CN217147369U - Shaft sleeve conveying device - Google Patents

Abstract

The utility model provides a shaft sleeve conveying device relates to shaft sleeve processing technology field. The utility model discloses a first pay-off way that the slope set up, the lower end lateral part of first pay-off way is equipped with the protecting shell, be equipped with the striker plate of vertical setting in the protecting shell, the side that first pay-off way was kept away from to the striker plate is equipped with the holding plate, the holding plate is kept away from and is equipped with the stock guide in the protecting shell of striker plate one side, the side that first pay-off way was kept away from to the protecting shell is equipped with the support, be equipped with the endless conveyor who follows vertical direction cyclic motion on the support, the last ejector pad strip that is equipped with the slope setting of endless conveyor, the support is kept away from and is equipped with the second pay-off way one side, first pay-off way and second pay-off way slope setting, lower end and the striker plate sliding contact of first pay-off way, the higher end of holding plate is connected with the striker plate, be equipped with the drive on the protecting shell and hold the vertical gliding cylinder of striker plate, the lower end sliding contact of vertical portion and the holding plate of stock guide plate, the one end that the stock guide plate rake was kept away from to the stock guide plate is lower end.

Description

Shaft sleeve conveying device

Technical Field

The utility model relates to an axle sleeve processing technology field, concretely relates to axle sleeve conveyor.

Background

The bearing is an important part in the modern mechanical equipment. Its main function is to support the mechanical rotator, reduce the friction coefficient in its motion process and ensure its rotation precision.

At present, in the bearing production process, the axle sleeve is generally carried out for the manual work when carrying between a plurality of different equipment, and artifical transportation inefficiency to the axle sleeve will polish the inner ring, and the axle sleeve carries out the material loading and generally carries out for the manual work, has also improved artifical intensity of labour, and operating efficiency is lower, needs to solve urgently.

SUMMERY OF THE UTILITY MODEL

The utility model aims at developing an improve the operating efficiency, reduce artifical intensity of labour's axle sleeve conveyor.

The utility model discloses a following technical scheme realizes:

a shaft sleeve conveying device, comprising:

the first feeding channel is obliquely arranged;

the protective shell is arranged on the side part of the lower end of the first feeding channel;

the striker plate is vertically arranged in the protective shell;

the material bearing plate is obliquely arranged on the side surface of the material blocking plate away from the first feeding channel;

the material guide plate is arranged in the protective shell at one side of the material bearing plate, which is far away from the material stop plate, and is a bending plate with a vertical part and an inclined part;

the bracket is arranged on the side surface of the protective shell, which is far away from the first feeding channel;

the circulating conveyer belt is arranged on the bracket and circularly moves along the vertical direction;

the material pushing strip is obliquely arranged on the circulating conveying belt, and the end part close to the protective shell is a higher end;

the second feeding channel is arranged on one side of the support far away from the protective shell;

the material feeding device comprises a first material feeding channel, a second material feeding channel, a material stopping plate, a material bearing plate, a protective shell, a cylinder, a material guiding plate and a material conveying plate, wherein the first material feeding channel and the second material feeding channel are arranged in an inclined mode, the lower end of the first material feeding channel is in sliding contact with the material stopping plate, the higher end of the material bearing plate is connected with the material stopping plate, the protective shell is provided with the cylinder for driving the material bearing plate and the material stopping plate to vertically slide, the vertical portion of the material guiding plate is in sliding contact with the lower end of the material bearing plate, and the end, far away from the material bearing plate, of the inclined portion of the material guiding plate is the lower end.

Optionally, a slide rail slidably connected with the material bearing plate is arranged at a corresponding position on the inner wall of the protective shell, a slide block slidably connected with the slide rail is arranged at the bottom of the material bearing plate, and an air cylinder connected with the slide block is vertically arranged at a corresponding position on the outer wall of the protective shell.

Optionally, the material bearing plate is parallel to the first feeding channel, the inclined part of the material guide plate is parallel to the material bearing plate, and the material pushing bar is parallel to the material bearing plate.

Optionally, the support is correspondingly provided with two driving wheels which are arranged in a vertical line in a rotating mode, the support is correspondingly provided with a motor which is in transmission connection with the driving wheels, and the circulating conveyer belt is arranged on the two driving wheels.

Optionally, a plurality of material pushing strips are arranged on the circulating conveying belt at equal intervals.

Optionally, the lower end of the slope portion of the guide plate is located at the side of the rising section of the endless belt.

