CN114572624B

CN114572624B - Automatic feeding equipment is used in processing of five metals spare part

Info

Publication number: CN114572624B
Application number: CN202210420141.3A
Authority: CN
Inventors: 陈鹏
Original assignee: Nantong Hongjiu Metal Products Co ltd
Current assignee: Nantong Hongjiu Metal Products Co ltd
Priority date: 2022-04-21
Filing date: 2022-04-21
Publication date: 2022-12-16
Anticipated expiration: 2042-04-21
Also published as: CN114572624A

Abstract

The invention discloses an automatic feeding device for processing hardware parts, which comprises: the upper surface of the machine body is provided with a processing groove; the feeding assembly comprises a driving roller, a driven roller and a conveying belt; the opening assemblies are divided into two groups, the two groups of opening assemblies are used for controlling part of the conveying belt wound on the driving roller not to be contacted with the driving roller, and each opening assembly comprises three mounting blocks, three sliding rods, three insertion rods and a gear; and the driving assembly is used for providing driving force for the two gears to rotate together. Through drive assembly and two sets of cooperations that open between the subassembly, the surface of conveyer belt can carry out reciprocating type laminating with the surface of drive roll, and when the conveyer belt was laminated with the surface of drive roll, the drive roll rotated and can take the conveyer belt to rotate, and when the conveyer belt did not laminate with the surface of drive roll, the drive roll can be in idle running state, and the conveyer belt just can not rotate the work of carrying yet.

Description

Automatic feeding equipment is used in processing of five metals spare part

Technical Field

The invention relates to the technical field of hardware part machining equipment, in particular to automatic feeding equipment for machining hardware parts.

Background

Traditional hardware component refers to various metal utensil spares that metals such as iron, steel, aluminium made through physics processing such as forging, calendering, cutting, and current five metals spare part processing material loading is carried through the conveyer belt of winding on drive roll and driven voller more, puts the material on the conveyer belt, then lets the motor control drive roll rotate, and the conveyer belt just can take place to rotate like this, and the material that is located on the conveyer belt just can fall into the processing inslot in the organism automatically.

Hardware components need not the material loading that does not stop at the in-process of processing, only carries out the work of carrying the material loading again when the material of last transport is running short of, consequently current feed mechanism need start, close the rotation that the motor controlled the conveyer belt ceaselessly at the in-process of carrying the transported substance to lead to inside circuit burning of motor, outage easily.

Disclosure of Invention

The invention aims to solve the following defects in the prior art that the existing feeding mechanism needs to continuously start and stop a motor to control the rotation of a conveying belt in the process of conveying materials, so that the circuit inside the motor is easy to burn and power off, and the automatic feeding equipment for processing hardware parts is provided.

In order to achieve the purpose, the invention adopts the following technical scheme:

the utility model provides a five metals spare part processing is with automatic feeding equipment, includes:

the upper surface of the machine body is provided with a processing groove;

the feeding assembly comprises a driving roller, a driven roller and a conveying belt, the inner wall of the conveying belt is in sliding contact with the surfaces of the driving roller and the driven roller, the upper surface of the machine body is symmetrically provided with placing plates, two ends of the driving roller are horizontally and rotatably installed between the two placing plates through rotating rods, and one ends of the two rotating rods, which are far away from each other, penetrate out of the two placing plates respectively;

the two groups of opening assemblies are used for controlling part of a conveying belt wound on a driving roller not to be contacted with the driving roller, each opening assembly comprises three mounting blocks, three sliding rods, three inserting rods and gears, the two gears are fixedly sleeved on one ends, away from each other, of the two rotating rods respectively, three arc-shaped sliding ports are formed in the surfaces of the two rotating rods in an equidistant annular mode, three rectangular sliding grooves are formed in the surfaces of the two mounting plates in an equidistant annular mode, the three sliding rods are slidably mounted in the three sliding grooves respectively, the two ends of each mounting block are fixedly connected with the three inserting rods respectively, the three inserting rods are slidably inserted into the three sliding grooves respectively, the surfaces of the three inserting rods are in sliding contact with the walls of the sliding ports, and one side, away from the sliding rods, of each mounting block is provided with a through port for the conveying belt to pass through;

and the driving assembly is used for providing driving force for the two gears to rotate together.

