CN220145365U

CN220145365U - Feeding mechanism of automatic profile modeling edge milling machine

Info

Publication number: CN220145365U
Application number: CN202321696793.6U
Authority: CN
Inventors: 阎世成
Original assignee: Qingdao Dingfengyuan Wood Industry Co ltd
Current assignee: Qingdao Dingfengyuan Wood Industry Co ltd
Priority date: 2023-06-29
Filing date: 2023-06-29
Publication date: 2023-12-08
Anticipated expiration: 2033-06-29

Abstract

The utility model relates to the technical field of feeding mechanisms, in particular to a feeding mechanism of an automatic profile modeling edge milling machine, which comprises a conveying device, wherein a base is fixedly arranged on the rear side wall surface of the conveying device, and the feeding mechanism further comprises; the two mounting plates are respectively and fixedly arranged at the left end and the right end of the top wall surface of the conveying device, and sliding grooves are formed in the front end and the rear end of a side wall surface, which is close to the two mounting plates, of the conveying device; the two driven rollers are respectively and slidably connected in two sliding grooves which are close to each other on the two mounting plates, and the front end and the rear end of a side wall which is close to each other on the two mounting plates are rotationally connected with the driving roller.

Description

Feeding mechanism of automatic profile modeling edge milling machine

Technical Field

The utility model relates to the technical field of feeding mechanisms, in particular to a feeding mechanism of an automatic profile modeling edge milling machine.

Background

In the technical field of metal processing, metal materials to be processed are conveyed to metal processing equipment in a flow line mode, and after the metal processing equipment finishes metal processing, the flow line is utilized to convey away the processed materials, so that the metal processing efficiency is improved.

According to the lifting and feeding mechanism for the cuboid plate edge milling processing equipment disclosed by the Chinese utility model with the publication number of CN217121871U, cuboid plates needing edge milling processing can be placed at the initial end of a conveying chain in advance, the cuboid plates are conveyed to the tail end through the conveying chain, namely, the cuboid plates are positioned above a supporting plate, a lifting driving piece drives the supporting plate to move upwards, further the stacked cuboid plates are driven to move upwards, after a proximity switch is triggered by the cuboid plates positioned at the uppermost, the pushing piece is controlled to push out the cuboid plates at the uppermost and send the cuboid plates to the initial end of the conveying line by the signal, after the pushing piece retreats, the supporting plate continues to move upwards and triggers the proximity switch, and the pushing piece continues to push the cuboid plates at the uppermost until pushing of all cuboid plates is completed.

In the above prior art, the pushing member pushes the material to move, but the pushing member can only limit the rear end of the material, when the material is jolt in the conveying process, the position of the material is easy to change along with jolt, so that the material may not reach the predetermined position.

Disclosure of Invention

The utility model aims to provide a feeding mechanism of an automatic profile modeling edge milling machine, which aims to solve the problems in the background technology.

The technical scheme of the utility model is as follows: the feeding mechanism of the automatic profile modeling edge milling machine comprises a conveying device, wherein a base is fixedly arranged on the rear side wall surface of the conveying device, and the feeding mechanism further comprises a feeding mechanism;

the two mounting plates are respectively and fixedly arranged at the left end and the right end of the top wall surface of the conveying device, and sliding grooves are formed in the front end and the rear end of a side wall surface, which is close to the two mounting plates, of the conveying device;

the two driven rollers are respectively and slidably connected in two sliding grooves which are close to each other on the two mounting plates, the front end and the rear end of a side wall which is close to each other on the two mounting plates are respectively and rotatably connected with a driving roller, and the power input end of the driving roller is mutually communicated with the power output end of the conveying device;

and the adjusting belt is arranged at the top of the conveying device and sleeved on the side walls of the two driving rollers and the two driven rollers.

Preferably, the front end of the top wall surface of the base is fixedly provided with a storage frame, the rear end of the top wall surface of the base is fixedly provided with an electric push rod, and the output end of the electric push rod is fixedly provided with an electric push plate extending to the inside of the storage frame.

