixed plate, mandrel and mandrel axle bed, described installation sole piece has two, be respectively left installation sole piece and right installation sole piece, described left bearing back-up block is arranged on left installation sole piece, and described right bearing back-up block is arranged on right installation sole piece; On described left bearing back-up block, mandrel axle bed is installed, on mandrel axle bed, mandrel is installed; On described right bearing back-up block, sub-material bearing housing is installed, the right side of described right bearing back-up block is provided with sub-material spindle motor installing plate, described stepper motor is arranged on sub-material spindle motor installing plate, the front end of stepper motor links together by shaft coupling and sub-material axle, and sub-material axle supports by sub-material bearing housing; Described core sleeve is connected on sub-material axle inside, on described sub-material axle, being equipped with four material-distributing holes, is two vertical material-distributing holes and two horizontal material-distributing holes, and one of them horizontal material-distributing hole place can enter screw, mandrel is provided with the through hole perpendicular with mandrel, and through hole is vertical direction; Described stepper motor drives sub-material axle to rotate counterclockwise 90 °, can make two horizontal material-distributing holes on sub-material axle in vertical state, and concentric with the through hole on mandrel, thereby by screw guide through hole.

As preferably, described mandrel and sub-material axle are coaxially installed.

As preferably, the aperture of described material-distributing hole is greater than the aperture of through hole on mandrel, and the aperture of through hole is greater than the maximum gauge of screw.

As preferably, described left bearing back-up block is connected one and is connected and fixed plate and strengthens fixing with the top of right bearing back-up block.

As preferably, the hole axle of four material-distributing holes on described sub-material axle is in the same plane.

The beneficial effects of the utility model are:

The utility model screw enters rotation feeding distribution mechanism, the sub-material axle rotation of rotation feeding distribution mechanism makes the material-distributing hole on sub-material axle concentric with the through hole on mandrel, being convenient to screw passes from through hole, for next step operation is prepared, can realize so automatically by screw sub-material, and the utility model is double work, and operating efficiency is high.

Accompanying drawing explanation:

Below in conjunction with accompanying drawing, the utility model is described further:

Fig. 1 is structural representation of the present utility model;

Fig. 2 is front view of the present utility model;

Fig. 3 is top view of the present utility model;

In Fig. 1～3: 1-installation sole piece; 2-left bearing back-up block; 3-right bearing back-up block; 4-sub-material bearing housing; 5-sub-material axle; 6-stepper motor; 7-shaft coupling; 8-sub-material spindle motor installing plate; 9-be connected and fixed plate; 10-mandrel; 11-mandrel axle bed; 12-material-distributing hole.

The specific embodiment:

Embodiment, see accompanying drawing 1～3, a kind of rotation feeding distribution mechanism, it comprises installation sole piece 1, left bearing back-up block 2, right bearing back-up block 3, sub-material bearing housing 4, sub-material axle 5, stepper motor 6, shaft coupling 7, sub-material spindle motor installing plate 8, is connected and fixed plate 9, mandrel 10 and mandrel axle bed 11, described installation sole piece has two, be respectively left installation sole piece and right installation sole piece, described left bearing back-up block is arranged on left installation sole piece, and described right bearing back-up block is arranged on right installation sole piece; On described left bearing back-up block, mandrel axle bed is installed, on mandrel axle bed, mandrel is installed; On described right bearing back-up block, sub-material bearing housing is installed, the right side of described right bearing back-up block is provided with sub-material spindle motor installing plate, described stepper motor is arranged on sub-material spindle motor installing plate, the front end of stepper motor links together by shaft coupling and sub-material axle, and sub-material axle supports by sub-material bearing housing; Described core sleeve is connected on sub-material axle inside, and mandrel and sub-material axle are coaxially installed; Described sub-material axle is provided with two groups of material-distributing holes, every group of four material-distributing holes 12, and every group is two vertical material-distributing holes and two horizontal material-distributing holes, the hole axle of four material-distributing holes of every group is in the same plane.

The aperture of described material-distributing hole is greater than the aperture of through hole on mandrel, and the aperture of through hole is greater than the maximum gauge of screw, is convenient to like this screw and enters material-distributing hole, and pass from through hole.

Described left bearing back-up block is connected one and is connected and fixed plate and strengthens fixing with the top of right bearing back-up block.

The utility model course of work: screw is from vibrating disk discharging, screw can enter from one of them horizontal material-distributing hole, on mandrel, there is the through hole of vertical direction, then stepper motor drives sub-material axle to rotate counterclockwise 90 °, can make two horizontal material-distributing holes on sub-material axle in vertical state, and concentric with the through hole on mandrel, thereby by screw guide through hole, for the assembling of next step and nut is prepared.

Above-described embodiment is the specific descriptions that the utility model is carried out; just the utility model is further described; can not be interpreted as the restriction to the utility model protection domain, those skilled in the art according to the content of above-mentioned utility model make some nonessential improvement and adjust all fall into protection domain of the present utility model within.

Claims (5)

1. a rotation feeding distribution mechanism, it is characterized in that: it comprises installation sole piece, left bearing back-up block, right bearing back-up block, sub-material bearing housing, sub-material axle, stepper motor, shaft coupling, sub-material spindle motor installing plate, is connected and fixed plate, mandrel and mandrel axle bed, described installation sole piece has two, be respectively left installation sole piece and right installation sole piece, described left bearing back-up block is arranged on left installation sole piece, and described right bearing back-up block is arranged on right installation sole piece; On described left bearing back-up block, mandrel axle bed is installed, on mandrel axle bed, mandrel is installed; On described right bearing back-up block, sub-material bearing housing is installed, the right side of described right bearing back-up block is provided with sub-material spindle motor installing plate, described stepper motor is arranged on sub-material spindle motor installing plate, the front end of stepper motor links together by shaft coupling and sub-material axle, and sub-material axle supports by sub-material bearing housing; Described core sleeve is connected on sub-material axle inside, on described sub-material axle, being equipped with four material-distributing holes, is two vertical material-distributing holes and two horizontal material-distributing holes, and one of them horizontal material-distributing hole place can enter screw, mandrel is provided with the through hole perpendicular with mandrel, and through hole is vertical direction; Described stepper motor drives sub-material axle to rotate counterclockwise 90 °, can make two horizontal material-distributing holes on sub-material axle in vertical state, and concentric with the through hole on mandrel, thereby by screw guide through hole.

2. a kind of rotation feeding distribution mechanism according to claim 1, is characterized in that: described mandrel and sub-material axle are coaxially installed.

3. a kind of rotation feeding distribution mechanism according to claim 1, is characterized in that: the aperture of described material-distributing hole is greater than the aperture of through hole on mandrel, and the aperture of through hole is greater than the maximum gauge of screw.

4. a kind of rotation feeding distribution mechanism according to claim 1, is characterized in that: described left bearing back-up block is connected one and is connected and fixed plate and strengthens fixing with the top of right bearing back-up block.

5. a kind of rotation feeding distribution mechanism according to claim 1, is characterized in that: the hole axle of four material-distributing holes on described sub-material axle is in the same plane.

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