As an optimal scheme, the drive assembly includes bearing plate, pivot and two arc rack bar, the processing groove has been offered near the lateral wall level of notch department and has been installed the mounting groove, the pivot level rotates and installs in the mounting groove, and the both ends wear out the front and back surface of organism respectively and fixed the cup joint have a connecting rod, two the rack bar keeps away from the one end fixed connection of pivot with two connecting rods respectively, and is connected with two gear engagement respectively, the bearing plate is fixed cup joints in the pivot, and the lower surface is connected through the cell wall of extensible member and processing groove.

As a preferable scheme, the telescopic part comprises an arc-shaped first spring rod taking the rotating shaft as a circle center, and two ends of the first spring rod are respectively and fixedly connected with the wall of the processing groove and the lower surface of the bearing plate.

As an optimal scheme, the bearing plate front surface is equipped with the joint part, the lateral wall fixed mounting that the pivot was kept away from in the processing groove has the fixed plate, the joint groove that is used for letting the joint part joint is offered to fixed plate upper surface perpendicular, and the lateral wall offsets with the lateral wall of bearing plate under the initial condition, the arc mouth that is used for letting the joint part get into the joint groove is offered to joint groove tank bottom.

As a preferred scheme, the clamping part comprises a U-shaped rod and a second spring rod, the U-shaped rod is fixedly connected with the surface of the bearing plate, the inner rod wall is fixedly connected with the second spring rod, and the moving end of the second spring rod is controlled to move in the clamping groove through a resetting part.

As a preferred scheme, the reset component comprises a mounting plate, two springs, a movable plate and a supporting rod, wherein the mounting plate is vertically and fixedly mounted on the upper surface of the fixing plate, the lower surface of the movable plate is in sliding sealing contact with the upper surface of the mounting plate, two ends of the two springs are fixedly connected with one surface, close to the mounting plate and the movable plate, of the mounting plate, the two ends of the two springs are respectively in sliding configuration with the clamping grooves, and the top ends of the supporting rods are fixedly connected with the lower surface of the movable plate.

Preferably, a sliding block in sliding contact with the surface of the arc opening is fixedly mounted at the end part of the moving end of the second spring rod, and the sliding block is circular.

Preferably, the wall of the through opening is in sliding contact with the inner wall of the conveying belt and is coated with a smooth paint.

Compared with the prior art, the invention has the beneficial effects that:

1. when a conveying belt in the feeding assembly rotates to convey materials, the surface of the conveying belt is in reciprocating fit with the surface of a driving roller through the matching of a driving assembly and two groups of opening assemblies, when the conveying belt is in fit with the surface of the driving roller, the driving roller drives the conveying belt to rotate by the rotation of the driving roller, and then the conveying belt can carry out the work of conveying the materials in the rotating process, and when the conveying belt is not in fit with the surface of the driving roller, the driving roller is in an idle rotation state, the conveying belt cannot carry out the work of rotating conveying, and only when the materials in a processing groove are not available, the conveying belt can carry out the work of conveying the materials;

2. under joint part and reset unit's cooperation, only when the conveyer belt carries the material that gets into in the processing tank to reach an amount, the transport work of conveyer belt just can stop, avoids the conveyer belt to carry a little material at every turn and gets into the processing tank in back, and transport work just can the automatic shutdown.

Drawings

FIG. 1 is a schematic structural view of a front three-dimensional cross section of an automatic feeding device for hardware component processing according to the present invention;

FIG. 2 is a schematic side-view three-dimensional cross-sectional structure diagram of an automatic feeding device for hardware part processing according to the present invention;

FIG. 3 is a schematic side view of an automatic feeding apparatus for hardware component processing according to the present invention;

FIG. 4 is an enlarged view of the structure at A in FIG. 1;

FIG. 5 is an enlarged view of the structure at B in FIG. 2;

FIG. 6 is an enlarged view of the structure at C in FIG. 2;

fig. 7 is an enlarged schematic view of the structure at D in fig. 3.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1-7, an automatic feeding equipment is used in processing of five metals spare part includes:

the machine body 1 is provided with a processing groove 2 on the upper surface of the machine body 1;

the feeding assembly comprises a driving roller 3, a driven roller 4 and a conveying belt 5, the inner wall of the conveying belt 5 is in sliding contact with the surfaces of the driving roller 3 and the driven roller 4, the upper surface of the machine body 1 is symmetrically provided with placing plates 6, two ends of the driving roller 3 are horizontally and rotatably installed between the two placing plates 6 through rotating rods 7, and one ends, far away from each other, of the two rotating rods 7 respectively penetrate through the two placing plates 6;