Optionally, the second feeding channel is arranged obliquely, and the higher end of the second feeding channel is positioned at the upper part of the ascending section of the endless conveyor belt.

Optionally, a material guide cover is arranged on the support and is arranged outside the ascending section of the circulating conveyor belt.

Optionally, the material guide cover is an L-shaped plate, and two side walls of the material guide cover are respectively located on the outer side of the ascending section of the circulating conveyor belt and the outer side of the lower end of the material pushing bar.

Optionally, the side wall of the material guide cover outside the lower end of the material pushing bar extends to the second feeding channel, and the top end of the side wall of the material guide cover outside the ascending section of the circulating conveyor belt is higher than the second feeding channel.

The beneficial effects of the utility model are that:

the utility model discloses can carry out the material loading or transport to the axle sleeve automatically, can be used to the axle sleeve material loading of polisher, make the axle sleeve automatic by the second pay-off way get into in the polisher, and the utility model discloses still can be used to the transportation operation of axle sleeve, make the axle sleeve carry between different equipment and process, improve the operating efficiency, reduce artifical intensity of labour.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present application, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a view of the structure of the present invention;

FIG. 2 is a view showing the structure of an endless conveyor;

fig. 3 is a top view of fig. 2.

Detailed Description

In the following, only certain exemplary embodiments are briefly described. As those skilled in the art can appreciate, the described embodiments may be modified in various different ways, without departing from the spirit or scope of the invention. Accordingly, the drawings and description are to be regarded as illustrative in nature, and not as restrictive.

In the description of the present invention, it is to be understood that the terms "central," "longitudinal," "transverse," "length," "width," "thickness," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "clockwise," "counterclockwise," "axial," "radial," "circumferential," and the like are used in the orientations and positional relationships indicated in the drawings, which are used for convenience in describing the invention and to simplify the description, and are not intended to indicate or imply that the device or element so referred to must have a particular orientation, be constructed and operated in a particular orientation, and are not to be construed as limiting the invention.

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

As shown in fig. 1-3, the utility model discloses a shaft sleeve conveying device, including first pay-off way 1 and second pay-off way 2, on the pillar was all located to first pay-off way 1 and second pay-off way 2, second pay-off way 2 highly was higher than first pay-off way 1, and first pay-off way 1 and second pay-off way 2 all incline to arrange, and axle sleeve and other axle class materials roll in first pay-off way 1 and second pay-off way 2 and carry.

A material transferring mechanism is arranged between the first feeding channel 1 and the second feeding channel 2, and materials in the first feeding channel 1 are fed into the second feeding channel 2 through the material transferring mechanism.

The material transferring mechanism comprises a protective shell 3, the protective shell 3 is arranged on the side portion of the first feeding channel 1, a material baffle 5 capable of vertically lifting is arranged in the protective shell 3 in a sliding mode, and the lower end of the first feeding channel 1 stretches into the protective shell 3 to be in sliding contact with the outer wall of the material baffle 5.

The inner wall of one side of the first feeding channel 1, away from the striker plate 5, is provided with a material bearing plate 6, the material bearing plate 6 is obliquely arranged, the end part of the material bearing plate 6, away from the first feeding channel 1, is a lower end, the higher end of the material bearing plate 6 is connected with the middle part of the striker plate 5, and the material bearing plate 6 is arranged in parallel with the first feeding channel 1.

The corresponding position is equipped with the slide rail with holding 6 sliding connection of flitch on the 3 inner walls of protective housing, holds 6 bottoms of flitch and is equipped with the slider with slide rail sliding connection, corresponds the position and is equipped with the cylinder of being connected with the slider on the 3 outer walls of protective housing, and the cylinder operation promotes the slider vertical slip in the slide rail, drives striker plate 5 and holds 6 vertical slips of flitch.

Still be equipped with stock guide 7 in the protective housing 3, stock guide 7 locates the lower end lateral part of material holding plate 6, and stock guide 7 is the bending plate, and the vertical portion of stock guide 7 and the lower end sliding contact of material holding plate 6, the rake of stock guide 7 are located its vertical portion top, the rake of stock guide 7 and the parallel arrangement of material holding plate 6.