Preferably, the front side of the top wall surface of the storage frame is in threaded connection with an adjusting screw, and a limiting plate which is in sliding connection with the inner side wall of the storage frame is rotatably arranged on the bottom wall surface of the adjusting screw.

Preferably, two locating plates are arranged at the approaching ends of the side walls of the driven rollers, a connecting plate is fixedly arranged on the bottom wall surfaces of the two locating plates, an adjusting rod is fixedly arranged at the center of the top wall surface of the connecting plate, and the top end of the adjusting rod is attached to the inner top wall surface of the adjusting belt.

Preferably, the two positioning plates are arc-shaped, and the top wall surface of the adjusting rod is arc-shaped.

The utility model provides a feeding mechanism of an automatic profile modeling edge milling machine through improvement, and compared with the prior art, the feeding mechanism has the following improvement and advantages:

the method comprises the following steps: according to the utility model, the material to be processed is placed on the top wall surface of the conveying device, the conveying device is used for conveying the material to the front side, and as the two driven rollers are connected in the sliding groove in a sliding way, when the material is initially contacted with the adjusting belt in the moving process, the driven rollers can be pushed to move upwards in the sliding groove, meanwhile, the driving rollers are driven to rotate through the output end of the conveying device, so that the driving rollers drive the adjusting belt to move and push the material to move, the adjusting belt can be pressed on the top of the material, the position of the material is positioned, and the condition that the material shakes is avoided;

and two,: according to the utility model, the adjusting rod is supported by the connecting plate, when the material is contacted with the adjusting belt, the sliding groove drives the connecting plate and the adjusting rod to synchronously move by the positioning plate, the adjusting rod jacks up the adjusting belt close to the top, so that the part of the adjusting belt close to the top extends outwards, the adjusting belt is in a tight state, and the condition that the adjusting belt is loose and can not synchronously drive the material to move along with the conveying device due to the fact that the gap between the driven roller and the driving roller is reduced is avoided.

Drawings

The utility model is further explained below with reference to the drawings and examples:

FIG. 1 is a front view of a feed mechanism of an automatic contour profiling edge milling machine of the present utility model;

FIG. 2 is a schematic illustration of the position of a sliding channel according to the present utility model;

FIG. 3 is a cross-sectional view of a storage frame of the present utility model;

fig. 4 is a schematic view of the location of the connection plate of the present utility model.

Reference numerals illustrate:

1. a transfer device; 2. a base; 3. a storage frame; 4. adjusting a screw; 5. a limiting plate; 6. an electric push rod; 7. an electric push plate; 8. a mounting plate; 9. a sliding groove; 10. driven roller; 11. a driving roller; 12. adjusting the belt; 13. a positioning plate; 14. a connecting plate; 15. and (5) adjusting the rod.

Detailed Description

The following detailed description of the present utility model clearly and fully describes the technical solutions of the embodiments of the present utility model, and it is apparent that the described embodiments are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

The utility model provides a feeding mechanism of an automatic profile modeling edge milling machine through improvement, and the technical scheme of the utility model is as follows:

as shown in fig. 1-4, a feeding mechanism of an automatic profile modeling edge milling machine comprises a conveying device 1, wherein a base 2 is fixedly arranged on the rear side wall surface of the conveying device 1, and the feeding mechanism also comprises a mounting plate 8, a driven roller 10 and an adjusting belt 12;

the two mounting plates 8 are all arranged, the two mounting plates 8 are respectively and fixedly arranged at the left end and the right end of the top wall surface of the conveying device 1, and sliding grooves 9 are formed in the front end and the rear end of a side wall surface, which is close to the two mounting plates 8, of the conveying device;

the two driven rollers 10 are all arranged, the two driven rollers 10 are respectively and slidably connected in two sliding grooves 9 which are close to the two mounting plates 8, the front end and the rear end of a side wall which is close to the two mounting plates 8 are respectively and rotatably connected with a driving roller 11, and the power input end of the driving roller 11 is mutually communicated with the power output end of the conveying device 1;

