CN216464355U - Feeding and pressing mechanism - Google Patents

Abstract

The utility model relates to a feeding and pressing mechanism which comprises a main movable plate, a feeding device, a pressing device and a discharging cavity, wherein the main movable plate is longitudinally arranged, the feeding device is fixedly arranged in an upper through groove and a lower through groove of the main movable plate, the pressing device is fixedly arranged at the front upper part of the main movable plate, the discharging cavity is fixedly arranged at the front lower part of the main movable plate, a material pushing and passing plate is horizontally and fixedly arranged at the rear part of the discharging cavity, the end part of the lower end of the feeding device vertically abuts against the upper side of the material pushing and passing plate, and a plastic cover for magnet materials to be pressed is arranged below the discharging cavity. The feeding device comprises a front transparent plate and a rear groove plate which are inserted into a strip shape, and a plurality of magnet materials are arranged in the rear groove plate. This scheme adopts and moulds the lid motionless, and press device along with elevating system downstream and the form of extrusion magnet material, comes pressure equipment magnet, makes operative employee's sense of safety reinforcing, can hold the feed arrangement design of magnet material in batches, utilizes the action of gravity, presses the beat of pushing away the material strip, and the material feeding income of continuous feeding pushes away the silo, has improved the work efficiency of pressure equipment magnet.

Description

Feeding and pressing mechanism

Technical Field

The utility model relates to the technical field of processing equipment, in particular to a feeding and pressing mechanism.

Background

For a product with a magnet in a plastic cover, two methods are generally used in the processing of the plastic cover, one is to assemble the magnet by hand, and the other is to install the magnet by means of equipment, however, the existing method for installing the magnet has the following defects:

(1) the manual assembly of the magnet has low working efficiency and causes pain for long-time assembly of fingers;

(2) the equipment is provided with the magnet, and the plastic cover is lifted along with the tool, so that the safety of an operator is not sufficient.

In order to overcome the problems, a feeding and pressing mechanism is invented.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the problems that the existing magnet mounting mode has low working efficiency of manually mounting magnets, is painful for mounting fingers for a long time and has insufficient safety of operators mounting magnets on equipment. The concrete solution is as follows:

the utility model provides a feeding, swager constructs, includes the main fly leaf that vertically sets up, fixed the feed arrangement who locates in the upper and lower logical groove of main fly leaf, fixed the swager who locates main fly leaf front upper portion, fixed the ejection of compact cavity of locating main fly leaf front lower part, the rear portion level of ejection of compact cavity is fixed to be equipped with and pushes away the material and cross the guidance tape, and feed arrangement's lower extreme tip is supported perpendicularly to lean on to push away the upside that the guidance tape was crossed to the material, and the below of ejection of compact cavity is equipped with the lid of moulding of waiting to press the pressure equipment magnet material.

Furthermore, the feeding device comprises a strip-shaped front transparent plate and a strip-shaped rear trough plate, and a plurality of magnet materials are arranged in the rear trough plate.

Further, the upper end of the front transparent plate is lower than the upper end of the rear groove plate.

Furthermore, the rear trough plate is provided with parallel material channels which are communicated up and down, and the magnet materials in the material channels can be visually observed through the front transparent plate.

Furthermore, the pressing device comprises a pressing cylinder and a T-shaped frame for fixing the pressing cylinder, the T-shaped frame is fixedly connected with the front upper portion of the main movable plate through two connecting blocks, and two pressing strips extending downwards are arranged at the lower end of a cylinder rod of the pressing cylinder.

Further, be equipped with from last two vertical material chambeies that run through down in the ejection of compact cavity, the rear side middle part of ejection of compact cavity is equipped with two horizontal pan feeding mouths that link up perpendicularly in material chamber, and the pan feeding mouth is just to and communicate with push away the material groove that pushes away the material and cross the guidance tape.

Furthermore, the lower end of the material channel is communicated with the material pushing groove, one of the magnet materials in the material channel falls into the material pushing groove, and the magnet materials are pushed into the material inlet through a material pushing strip in the material pushing groove and reach the lower part of the material cavity.

Furthermore, the material pressing strip can enter the material cavity and move up and down, and downwards presses out the magnet material at the lower part of the material cavity and enters the magnet mounting groove of the plastic cover.

Further, the T-shaped frame is arranged in the direction of an inverted T shape.

Furthermore, the rear part of the main movable plate is fixedly connected with a lifting mechanism, so that the plastic cover can be moved downwards to approach or upwards leave.