The striker plate 5 and the material bearing plate 6 slide on the slide rail in three states, when the cylinder drives the material bearing plate 6 to slide to the middle position of the slide rail, the striker plate 5 blocks the lower end of the first feeding channel 1, and the lower end of the material bearing plate 6 is positioned in the middle of the vertical part of the material bearing plate 7. When the cylinder drives the material bearing plate 6 to slide to the upper part of the slide rail, the material baffle plate 5 still blocks the lower end of the first feeding channel 1, the lower end of the material bearing plate 6 slides to the top end of the vertical part of the material guide plate 7, and the material bearing plate 6 and the inclined part of the material guide plate 7 are positioned on the same plane. When the cylinder drives the material bearing plate 6 to slide to the lower part of the slide rail, the top end of the material baffle plate 5 is flush with the lower end of the first feeding channel 1, and the lower end of the material bearing plate 6 slides to the lower part of the vertical part of the material guide plate 7.

Be equipped with the support 4 of vertical setting between protective housing 3 and the second pay-off way 2, support 4 rotates and is equipped with two drive wheels 11 that are vertical line setting, corresponds in the support 4 to be equipped with the motor of being connected with drive wheel 11 transmission. The two driving wheels 11 are provided with circulating conveyer belts 8, and the driving wheels 11 rotate to drive the circulating conveyer belts 8 to perform circulating rotary motion in the vertical direction.

The circular conveyer belt 8 is equidistantly provided with a plurality of pushing strips 9, the pushing strips 9 are obliquely arranged, the inclination angles of the pushing strips 9 are the same as those of the material bearing plate 6, the lower end of the inclined part of the guide plate 7 is arranged on the side part of the ascending section of the circular conveyer belt 8, and when the pushing strips 9 move to the ascending section along with the circular conveyer belt 8, the pushing strips 9 are parallel to the material bearing plate 6, so that the lower end of the pushing strips 9 in the ascending section of the circular conveyer belt 8 is far away from the first feeding channel 1.

The higher extreme of second pay-off way 2 is in 8 ascending sections upper portions of endless conveyor, pushes away the higher extreme of material strip 9 in the ascending process of second pay-off way 2, and on 8 ascending sections of endless conveyor, there is less clearance between the lower extreme that pushes away material strip 9 and the higher extreme of second pay-off way 2, and the material can easily slide through from this clearance.

The support 4 is provided with a material guide cover 10, the material guide cover 10 is an L-shaped plate body, two side walls of the material guide cover 10 are respectively positioned on the outer side of the ascending section of the circulating conveyor belt 8 and the outer side of the lower end of the material pushing strip 9, the material guide cover 10 blocks materials on the material pushing strip 9, and the materials are prevented from falling off the material pushing strip 9. The materials on the material pushing strip 9 cannot slide out from the higher end of the material pushing strip 9 due to the inclination of the material pushing strip 9, and the circulating conveyer belt 8 and the material guide cover 10 are limited and blocked on three sides of the circulating conveyer belt respectively, so that the materials are prevented from falling. The side wall of the material guide cover 10 positioned outside the lower end of the material pushing strip 9 extends to the second feeding channel 2, and the top end of the side wall of the material guide cover 10 positioned outside the ascending section of the circulating conveying belt 8 is higher than the second feeding channel 2, so that the material is prevented from falling from the higher end of the second feeding channel 2.

The shaft sleeve rolls in from the first feeding channel 1 and slides along the track until the shaft sleeve is abutted against the baffle plate 5, at the moment, the material bearing plate 6 is positioned in the middle or the upper part of the slide rail, the cylinder drives the material bearing plate 6 to descend to the lower part of the slide rail, the top end of the baffle plate 5 is flush with the lower end of the first feeding channel 1, the shaft sleeve rolls on the material bearing plate 6 from the top end of the baffle plate 5, after the shaft sleeve abutted against the baffle plate 5 slides over the baffle plate 5, the cylinder drives the material bearing plate 6 to return to the middle part of the slide rail, the rear shaft sleeve is blocked by the baffle plate 5, at the moment, the material bearing plate 6 bears a shaft sleeve and abuts against the vertical part of the guide plate 7, when the material pushing strip 9 on the ascending section of the circulating conveyor belt 8 is close to the inclined part of the guide plate 7, the cylinder drives the material bearing plate 6 to slide to the upper part of the slide rail, at the moment, the baffle plate 5 still blocks the lower end of the first feeding channel 1, the material bearing plate 6 is flush with the inclined part of the guide plate 7, the shaft sleeve slides to the inclined part of the guide plate 7 from the material bearing plate 6, and slides into the ejector strip 9. The above-mentioned process can be repeated after the axle sleeve roll-off on the holding plate 6 for holding plate 6 bears an axle sleeve at every turn, avoids the axle sleeve on first pay-off way 1 all to slide in, avoids the axle sleeve on first pay-off way 1 to influence the material loading of axle sleeve on holding plate 6. The shaft sleeve rises along with the material pushing strip 9 on the material pushing strip 9, after the material pushing strip 9 rises to the higher end of the second feeding channel 2, the shaft sleeve slides into the second feeding channel 2 from the material pushing strip 9 under the action of gravity and is conveyed into the polishing machine along the second feeding channel.