an adjusting belt 12 is arranged at the top of the conveying device 1, and the adjusting belt 12 is sleeved on the side walls of the two driving rollers 11 and the two driven rollers 10; by means of the structure, materials to be processed are placed on the top wall surface of the conveying device 1, the conveying device 1 is used for conveying the materials to the front side, and as the two driven rollers 10 are in sliding connection with the inside of the sliding groove 9, when the two driven rollers 10 are initially contacted with the adjusting belt 12 in the material moving process, the driven rollers 10 can be pushed to move upwards in the sliding groove 9, meanwhile, the driving roller 11 is driven to rotate through the output end of the conveying device 1, the driving roller 11 drives the adjusting belt 12 to move and simultaneously pushes the materials to move, so that the adjusting belt 12 can be pressed at the top of the materials to position the materials, and the condition that the materials shake is avoided.

Further, a storage frame 3 is fixedly arranged at the front end of the top wall surface of the base 2, an electric push rod 6 is fixedly arranged at the rear end of the top wall surface of the base 2, and an electric push plate 7 extending into the storage frame 3 is fixedly arranged at the output end of the electric push rod 6; by means of the structure, materials can be stacked and placed through the storage frame 3, then the electric push plate 7 stretches into the storage frame 3, when the output end of the electric push rod 6 pushes the electric push plate 7 to extend towards the storage frame 3, the electric push plate 7 can convey materials, close to the bottom, inside the storage frame 3 to the top of the conveying device 1, the mounting plate 8 conveys the materials to the front side, and the materials are automatically conveyed.

Further, an adjusting screw 4 is connected to the front side of the top wall surface of the storage frame 3 in a threaded manner, and a limiting plate 5 which is connected with the inner side wall of the storage frame 3 in a sliding manner is rotatably arranged on the bottom wall surface of the adjusting screw 4; by means of the structure, through the fact that the limiting plate 5 is connected with the inner side wall of the storage frame 3 in a sliding mode, when the adjusting screw 4 is rotated, the position of the limiting plate 5 can move up and down, gaps between the bottom wall surface of the limiting plate 5 and the top wall surface of the base 2 are adjusted, materials with different heights can be conveniently adjusted to move outwards through the storage frame 3, and the situation that the electric push plate 7 pushes a plurality of materials to move onto the conveying device 1 at one time is avoided.

Further, positioning plates 13 are respectively arranged at the approaching ends of the side walls of the two driven rollers 10, a connecting plate 14 is fixedly arranged on the bottom wall surfaces of the two positioning plates 13, an adjusting rod 15 is fixedly arranged at the center of the top wall surface of the connecting plate 14, and the top ends of the adjusting rods 15 are attached to the inner top wall surface of the adjusting belt 12; by means of the structure, the adjusting rod 15 is supported through the connecting plate 14, when materials are in contact with the adjusting belt 12, the sliding groove 9 drives the connecting plate 14 and the adjusting rod 15 to synchronously move through the positioning plate 13, the adjusting rod 15 jacks up the adjusting belt 12 close to the top, the part of the adjusting belt 12 close to the top extends outwards, the adjusting belt 12 is in a tight state, the gap between the driven roller 10 and the driving roller 11 is prevented from being reduced, and the condition that the adjusting belt 12 is loosened and can not synchronously drive the materials to move along with the conveying device 1 is avoided.

Further, the two positioning plates 13 are arc-shaped, and the top wall surface of the adjusting rod 15 is arc-shaped; with the above structure, when the two positioning plates 13 are arranged in an arc shape and the positioning plates 13 are in contact with the side wall of the driven roller 10, the positioning plates 13 can support the adjusting lever 15 through the connecting plate 14, and do not prevent the driven roller 10 from rotating along with the driving roller 11 through the adjusting belt 12, and the friction generated when the adjusting belt 12 is in contact with the adjusting lever 15 is reduced by arranging the top wall surface of the adjusting lever 15 in an arc shape.