the two groups of opening assemblies are used for controlling part of the conveying belt 5 wound on the driving roller 3 not to be in contact with the driving roller 3 and comprise three mounting blocks 8, three sliding rods 9, three inserting rods 10 and gears 11, the two gears 11 are fixedly sleeved on one ends, away from each other, of the two rotating rods 7 respectively, three arc-shaped sliding openings 12 are formed in the surfaces of the two mounting plates 6 in an annular mode at equal intervals, three rectangular sliding grooves 13 are formed in the surfaces of the two mounting plates 6 in an annular mode at equal intervals, the three sliding rods 9 are installed in the three sliding grooves 13 in a sliding mode respectively, the three mounting blocks 8 and the three inserting rods 10 are fixedly connected at two ends respectively, the three inserting rods 10 are inserted in the three sliding openings 12 in a sliding mode respectively, the surfaces of the three inserting rods are in sliding contact with the opening walls of the sliding openings 12 in a sliding mode, and through openings 14 for the conveying belt 5 to penetrate through are formed in the surfaces, away from the sliding rods 9, of the mounting blocks 8;

and the driving assembly is used for providing driving force for the two gears 11 to rotate together.

In the embodiment of the application of the technical scheme, when the conveyor belt 5 in the feeding assembly rotates to convey materials, through the cooperation between the driving assembly and the two groups of opening assemblies, the two gears 11 can rotate in a reciprocating manner together, when the two gears 11 rotate counterclockwise, the sliding openings 12 formed in the gears 11 can also rotate, because one ends of the inserted rods 10 located in the sliding openings 12 are fixedly connected with one ends of the sliding rods 9, and the sliding rods 9 can only move in the sliding grooves 13 in the horizontal direction, at this time, the inserted rods 10 located in the sliding openings 12 can slide in the sliding openings 12 under the action force of the opening walls of the sliding openings 12, so that the sliding rods 9 fixedly connected with the ends of the inserted rods 10 can slide in the sliding grooves 13 at this time, one ends of the three sliding rods 9 far away from the mounting block 8 are gradually close to each other, further, at this time, the conveyor belt 5 located in the sliding openings 14 can be attached to the surface of the driving roller 3, the driving roller 3 can drive the conveyor belt 5 to rotate, further, when the conveyor belt 5 rotates, and further, when the two gears 11 rotate, and the conveyor belt 5 cannot be attached to the conveyor belt 5 can not rotate clockwise, and thus the conveyor belt 5 can not be attached to the conveyor belt 3.

The preferred technical scheme in this embodiment, drive assembly includes bearing plate 15, pivot 16 and two arc rack bar 17, the machining groove 2 has seted up the mounting groove near the lateral wall level of notch department, pivot 16 level rotates and installs in the mounting groove, and both ends wear out the front and back surface of organism 1 respectively and fixed the cup joint connecting rod 18, two rack bar 17 keep away from the one end fixed connection of pivot 16 with two connecting rods 18 respectively, and be connected with two gear 11 meshing respectively, bearing plate 15 is fixed cup joints on pivot 16, and the lower surface is connected with the cell wall of machining groove 2 through telescopic part. The material that conveyer belt 5 carried will fall into the upper surface that is located the bearing plate 15 in processing groove 2, and at this moment bearing plate 15 will carry out clockwise rotation under the effect of material weight to pivot 16 also can take two rack bar 17 to rotate together at this moment, and when two rack bar 17 rotated, two gears 11 that are connected with their meshing respectively can take place anticlockwise rotation, when the material that falls on bearing plate 15 was not basically, bearing plate 15 will carry out anticlockwise rotation this moment, thereby two gears 11 carry out clockwise rotation at this moment.

In the preferred technical solution of this embodiment, the telescopic member includes an arc-shaped first spring rod 19 using the rotating shaft 16 as a circle center, and two ends of the first spring rod 19 are respectively and fixedly connected with the wall of the machining tank 2 and the lower surface of the bearing plate 15. As the weight of the material on the upper surface of the bearing plate 15 changes, the first spring rod 19 expands and contracts, thereby carrying the bearing plate 15 to rotate around the rotating shaft 16.

According to the preferable technical scheme in the embodiment, the clamping component is arranged on the front surface of the bearing plate 15, the fixing plate 20 is fixedly mounted on the side wall, away from the rotating shaft 16, of the processing groove 2, the clamping groove 21 used for clamping the clamping component is vertically formed in the upper surface of the fixing plate 20, the side wall of the fixing plate abuts against the side wall of the bearing plate 15 in the initial state, and the arc-shaped opening 22 used for enabling the clamping component to enter the clamping groove 21 is formed in the bottom of the clamping groove 21. When the material on the upper surface of the bearing plate 15 falls into the processing groove 2, at this time, under the action of the first spring rod 19, the bearing plate 15 can be reset rapidly, and the clamping part can also enter the clamping groove 21 from the arc-shaped opening 22 to fix the position of the bearing plate 15.

