CN215946015U - Drum-type O ring feeder - Google Patents

Abstract

The utility model provides a drum-type O-ring feeder, which is characterized in that: a storage tank is arranged in a shell arranged on the stand; the rear part of the shell is rotatably pivoted with a feeding rolling bin which is formed by an annular body in a surrounding way, the inner wall of the annular body is provided with an arc-shaped shovel, and the outer wall of the annular body is provided with a ring of teeth to form an outer gear; the bottom of the storage tank is a surface which gradually decreases from front to back, and the rear end of the bottom of the storage tank is not lower than the lowest point of the feeding rolling bin; the feeding track is connected with the vibrator; the rear end of the feeding track extends into the feeding track bin, and the front end of the feeding track penetrates through the shell and then extends out of the storage tank; the base is provided with a motor; a driving gear is arranged on a motor output shaft of the motor and is meshed with an external gear on the outer wall of the annular body. The utility model ensures that the drum-type O-ring feeder has small volume and low noise and is not easy to clamp.

Description

Drum-type O ring feeder

Technical Field

The utility model relates to the field of O-shaped ring production machines, in particular to a feeding machine for an O-shaped ring.

Background

O type circle of prior art is through the vibration dish feed when needing the arrangement after production, and the noise is big, the volume is great, blocks easily.

SUMMERY OF THE UTILITY MODEL

The utility model provides a roller type O-ring feeder, which aims to solve the defects of the prior art and ensure that the roller type O-ring feeder has small volume, low noise and difficult clamping.

The technical scheme adopted by the utility model for solving the technical problems is as follows:

cylinder O circle feeder, its characterized in that:

a storage tank is arranged in a shell arranged on the stand;

the rear part of the shell is rotatably pivoted with a feeding rolling bin which is formed by an annular body in a surrounding way, the inner wall of the annular body is provided with an arc-shaped shovel, and the outer wall of the annular body is provided with a ring of teeth to form an outer gear;

the bottom of the storage tank is a surface which gradually decreases from front to back, and the rear end of the bottom of the storage tank is not lower than the lowest point of the feeding rolling bin;

the feeding track is connected with the vibrator;

the rear end of the feeding track extends into the feeding track bin, and the front end of the feeding track penetrates through the shell and then extends out of the storage tank;

the base is provided with a motor;

a driving gear is arranged on a motor output shaft of the motor and is meshed with an external gear on the outer wall of the annular body.

The screening brush shaft is rotatably pivoted on the shell, is positioned above the feeding track and is parallel to the feeding track, and is fixedly provided with a screening brush;

a screening brush shaft gear is fixed on the screening brush shaft;

a cam is arranged on the output shaft of the motor;

the lower end of a vertical driving rod is propped against the cam, and the driving rod penetrates through a guide hole formed in a guide plate fixedly arranged on the shell;

the middle part of one driving plate is hinged on the shell;

one end of the driving plate is provided with a strip-shaped through groove, and a transverse shaft penetrates through the driving rod and the strip-shaped through groove;

the other end of the driving plate is a sector gear which is meshed with the screening brush shaft gear.

The material shovels are circumferentially and uniformly arranged on the inner wall of the annular body.

The two side walls of the storage tank are arc-shaped surfaces which gradually approach the middle part of the storage tank from top to bottom.

And two sides of the rear end of the feeding track are provided with sliding plates, and the sliding plates incline towards the feeding track from top to bottom, so that the two sliding plates are V-shaped.

The epaxial fixed mounting screening brush board of screening brush has seted up several bar logical grooves on the screening brush board, and the screw nut combination makes screening brush installation piece fixed mounting on the screening brush board after passing screening brush installation piece and bar logical groove, and screening brush is installed to screening brush installation piece below.

The cam has two symmetrical circular arc edges and two symmetrical straight line edges.

Two ends of a return spring are fixed on the driving plate and the shell respectively.

An induction block is fixedly arranged above a material receiving platform arranged on the base, an inductor is arranged at the front end of the induction block corresponding to the feeding track, the inductor is connected with a controller of a transverse cylinder, and a material pushing plate fixed on a cylinder rod is positioned between the induction block and the material receiving platform.

The utility model has the advantages that:

the drum-type feeding mode is less than the feeding noise of the vibrating disc, the volume is small, the mechanism is reasonable, the operation is smooth, the O-shaped rings can be effectively separated and arranged, and the O-shaped rings with larger deformation can be separated at the material distribution mechanism

Drawings

The utility model is further illustrated with reference to the following figures and examples.

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

FIG. 2 is a view showing the internal structure in the direction A of FIG. 1;

FIG. 3 is an enlarged view of section C of FIG. 2;

FIG. 4 is a view of the internal structure of FIG. 1B;

fig. 5 is a structural view of the distributing mechanism of the present invention.

