CN211141430U

CN211141430U - Automatic raw material feeding equipment

Info

Publication number: CN211141430U
Application number: CN201922081916.5U
Authority: CN
Inventors: 胡平
Original assignee: SUZHOU MEET PRECISION TECHNOLOGY CO LTD
Current assignee: SUZHOU MEET PRECISION TECHNOLOGY CO LTD
Priority date: 2019-11-27
Filing date: 2019-11-27
Publication date: 2020-07-31
Anticipated expiration: 2029-11-27

Abstract

In order to solve the technical problem of high labor intensity caused by manually feeding raw materials into a chain conveyor in the prior art, the utility model discloses a raw material automatic feeding device, which comprises a first driving track, a second driving track, a material supporting mechanism and a material moving mechanism, wherein the material supporting mechanism is connected to the top of the first driving track in a sliding manner, and the material moving mechanism is connected to the top of the second driving track in a sliding manner; the material supporting mechanism comprises a first bottom plate and a plurality of vertical plates, and a row of V-shaped grooves I which are arranged at equal intervals are arranged at the top ends of the vertical plates; the material moving mechanism comprises a second bottom plate, two stand columns and two material receiving plates, the tops of the material receiving plates extend towards the material supporting mechanism to form extending parts, and a row of V-shaped grooves II which are arranged at equal intervals are formed in the tops of the extending parts; the number and the shape of the V-shaped grooves III are consistent with those of the V-shaped grooves II. The material supporting mechanism obtains the raw material from the temporary raw material placing position to the side of the conveyor, and the material moving mechanism automatically feeds the raw material into the conveyor without manual feeding, so that the labor intensity of operators is reduced.

Description

Automatic raw material feeding equipment

Technical Field

The utility model belongs to the technical field of auto-lock tuning screw rod production facility, the former material automatic feeding equipment to auto-lock tuning screw rod is related to.

Background

The self-locking tuning screw is mainly used for electronic and communication equipment such as filters, duplexers and the like to play a self-locking tuning role, is an important component, has small size and high requirement on size precision, is different from a traditional screw in a forming process, and is formed by turning various customized cutters in a screw forming all-in-one machine. Although the existing screw forming all-in-one machine adopts the chain conveyor to automatically feed, the height of the chain conveyor is higher, the raw materials are manually operated to be fed into the feeding equipment, and the labor intensity of operators is high.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is: provided is automatic raw material feeding equipment capable of automatically feeding raw materials into a conveyor.

In order to achieve the above purpose, the utility model provides a technical scheme as follows:

the automatic raw material feeding equipment comprises a first driving rail, a second driving rail, a material supporting mechanism and a material moving mechanism, wherein the material supporting mechanism is connected to the top of the first driving rail in a sliding manner, and the material moving mechanism is connected to the top of the second driving rail in a sliding manner; the material supporting mechanism comprises a first bottom plate and a plurality of vertical plates, the first bottom plate is fixed on a top sliding block of the first driving rail, the bottom ends of the plurality of vertical plates are fixed with the first bottom plate, and a row of V-shaped grooves I which are arranged at equal intervals are formed in the top ends of the plurality of vertical plates; the material moving mechanism comprises a second bottom plate, two stand columns and two material receiving plates, the second bottom plate is fixed on a top sliding block of the second driving rail, the two stand columns are fixed at the top end of the second bottom plate, a lifting mechanism is arranged on the inner side of each stand column, the bottom ends of the material receiving plates are fixedly connected with the lifting mechanisms, the top portions of the material receiving plates extend towards the material supporting mechanism to form extending portions, and a row of V-shaped grooves II which are arranged at equal intervals is arranged at the top portions of the extending portions; the number and the shape of the first V-shaped grooves and the second V-shaped grooves are consistent.

In the technical scheme, the material supporting mechanism and the material moving mechanism are arranged on two sides of the chain conveyor, after the material supporting mechanism obtains raw materials from a raw material temporary storage position, the raw materials move to the side of the chain conveyor along the first driving track, the material receiving plate moves to the side of the chain conveyor along the second driving track, the extension part is just positioned below the raw materials, the lifting mechanism drives the material receiving plate to upwards support the raw materials, the second driving track drives the material receiving plate to retreat for a certain distance, the extension part is just positioned below the chain conveyor, the lifting mechanism drives the material receiving plate to upwards rise, the extension part drives the raw materials to enter the chain conveyor, after the raw materials are taken away by the chain conveyor, the lifting mechanism drives the material receiving plate to descend to an initial position, and the material supporting mechanism and the material moving mechanism also reset to the initial position.