In the preferred technical solution of this embodiment, the clamping member includes a U-shaped rod 23 and a second spring rod 24, the U-shaped rod 23 is fixedly connected with the surface of the bearing plate 15, the inner rod wall is fixedly connected with the second spring rod 24, and the moving end of the second spring rod 24 is controlled by the reset member to move in the clamping groove 21. When the material on the upper surface of the bearing plate 15 is not available, the bearing plate 15 can be quickly rotated and reset under the action of the first spring rod 19, in the resetting process, the U-shaped rod 23 can drive the second spring rod 24 to rotate together, the second spring rod 24 can gradually approach the arc-shaped opening 22, when the second spring rod 24 enters the arc-shaped opening 22, the moving end of the second spring rod 24 can be in sliding contact with the opening wall of the arc-shaped opening 22 at the moment, so that the second spring rod 24 can be compressed, when the second spring rod 24 is not in contact with the opening wall of the arc-shaped opening 22 any more, the second spring rod 24 can enter the clamping groove 21 at the moment, the moving end of the second spring rod 24 can be moved and reset at the moment, and forms clamping with the groove wall of the clamping groove 21, at the moment, the conveying belt 5 can carry out the work of conveying the material, and the clamping between the second spring rod 24 and the clamping groove 21 can be released under the action of the resetting component at the moment until the material on the bearing plate 15 reaches a certain amount.

In the preferred technical solution in this embodiment, the reset component includes an installation plate 25 vertically and fixedly installed on the upper surface of the fixed plate 20, two springs 26, a moving plate 27 and a support rod 28, the lower surface of the moving plate 27 is in sliding sealing contact with the upper surface of the installation plate 25, two ends of the two springs 26 are respectively and fixedly connected with the surfaces of the installation plate 25 and the moving plate 27 close to each other, the support rod 28 is configured in the clamping groove 21 in a sliding manner, and the top end of the support rod is fixedly connected with the lower surface of the moving plate 27. With the conveying belt 5, more and more materials drop on the upper surface of the bearing plate 15, since the bearing plate 15 is inclined in the initial state, the materials dropping on the bearing plate 15 are accumulated at the corner between the moving plate 27 and the bearing plate 15, and the moving plate 27 is gradually pressed, the moving plate 27 moves towards the direction close to the mounting plate 25 when being pressed, so that the two springs 26 are also compressed, the abutting rod 28 fixedly mounted on the lower surface of the moving plate 27 moves along with the movement of the moving plate 27, and gradually approaches and abuts against the moving end of the second spring rod 24 clamped in the clamping groove 21, the moving end of the second spring rod 24 is compressed and contracts until the moving end is compressed to be no longer in contact with the groove wall of the clamping groove 21, the clamping between the second spring rod 24 and the clamping groove 21 is released, at this time, the bearing plate 15 far rotates towards the lower side under the action of the gravity of the materials accumulated on the upper surface, a gap can appear between the bearing plate 15 and the fixing plate 20, the materials can enter the processing groove 2 from the inclined surface of the bearing plate 15 under the action of the self-weight, and only when the conveying belt 5 stops, and the conveying belt 5 automatically stops.

In the preferred technical solution of this embodiment, a sliding block 29 for sliding contact with the surface of the arc-shaped opening 22 is fixedly installed at the end of the moving end of the second spring rod 24, and the sliding block 29 is circular. The circular slider 29 reduces the contact area of the moving end of the second spring bar 24 in sliding contact with the surface of the arcuate opening 22, thereby reducing the frictional force generated during sliding contact.

In the preferred technical scheme in this embodiment, the wall of the opening 14 is in sliding contact with the inner wall of the conveying belt 5 and is coated with a smooth paint. The varnish reduces the frictional forces generated when the conveyor belt 5 is in sliding contact with the walls of the openings 14.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered as the technical solutions and the inventive concepts of the present invention within the technical scope of the present invention.