The utility model discloses can carry out the material loading or transport to the axle sleeve automatically, can be used to the axle sleeve material loading of polisher, make the axle sleeve automatic get into the polisher by second pay-off way 2, and the utility model discloses still can be used to the transportation operation of axle sleeve, make the axle sleeve carry between different equipment and process, improve the operating efficiency, reduce artifical intensity of labour.

The above-mentioned embodiment is only the preferred embodiment of the present invention, and is not to the limitation of the technical solution of the present invention, as long as the technical solution can be realized on the basis of the above-mentioned embodiment without creative work, all should be regarded as falling into the protection scope of the right of the present invention.

Claims (10)

1. A shaft sleeve conveying device is characterized by comprising:

the first feeding channel is obliquely arranged;

the protective shell is arranged on the side part of the lower end of the first feeding channel;

the striker plate is vertically arranged in the protective shell;

the material bearing plate is obliquely arranged on the side surface of the material blocking plate away from the first feeding channel;

the material guide plate is arranged in the protective shell at one side of the material bearing plate, which is far away from the material stop plate, and is a bending plate with a vertical part and an inclined part;

the bracket is arranged on the side surface of the protective shell, which is far away from the first feeding channel;

the circulating conveyer belt is arranged on the bracket and circularly moves along the vertical direction;

the material pushing strip is obliquely arranged on the circulating conveying belt, and the end part close to the protective shell is a higher end;

the second feeding channel is arranged on one side of the support far away from the protective shell;

the material feeding device comprises a first material feeding channel, a second material feeding channel, a material stopping plate, a material bearing plate, a protective shell, a cylinder, a material guiding plate and a material conveying plate, wherein the first material feeding channel and the second material feeding channel are arranged in an inclined mode, the lower end of the first material feeding channel is in sliding contact with the material stopping plate, the higher end of the material bearing plate is connected with the material stopping plate, the protective shell is provided with the cylinder for driving the material bearing plate and the material stopping plate to vertically slide, the vertical portion of the material guiding plate is in sliding contact with the lower end of the material bearing plate, and the end, far away from the material bearing plate, of the inclined portion of the material guiding plate is the lower end.

2. The shaft sleeve conveying device according to claim 1, wherein a slide rail slidably connected with the material bearing plate is arranged at a corresponding position on the inner wall of the protective shell, a slide block slidably connected with the slide rail is arranged at the bottom of the material bearing plate, and a cylinder connected with the slide block is vertically arranged at a corresponding position on the outer wall of the protective shell.

3. The shaft sleeve conveying device according to claim 1, wherein the material bearing plate is arranged in parallel with the first feeding channel, the inclined part of the material guide plate is arranged in parallel with the material bearing plate, and the material pushing strip is arranged in parallel with the material bearing plate.

4. The shaft sleeve conveying device according to claim 1, wherein two driving wheels are correspondingly and rotatably arranged on the support in a vertical line, a motor in transmission connection with the driving wheels is correspondingly arranged in the support, and the circulating conveying belt is arranged on the two driving wheels.

5. Shaft sleeve conveying device according to claim 4, characterized in that a plurality of material pushing strips are arranged on the endless conveying belt at equal intervals.

6. The shaft sleeve conveying device according to claim 1, wherein the lower end of the material guide plate slope part is at the side of the rising section of the endless conveyor belt.

7. The bushing conveying device according to claim 1, wherein the second feed channel is arranged obliquely, and the higher end of the second feed channel is positioned at the upper part of the ascending section of the endless conveying belt.

8. The shaft sleeve conveying device according to claim 1, wherein a material guiding cover is arranged on the support and is arranged outside the ascending section of the endless conveying belt.

9. The shaft sleeve conveying device according to claim 8, wherein the material guiding cover is an L-shaped plate body, and two side walls of the material guiding cover are respectively positioned outside the ascending section of the endless conveying belt and outside the lower end of the pushing strip.

10. The shaft sleeve conveying device according to claim 9, wherein the side wall of the material guide cover outside the lower end of the material pushing strip extends to the second feeding channel, and the top end of the side wall of the material guide cover outside the ascending section of the endless conveying belt is higher than the second feeding channel.

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