Compared with the prior art, the beneficial effects of the utility model are that: can be with in raw and other materials automatic feeding to the conveyer, reduced workman's intensity of labour.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly described below.

FIG. 1 is a structural view of an automatic raw material feeding apparatus according to a second embodiment;

fig. 2 is a structural view of a vertical plate in the second embodiment.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

Example one

The automatic former material equipment of throwing that this embodiment provided, including drive track one, drive track two, support material mechanism and move material mechanism, support material mechanism sliding connection in the top of drive track one, move material mechanism sliding connection in the top of drive track two. The material supporting mechanism comprises a first bottom plate and a plurality of vertical plates, the first bottom plate is fixed on a top sliding block of the first driving rail, the bottom ends of the plurality of vertical plates are fixed with the first bottom plate, and a row of V-shaped grooves I which are arranged at equal intervals are formed in the top ends of the plurality of vertical plates; the material moving mechanism comprises a second bottom plate, two stand columns and two material receiving plates, the second bottom plate is fixed on a top sliding block of the second driving rail, the two stand columns are fixed at the top end of the second bottom plate, a lifting mechanism is arranged on the inner side of each stand column, the bottom ends of the material receiving plates are fixedly connected with the lifting mechanisms, the top portions of the material receiving plates extend towards the material supporting mechanism to form extending portions, and a row of V-shaped grooves II which are arranged at equal intervals are formed in the top portions of the; the number and the shape of the first V-shaped grooves and the second V-shaped grooves are consistent.

In practical application, the material supporting mechanism and the material moving mechanism are arranged on two sides of the chain conveyor.

The working process of the automatic raw material feeding equipment comprises the following steps:

firstly, a material supporting mechanism obtains raw materials from a raw material temporary storage position and then runs to the side of a chain conveyor along a first driving track;

secondly, the receiving plate moves to the side of the chain conveyor along the second driving track, the extending part is just positioned below the raw material, and the lifting mechanism drives the receiving plate to upwards support the raw material;

thirdly, driving the second driving rail to drive the material receiving plate to retreat for a certain distance, so that the extension part is just positioned below the chain conveyor;

fourthly, the lifting mechanism drives the material receiving plate to rise upwards, so that the extending part carries the raw material into the chain conveyor;

fifthly, after the chain conveyor takes the raw material away, the lifting mechanism drives the material receiving plate to descend to the initial position, and the material supporting mechanism and the material moving mechanism are reset to the initial position.

Example two

Referring to fig. 1, an automatic raw material feeding device includes a first driving rail 10, a second driving rail 20, a material supporting mechanism and a material moving mechanism, the material supporting mechanism is slidably connected to the top of the first driving rail 10, the material moving mechanism is slidably connected to the top of the second driving rail 20, and in practical use, the first driving rail 10 and the second driving rail 20 are respectively located on two sides of a chain conveyor. The material supporting mechanism comprises a first bottom plate 31 and a plurality of vertical plates, each vertical plate is composed of a first upright post 32, a first material supporting plate 33 and a first lifting cylinder 34 (see fig. 2), the first bottom plate 31 is fixed on a slide block at the top of the first driving rail 10, the upright posts are fixed on the first bottom plate 31, the first lifting cylinder is fixed on the inner side of the first upright post 32, the first material supporting plate 33 is installed at the top of a telescopic rod of the first lifting cylinder 34, and a first V-shaped groove 35 is formed in the top of the first material supporting. The material moving mechanism comprises a second bottom plate 41, two stand columns 42 and two material receiving plates 43, the second bottom plate is fixed on a top sliding block of the second driving rail 20, the two stand columns are fixed at the top end of the second bottom plate, a lifting mechanism is arranged on the inner side of each stand column, the bottom ends of the material receiving plates are fixedly connected with the lifting mechanisms, the top portions of the material receiving plates extend towards the material supporting mechanism to form extending portions 44, and a row of V-shaped grooves 45 which are arranged at equal intervals are formed in the top portions of the extending; the number and the shape of the first V-shaped grooves and the second V-shaped grooves are consistent.