The working principle of the utility model is as follows: the material to be processed is placed on the top wall surface of the conveying device 1, the conveying device 1 is utilized to convey the material to the front side, and because the two driven rollers 10 are in sliding connection with the inside of the sliding groove 9, when the material is initially contacted with the adjusting belt 12 in the moving process of the material, the driven rollers 10 can be pushed to move upwards in the sliding groove 9, meanwhile, the driving roller 11 is driven to rotate through the output end of the conveying device 1, the driving roller 11 drives the adjusting belt 12 to move and simultaneously pushes the material to move, so that the adjusting belt 12 can be pressed at the top of the material to position the material, the condition that the material shakes is avoided, the adjusting rod 15 is supported through the connecting plate 14, when the material is contacted with the adjusting belt 12, the sliding groove 9 can drive the connecting plate 14 and the adjusting rod 15 to move synchronously through the positioning plate 13, the adjusting belt 12 close to the top is jacked up by the adjusting rod 15, the part of the adjusting belt 12 close to the top is enabled to extend outwards, the adjusting belt 12 is in a stretched state, the gap between the driven rollers 10 and the driving roller 11 is prevented from becoming small, and the condition that the adjusting belt 12 cannot move along with the conveying device 1 to drive the material synchronously is avoided.

Claims

1. The feeding mechanism of the automatic profile modeling edge milling machine comprises a conveying device (1), wherein a base (2) is fixedly arranged on the rear side wall surface of the conveying device (1), and is characterized by further comprising the following components;

the two mounting plates (8) are arranged, the two mounting plates (8) are respectively and fixedly arranged at the left end and the right end of the top wall surface of the conveying device (1), and sliding grooves (9) are formed in the front end and the rear end of a side wall surface, which is close to the two mounting plates (8), of the conveying device;

the two driven rollers (10) are shared, the two driven rollers (10) are respectively and slidably connected in two sliding grooves (9) which are close to each other on the two mounting plates (8), the front end and the rear end of a side wall surface which is close to each other on the two mounting plates (8) are respectively and rotatably connected with a driving roller (11), and the power input end of the driving roller (11) is communicated with the power output end of the conveying device (1);

the adjusting belt (12) is arranged at the top of the conveying device (1), and the adjusting belt (12) is sleeved on the side walls of the two driving rollers (11) and the two driven rollers (10).

2. The feeding mechanism of an automatic profile modeling edge milling machine of claim 1, wherein: the front end of the top wall surface of the base (2) is fixedly provided with a storage frame (3), the rear end of the top wall surface of the base (2) is fixedly provided with an electric push rod (6), and the output end of the electric push rod (6) is fixedly provided with an electric push plate (7) extending to the inside of the storage frame (3).

3. The feeding mechanism of an automatic profile modeling edge milling machine of claim 2, wherein: the front side of the top wall surface of the storage frame (3) is connected with an adjusting screw (4) in a threaded manner, and a limiting plate (5) which is connected with the inner side wall of the storage frame (3) in a sliding manner is rotatably arranged on the bottom wall surface of the adjusting screw (4).

4. The feeding mechanism of an automatic profile modeling edge milling machine of claim 1, wherein: positioning plates (13) are arranged at one ends, approaching to the side walls, of the two driven rollers (10), connecting plates (14) are fixedly arranged on the bottom wall surfaces of the two positioning plates (13), adjusting rods (15) are fixedly arranged at the center positions of the top wall surfaces of the connecting plates (14), and the top ends of the adjusting rods (15) are attached to the inner top wall surfaces of the adjusting belts (12).

5. The feeding mechanism of an automatic profile modeling edge milling machine of claim 4, wherein: the two positioning plates (13) are arc-shaped, and the top wall surface of the adjusting rod (15) is arc-shaped.