Detailed Description

In order to more clearly illustrate the technical solution of the present invention, the drawings used in the description will be briefly introduced, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other embodiments can be obtained according to the drawings without inventive labor. In order to facilitate an understanding of the utility model, the utility model is described in more detail below with reference to the accompanying drawings and specific examples.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may be present. As used in this specification, the terms "upper," "lower," "inner," "outer," "bottom," and the like are used in the orientation or positional relationship indicated in the drawings for convenience in describing the utility model and simplicity in description, and do not indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and are not to be considered limiting of the utility model. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

As shown in fig. 1, 2, 3, 4, and 5:

the utility model is provided with a sheet metal shell 1 on a machine base, and a storage tank 11 is arranged in the shell 1.

The rear part of the shell 1 is rotatably pivoted with a feeding rolling bin 2, the feeding rolling bin 2 is formed by a ring body 21 in a surrounding mode, arc-shaped shovels 22 are uniformly arranged on the circumference of the inner wall of the ring body 21, and a ring of teeth are arranged on the outer wall of the ring body 21 to form an outer gear 23.

The two side walls of the storage tank 11 are arc-shaped surfaces gradually approaching the middle of the storage tank 11 from top to bottom, the bottom of the storage tank 11 is a surface gradually decreasing from front to back, and the rear end of the bottom of the storage tank 11 is not lower than the lowest point of the feeding rolling bin 2.

That is, the storage tank 11 is formed by two side walls and a bottom to form a tank inclined from front to back, and the rear end of the tank is communicated with the feeding rolling bin 2 and is not lower than the inner wall space of the feeding rolling bin 2, so that the O-shaped ring in the storage tank 11 can slide into the feeding rolling bin 2.

The feeding track 3 is provided, the feeding track 3 is connected with a vibrator, sliding plates 31 are arranged on two sides of the rear end of the feeding track 3, the sliding plates 31 incline towards the feeding track 3 from top to bottom, and therefore the two sliding plates 21 are V-shaped.

The rear end of the feeding track 3 extends into the feeding track bin 2, and the front end of the feeding track passes through the shell 1 and then extends out of the storage tank 11.

Have a rotatable pivot and establish screening brush axle 4 on the casing, screening brush axle 4 is located pay-off track 3 top and is parallel with pay-off track 3, fixed mounting screening brush board 41 on screening brush axle 4, several bar logical grooves 42 have been seted up on the screening brush board 41, screw nut 43 combination passes and makes screening brush installation piece 44 fixed mounting on screening brush board 41 behind screening brush installation piece 44 and the bar logical groove 42, screening brush 45 of plastics material is installed to screening brush installation piece 44 below, this kind of structure can make screening brush installation piece 44 reciprocate the after-fixing on screening brush board 41, and the interval of adjustment screening brush 45 lower extreme and ejection of compact track 3, in order to adapt to different O type circle.

A screening brush shaft gear 46 is fixed on the screening brush shaft 4.

The base is provided with a motor 5.

A drive gear 52 is mounted on the motor output shaft 51 of the motor 5, and the drive gear 52 meshes with the external gear 23 on the outer wall of the ring body 21.

A cam 53 having two symmetrical circular arc edges and two symmetrical straight edges is mounted on the motor output shaft 51.

A contact wheel 55 is pivoted at the lower end of a vertical driving rod 54, the contact wheel 55 abuts against the cam 53, and the driving rod 54 passes through two guide holes formed in guide plates 56 fixedly arranged on the shell 11, so that the driving rod 54 can slide up and down.

A driving plate 6 is hinged at its middle portion to the housing 11 with a hinge shaft 61.

One end of the driving plate 6 is provided with a strip-shaped through groove 62, the driving plate 5 is clamped by a U-shaped structure at the upper end of the driving rod 5, and a transverse shaft 57 penetrates through the driving rod 5 and the strip-shaped through groove 62.

The other end of the drive plate 6 is a sector gear 63, the sector gear 63 meshes with the screening brush shaft gear 46, and both ends of a return spring 64 are fixed to the end of the drive plate 6 and the housing 11, respectively, to provide a balancing force.

An induction block 7 is fixedly arranged above a material receiving table 8 arranged on the base 1, a U-shaped groove 71 butted with the front end of the feeding track 3 is arranged on the induction block 7, and an infrared optical fiber sensor is arranged on the groove wall of the U-shaped groove 71.

The infrared optical fiber sensor is connected with a controller of a transverse air cylinder 9, and a material pushing plate 91 fixed on an air cylinder rod is positioned between the sensing block 7 and the material receiving platform 8.

In actual operation:

the O-ring products are placed into the storage tanks 11 in a pile, and since the storage tanks 11 are inclined, all the O-rings in the storage tanks 11 can slide into the feeding rolling bin 2.