Claims

1. The utility model provides an automatic feeding equipment is used in processing of five metals spare part which characterized in that includes:

the device comprises a machine body (1), wherein a processing groove (2) is formed in the upper surface of the machine body (1);

the feeding assembly comprises a driving roller (3), a driven roller (4) and a conveying belt (5), the inner wall of the conveying belt (5) is in sliding contact with the surfaces of the driving roller (3) and the driven roller (4), the upper surface of the machine body (1) is symmetrically provided with placing plates (6), two ends of the driving roller (3) are horizontally and rotatably installed between the two placing plates (6) through rotating rods (7), and one ends, far away from each other, of the two rotating rods (7) penetrate through the two placing plates (6) respectively;

the opening assemblies are two groups, the two groups of the opening assemblies are used for controlling part of the conveying belt (5) wound on the driving roller (3) not to be in contact with the driving roller (3), the opening assemblies comprise three mounting blocks (8), three sliding rods (9), three insertion rods (10) and gears (11), the two gears (11) are fixedly sleeved on one ends, far away from each other, of the two rotating rods (7) respectively, three arc-shaped sliding openings (12) are formed in the surfaces of the three mounting blocks in an equidistant annular mode, three rectangular sliding grooves (13) are formed in the surfaces of the two mounting plates (6) in an equidistant and annular mode, the three sliding rods (9) are slidably mounted in the three sliding grooves (13) respectively, the two ends of the three mounting blocks (8) are fixedly connected with the three insertion rods (10) respectively, the three insertion rods (10) are slidably inserted in the three sliding openings (12) respectively, the surfaces of the three insertion rods are in sliding contact with the opening walls of the sliding openings (12) in a sliding mode, and through openings (14) for the conveying belt (5) to penetrate through are formed in one surface, far away from the sliding rods (9) of the mounting blocks (8);

a drive assembly for providing a driving force for the two gears (11) to rotate together.

2. The automatic feeding equipment is used in processing of five metals spare part of claim 1, characterized in that, drive assembly includes bearing plate (15), pivot (16) and two arc rack bar (17), the lateral wall level that processing groove (2) are close to notch department has seted up the mounting groove, pivot (16) horizontal rotation is installed in the mounting groove, and both ends wear out the front and back surface of organism (1) respectively and fixed the cup joint connecting rod (18), two one end fixed connection that pivot (16) were kept away from with two connecting rod (18) respectively to rack bar (17), and is connected with two gear (11) meshing respectively, bearing plate (15) fixed cup joints on pivot (16), and the lower surface is connected through the cell wall of extensible part with processing groove (2).

3. The automatic feeding equipment is used in processing of five metals spare part of claim 2, characterized in that, flexible part includes the first spring beam (19) of arc that uses pivot (16) as the centre of a circle, the both ends of first spring beam (19) respectively with the cell wall of processing groove (2) and the lower surface fixed connection of bearing plate (15).

4. The automatic feeding equipment for hardware part machining is according to claim 2, characterized in that a clamping part is arranged on the front surface of the bearing plate (15), a fixing plate (20) is fixedly mounted on the side wall, away from the rotating shaft (16), of the machining groove (2), a clamping groove (21) for clamping the clamping part is vertically formed in the upper surface of the fixing plate (20), the side wall of the bearing plate (15) is abutted to the side wall of the initial state, and an arc-shaped opening (22) for enabling the clamping part to enter the clamping groove (21) is formed in the bottom of the clamping groove (21).

5. The automatic feeding equipment for hardware part machining is characterized in that the clamping component comprises a U-shaped rod (23) and a second spring rod (24), the U-shaped rod (23) is fixedly connected with the surface of the bearing plate (15), the inner rod wall is fixedly connected with the second spring rod (24), and the moving end of the second spring rod (24) is controlled to move in the clamping groove (21) through a resetting component.

6. The automatic feeding equipment is used in processing of five metals spare part of claim 5, characterized in that, reset unit includes perpendicular fixed mounting at mounting panel (25) of fixed plate (20) upper surface, two springs (26), movable plate (27) and supports pole (28), the lower surface of movable plate (27) and the upper surface sliding seal contact of mounting panel (25), two the one side fixed connection that both ends of spring (26) are close to each other with mounting panel (25) and movable plate (27) respectively, support in pole (28) sliding configuration and joint groove (21), and the lower surface fixed connection of top and movable plate (27).

7. The automatic feeding equipment for hardware part machining is characterized in that a sliding block (29) in surface sliding contact with an arc-shaped opening (22) is fixedly mounted at the end part of a moving end of the second spring rod (24), and the sliding block (29) is circular.

8. The automatic feeding equipment for hardware part machining according to claim 1, wherein the opening wall of the through opening (14) is in sliding contact with the inner wall of the conveying belt (5) and is coated with a smooth paint.