A supporting plate 50 is arranged between the first driving rail 10 and the second driving rail 20, the top of the supporting plate extends to one side of the first driving rail 10 to form a first extending part 51, and the top of the first extending part is provided with a row of V-shaped grooves III 52 which are arranged at equal intervals; the number and the shape of the V-shaped grooves III are consistent with those of the V-shaped grooves II.

firstly, after raw materials are taken from a raw material temporary storage position by a material supporting mechanism, the raw materials move to the side of a chain conveyor along a driving track I10, and at the moment, a V-shaped groove I of a material supporting plate 33 is overlapped with a V-shaped groove III of a supporting plate;

secondly, the telescopic rod of the first lifting cylinder 34 retracts to drive the material supporting plate 33 to descend, and the raw material is transferred into the supporting plate from the material supporting plate 33;

thirdly, the material receiving plate runs to the side of the chain conveyor along the second driving rail 20, the extending part is just positioned below the raw material, and the lifting mechanism drives the material receiving plate to upwards support the raw material;

fourthly, the second driving rail 20 drives the material receiving plate to retreat for a certain distance, so that the extension part is just positioned below the chain conveyor;

fifthly, the lifting mechanism drives the material receiving plate to rise upwards, so that the extending part carries the raw material into the chain conveyor;

and sixthly, taking the raw material away by the chain conveyor, driving the material receiving plate to descend to the initial position by the lifting mechanism, and resetting the material supporting mechanism and the material moving mechanism to the initial position.

After the second step is finished, the material supporting mechanism can reset to remove the temporary placement position of the raw material to grab a new raw material.

The lifting mechanism comprises a vertical slide rail 49, a slide plate 46 and a second lifting cylinder, the vertical slide rail is fixed on the inner side of the upright post, the slide plate 46 is connected to the side face of the vertical slide rail in a sliding mode, and the second lifting cylinder drives the slide plate 46 to lift. A cross beam 48 is arranged between the sliding plates of the two groups of lifting mechanisms, and an auxiliary material receiving plate is arranged at the top of the cross beam. The shape of the extension part of the auxiliary material receiving plate is consistent with that of the extension part of the material receiving plate, the auxiliary material receiving plate can support the raw material from the middle, and the center of the raw material is prevented from drooping and deforming.

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 invention. 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

1. The automatic raw material feeding equipment is characterized by comprising a first driving rail, a second driving rail, a material supporting mechanism and a material moving mechanism, wherein the material supporting mechanism is connected to the top of the first driving rail in a sliding manner, and the material moving mechanism is connected to the top of the second driving rail in a sliding manner; the material supporting mechanism comprises a first bottom plate and a plurality of vertical plates, the first bottom plate is fixed on a top sliding block of the first driving rail, the bottom ends of the plurality of vertical plates are fixed with the first bottom plate, and a row of V-shaped grooves I which are arranged at equal intervals are formed in the top ends of the plurality of vertical plates; the material moving mechanism comprises a second bottom plate, two stand columns and two material receiving plates, the second bottom plate is fixed on a top sliding block of the second driving rail, the two stand columns are fixed at the top end of the second bottom plate, a lifting mechanism is arranged on the inner side of each stand column, the bottom ends of the material receiving plates are fixedly connected with the lifting mechanisms, the top portions of the material receiving plates extend towards the material supporting mechanism to form extending portions, and a row of V-shaped grooves II which are arranged at equal intervals is arranged at the top portions of the extending portions; the number and the shape of the V-shaped grooves III are consistent with those of the V-shaped grooves II.

2. The automatic log feeding equipment according to claim 1, wherein the vertical plate comprises a first upright post, a first material supporting plate and a first lifting cylinder, the first lifting cylinder is fixed on the inner side of the first upright post, the first material supporting plate is installed at the top of a telescopic rod of the first lifting cylinder, and the first V-shaped groove is formed in the top of the first material supporting plate.

3. The automatic log feeding equipment as claimed in claim 2, wherein a supporting plate is arranged between the first driving rail and the second driving rail, the top of the supporting plate extends to one side of the first driving rail to form a first extending part, and a row of V-shaped grooves III which are arranged at equal intervals are arranged at the top of the first extending part; the number and the shape of the V-shaped grooves III are consistent with those of the V-shaped grooves II.

4. The automatic log feeding equipment according to claim 1, wherein the lifting mechanism comprises a vertical slide rail, a slide plate and a second lifting cylinder, the vertical slide rail is fixed on the inner side of the upright post, the slide plate is in sliding connection with the side surface of the vertical slide rail, and the second lifting cylinder drives the slide plate to lift.

5. The automatic log feeding equipment as claimed in claim 4, wherein a cross beam is arranged between the two groups of sliding plates of the lifting mechanisms, and an auxiliary receiving plate is arranged at the top of the cross beam.