In summary, the technical scheme of the utility model has the following beneficial effects:

the utility model solves the problems of low working efficiency of manual magnet assembly, pain of fingers during long-time assembly and insufficient safety of operators for mounting magnets on equipment in the conventional magnet mounting mode. This scheme adopts and moulds the lid motionless, and press device along with elevating system downstream and the form of extrusion magnet material, comes pressure equipment magnet, makes operative employee's sense of safety reinforcing, can hold the feed arrangement design of magnet material in batches, utilizes the action of gravity, presses the beat of pushing away the material strip, and the material feeding income of continuous feeding pushes away the silo, has improved the work efficiency of pressure equipment magnet. The pressing device is high in pressing speed and accurate in position, and the problems of trouble and hand pain in manual pressing are really solved. In a word, this scheme structural design is reasonable, practicality and security are strong, and work efficiency is high.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments of the present invention will be briefly described below. It is obvious that the drawings in the following description are only some embodiments of the utility model, and that for a person skilled in the art, other drawings can be derived from them without inventive effort.

FIG. 1 is an exploded view of a feed and swage mechanism of the present invention;

fig. 2 is an exploded view of the discharge chamber of the present invention.

Description of reference numerals:

2-a main movable plate, 22-a material pushing and passing channel plate, 23-a material pushing groove, 25-a material pressing cylinder, 26-a T-shaped frame, 27-a connecting block, 28-a cylinder rod lower end plate, 29-a fixing plate, 30-a material pressing strip, 31-a material discharging cavity, 32-a material cavity, 33-a material inlet, 34-a through groove, 35-a material feeding device, 36-a material channel, 37-a magnet, 39-a front transparent plate, 40-a rear channel plate, 41-a cavity cover and 42-a cavity body.

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. It is to be understood that the described embodiments are merely exemplary of the utility model, and not restrictive of the full scope of the utility model. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1 and 2, a feeding and pressing mechanism includes a main movable plate 2 disposed longitudinally, a feeding device 35 fixedly disposed in an upper and a lower through slots 34 of the main movable plate 2, a pressing device fixedly disposed on a front upper portion of the main movable plate 2, and a discharging cavity 31 fixedly disposed on a front lower portion of the main movable plate 2, wherein a material pushing and passing plate 22 is horizontally and fixedly disposed at a rear portion of the discharging cavity 31, a lower end portion of the feeding device 35 vertically abuts against an upper side of the material pushing and passing plate 22, and a plastic cover (not shown in the drawings) for pressing and mounting a magnet 37 is disposed below the discharging cavity 31.

Further, the feeding device 35 comprises a front transparent plate 39 and a rear trough plate 40, which are inserted in a bar shape, and a plurality of magnets 37 are disposed in the rear trough plate 40. The upper end of the front transparent plate 39 is lower than the upper end of the rear channel plate 40 (to facilitate loading of the magnet 37 into the feeding device 35).

Furthermore, the rear trough plate 40 is provided with a vertically through parallel material channel 36, and the material of the magnet 37 in the material channel 36 can be visually observed through the front transparent plate 39 (which can prompt the timely supplement of the material of the magnet 37).

Further, the pressing device comprises a pressing cylinder 25 and a T-shaped frame 26 for fixing the pressing cylinder 25, the T-shaped frame 26 is fixedly connected with the front upper portion of the main movable plate 2 through two connecting blocks 27, and two pressing strips 30 extending downwards are arranged at the lower end of the cylinder rod of the pressing cylinder 25 (through a cylinder rod lower end plate 28 and a fixing plate 29).

Furthermore, two longitudinal material cavities 32 penetrating from top to bottom are arranged in the discharge cavity 31, two transverse material inlet ports 33 vertically penetrating through the material cavities 32 are arranged in the middle of the rear side of the discharge cavity 31, and the material inlet ports 33 are opposite to and communicated with the material pushing grooves 23 of the material pushing and passing plate 22. The discharging cavity 31 is composed of a cavity cover 41 and a cavity body 42.

Further, the lower end of the material channel 36 is communicated with the material pushing groove 23, and the magnets 37 in the material channel 36 fall into the material pushing groove 23 one by one, and the magnet 37 is pushed into the material inlet 33 by a material pushing strip (not shown in the figure, and not discussed here regarding the material pushing mechanism) in the material pushing groove 23 to reach the lower part of the material cavity 32.