When the motor 5 is operated, the driving gear 52 on the motor output shaft 51 is meshed with the driving gear 52 and the outer gear 23 on the outer wall of the annular body 21, the annular body 21 is driven to rotate, namely the feeding rolling bin 2 rotates, the O-shaped ring in the feeding rolling bin 2 is brought to the upper side by the arc-shaped material shovel 22, when the O-shaped ring is positioned close to the uppermost side, the O-shaped ring falls to the lower side and extends into the feeding track 3 of the feeding rolling bin 2 due to the change of the angle of the material shovel 22, and the V-shaped material sliding plate 31 can receive more O-shaped rings.

The vibrator vibrates the feeding track 3, leaving only one row of O-rings in the feeding track 3, the other O-rings being stacked on the feeding track 3, the O-rings moving along the feeding track towards the front end due to the vibration.

The motor output shaft 51 drives the cam 53 to rotate, the cam 53 drives the driving rod 54 to slide up and down, the driving rod 54 drives the driving plate 6 to rotate in a reciprocating mode around the hinge shaft 61, the sector gear 63 drives the screening brush shaft gear 46 meshed with the sector gear to rotate in a reciprocating mode, the screening brush shaft 4 rotates in a reciprocating mode, the screening brush shaft 4 drives the screening brush 45 to swing in a reciprocating mode above the feeding track 3, redundant O-shaped rings are swept down to be removed into the material storage groove 11, and then the redundant O-shaped rings continuously slide into the feeding rolling bin 2.

Each O-shaped ring is output from the front end of the feeding rail 3, falls onto the material receiving table 8 through the U-shaped groove 71 and is detected by the infrared optical fiber sensor, the infrared optical fiber sensor sends a signal to the controller of the air cylinder 9, the controller controls the air cylinder rod to stretch and retract once, the material pushing plate 91 fixed on the air cylinder rod pushes the O-shaped ring to a specified position, such as the blanking port 81, and subsequent processes are carried out to wait for material taking.

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other. The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the utility model. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (9)

1. Cylinder O circle feeder, its characterized in that: a storage tank is arranged in a shell arranged on the stand; the rear part of the shell is rotatably pivoted with a feeding rolling bin which is formed by an annular body in a surrounding way, the inner wall of the annular body is provided with an arc-shaped shovel, and the outer wall of the annular body is provided with a ring of teeth to form an outer gear; the bottom of the storage tank is a surface which gradually decreases from front to back, and the rear end of the bottom of the storage tank is not lower than the lowest point of the feeding rolling bin; the feeding track is connected with the vibrator; the rear end of the feeding track extends into the feeding track bin, and the front end of the feeding track penetrates through the shell and then extends out of the storage tank; the base is provided with a motor; a driving gear is arranged on a motor output shaft of the motor and is meshed with an external gear on the outer wall of the annular body.

2. The drum-type O-ring feeder of claim 1, wherein: the screening brush shaft is rotatably pivoted on the shell, is positioned above the feeding track and is parallel to the feeding track, and is fixedly provided with a screening brush; a screening brush shaft gear is fixed on the screening brush shaft; a cam is arranged on the output shaft of the motor; the lower end of a vertical driving rod is propped against the cam, and the driving rod penetrates through a guide hole formed in a guide plate fixedly arranged on the shell; the middle part of one driving plate is hinged on the shell; one end of the driving plate is provided with a strip-shaped through groove, and a transverse shaft penetrates through the driving rod and the strip-shaped through groove; the other end of the driving plate is a sector gear which is meshed with the screening brush shaft gear.

3. The drum-type O-ring feeder of claim 1, wherein: the material shovels are circumferentially and uniformly arranged on the inner wall of the annular body.

4. The drum-type O-ring feeder of claim 1, wherein: the two side walls of the storage tank are arc-shaped surfaces which gradually approach the middle part of the storage tank from top to bottom.

5. The drum-type O-ring feeder of claim 1, wherein: and two sides of the rear end of the feeding track are provided with sliding plates, and the sliding plates incline towards the feeding track from top to bottom, so that the two sliding plates are V-shaped.

6. The drum-type O-ring feeder of claim 1, wherein: the epaxial fixed mounting screening brush board of screening brush has seted up several bar logical grooves on the screening brush board, and the screw nut combination makes screening brush installation piece fixed mounting on the screening brush board after passing screening brush installation piece and bar logical groove, and screening brush is installed to screening brush installation piece below.

7. The drum-type O-ring feeder of claim 2, wherein: the cam has two symmetrical circular arc edges and two symmetrical straight line edges.

8. The drum-type O-ring feeder of claim 2, wherein: two ends of a return spring are fixed on the driving plate and the shell respectively.

9. The drum-type O-ring feeder of claim 1, wherein: an induction block is fixedly arranged above a material receiving platform arranged on the base, an inductor is arranged at the front end of the induction block corresponding to the feeding track, the inductor is connected with a controller of a transverse cylinder, and a material pushing plate fixed on a cylinder rod is positioned between the induction block and the material receiving platform.

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