Further, the pressing strip 30 can enter the material cavity 32 and move up and down, and press the lower magnet 37 of the material cavity 32 downward into a magnet mounting groove (not shown) of the plastic cover.

Further, the T-shaped frame 26 is disposed in an inverted T-shape.

Further, the rear portion of the main movable plate 2 is fixedly connected to a lifting mechanism (not shown in the drawings, and the lifting mechanism is not discussed here), so as to move downward to approach the plastic cover or move upward to leave the plastic cover.

In summary, the technical scheme of the utility model has the following beneficial effects:

the utility model solves the problems of low working efficiency of manual magnet assembly, pain of fingers during long-time assembly and insufficient safety of operators for mounting magnets on equipment in the conventional magnet mounting mode. This scheme adopts and moulds the lid motionless, and press device along with elevating system (not drawn in the picture) downstream, and the form of extrusion magnet material comes pressure equipment magnet, makes operative employee's sense of security reinforcing, can hold the feed arrangement design of magnet material in batches, utilizes the action of gravity, according to the beat of pushing away the material strip, and the work efficiency who pushes away the magnet has improved pressure equipment magnet is gone into to the material of constantly sending (magnet). The pressing device is high in pressing speed and accurate in position, and the problems of trouble and hand pain in manual pressing are really solved. In a word, this scheme structural design is reasonable, practicality and security are strong, and work efficiency is high.

The above-described embodiments do not limit the scope of the present invention. Any modification, equivalent replacement, and improvement made within the spirit and principle of the above-described embodiments should be included in the protection scope of the technical solution.

Claims (10)

1. The utility model provides a feeding, swager constructs which characterized in that: the device comprises a main movable plate, a feeding device, a pressing device and a discharging cavity, wherein the main movable plate is longitudinally arranged, the feeding device is fixedly arranged in an upper through groove and a lower through groove of the main movable plate, the pressing device is fixedly arranged on the front upper portion of the main movable plate, the discharging cavity is fixedly arranged on the front lower portion of the main movable plate, a pushing and crossing plate is horizontally and fixedly arranged at the rear portion of the discharging cavity, the end portion of the lower end of the feeding device is vertically abutted against the upper side of the pushing and crossing plate, and a plastic cover for magnet materials to be pressed is arranged below the discharging cavity.

2. The feeding and pressing mechanism of claim 1, wherein: the feeding device comprises a strip-shaped front transparent plate and a strip-shaped rear groove plate, and a plurality of magnet materials are arranged in the rear groove plate.

3. The feeding and pressing mechanism of claim 2, wherein: the upper end of the front transparent plate is lower than the upper end of the rear groove plate.

4. The feeding and pressing mechanism of claim 3, wherein: the rear trough plate is provided with parallel material channels which are communicated up and down, and the magnet materials in the material channels can be visually observed through the front transparent plate.

5. The feeding and pressing mechanism of claim 4, wherein: the pressing device comprises a pressing cylinder and a T-shaped frame for fixing the pressing cylinder, the T-shaped frame is fixedly connected with the front upper portion of the main movable plate through two connecting blocks, and two pressing strips extending downwards are arranged at the lower end of a cylinder rod of the pressing cylinder.

6. The feeding and pressing mechanism of claim 5, wherein: be equipped with from last two vertical material chambeies that run through down in the ejection of compact cavity, the rear side middle part of ejection of compact cavity is equipped with two horizontal pan feeding mouths that link up perpendicularly in material chamber, and the pan feeding mouth is just to the intercommunication push away the material groove that pushes away of material crossing the guidance tape.

7. The feeding and pressing mechanism of claim 6, wherein: the lower end of the material channel is communicated with the material pushing groove, one magnet material in the material channel falls into the material pushing groove, and the magnet materials are pushed into the material inlet through the material pushing strip in the material pushing groove and reach the lower part of the material cavity.

8. The feeding and pressing mechanism of claim 7, wherein: the material pressing strip can enter the material cavity and move up and down, and downwards presses out the magnet material at the lower part of the material cavity and enters the magnet mounting groove of the plastic cover.

9. The feeding and pressing mechanism of claim 8, wherein: the T-shaped frame is arranged in the direction of an inverted T shape.

10. The feeding and pressing mechanism of claim 9, wherein: the rear part of the main movable plate is fixedly connected with the lifting mechanism, so that the plastic cover can be moved downwards to approach or upwards leave.

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