CN217666904U - Automatic go up unloading chamfer device - Google Patents

Abstract

The utility model relates to an automatic go up unloading chamfer device, include: the chamfering machine comprises a chamfering machine body, a hopper, a feeding conveying device, a feeding plate, a discharging conveying device and a storage box, wherein the two ends of the chamfering machine body are fixedly connected with the feeding plate and the discharging conveying device respectively, one end, far away from the chamfering machine, of the feeding plate is fixedly connected with the feeding conveying device, one end, far away from the feeding plate, of the feeding conveying device is fixed with the hopper, and the storage box is located below one end, far away from the chamfering machine, of the discharging conveying device. The utility model uses the hopper and the feeding conveying device to automatically feed, and the feeding plate, the discharging conveying device and the storage box to automatically discharge, so that a single bar is not required to be manually fed and discharged, the requirement on labor is reduced, and the problem of low production efficiency of the existing chamfering equipment is solved; the chip removal holes are formed in the bottom surface of the fourth rack, so that most metal chips can be automatically separated out by the processed bar in the moving process, and the workload of the next procedure is reduced.

Description

Automatic go up unloading chamfer device

Technical Field

The utility model belongs to the technical field of the beveler and specifically relates to an automatic go up unloading chamfer device.

Background

The principle of the existing chamfering equipment is as follows: manually placing the bar stock on the guide rail, and then manually chamfering by using a chamfering machine. The existing chamfering equipment has low production efficiency, needs to occupy a large amount of manpower resources, and is not beneficial to automatic rapid production.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the above problem, provide an automatic go up unloading chamfer device, solved the problem that the production efficiency of current chamfer equipment is low.

An automatic go up unloading chamfer device includes: the chamfering machine comprises a chamfering machine body, a hopper, a feeding conveying device, a feeding plate, a discharging conveying device and a storage box, wherein the two ends of the chamfering machine body are fixedly connected with the feeding plate and the discharging conveying device respectively, one end, far away from the chamfering machine, of the feeding plate is fixedly connected with the feeding conveying device, one end, far away from the feeding plate, of the feeding conveying device is fixed with the hopper, and the storage box is located below one end, far away from the chamfering machine, of the discharging conveying device.

Further, the hopper includes second frame, first roof, third cylinder and workbin, workbin below and second frame fixed connection, the third cylinder is located the workbin below, the cylinder body and the second frame fixed connection of third cylinder, the piston rod and the first roof fixed connection of third cylinder, first roof and workbin sliding connection, the workbin bottom is formed with the second inclined plane.

The hopper further comprises a baffle plate, the feeding and conveying device comprises a third rack, a connecting plate and a first chain conveyor, two ends of the connecting plate are fixedly connected with the bin and the third rack respectively, and the first chain conveyor is arranged in the third rack; one end, far away from the connecting plate, of the first top plate is fixedly connected with a baffle, and the baffle is connected with the material box in a sliding mode.

Further, the feeding and conveying device further comprises a fourth cylinder and a second top plate, the second top plate is located inside the third rack and is in sliding connection with the third rack, the fourth cylinder is located below the second top plate, and the fourth cylinder is used for driving the second top plate to reciprocate up and down.

The chamfering machine comprises a first rack, a positioning block, a pushing block, a first air cylinder, an electric push rod, a first motor, a tool bit, a mounting plate, a second air cylinder, a second motor, a bearing seat, a lead screw, a nut and clamping plates, wherein the positioning block is positioned above the first rack and fixedly connected with the first rack, one end of the feeding plate is fixedly connected with the third rack, the other end of the feeding plate is positioned above the positioning block, the second air cylinder is used for driving the mounting plate to move up and down, the second motor drives the lead screw to rotate, the lead screw is rotatably connected with the mounting plate through a bearing in the bearing seat, threads with opposite rotation directions are respectively formed on two sides of the lead screw, each section of thread of the lead screw is connected with one nut, the clamping plates are fixedly connected with the nut, the clamping plates are slidably connected with the mounting plate, grooves are respectively formed on one opposite sides of the two clamping plates, the grooves are communicated with the interior of the feeding plate, an inlet, an outlet and a first inclined plane is formed on the first rack and positioned between the inlet and the outlet; the clamping plate is positioned above the inlet, and the first cylinder is used for driving the push block to reciprocate relative to the positioning block; the first motor drives the cutter head to rotate, the cutter head is positioned above the inlet, and the electric push rod drives the first motor to do linear motion.

Furthermore, the blanking conveying device further comprises a fourth rack and a second chain conveyor, the second chain conveyor is installed inside the fourth rack, and the first inclined plane is inserted into the fourth rack.

Furthermore, a chip removal hole is formed in the bottom surface of the fourth frame.

The utility model has the advantages of as follows: the automatic feeding is realized by using the hopper and the feeding conveying device, the automatic blanking is realized by using the feeding plate, the blanking conveying device and the storage box, and a single bar is not required to be manually fed and discharged, so that the manual requirement is reduced, and the problem of low production efficiency of the conventional chamfering equipment is solved; the chip removal holes are formed in the bottom surface of the fourth rack, so that most metal chips can be automatically separated out by the processed bar in the moving process, and the workload of the next procedure is reduced.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It is obvious that the drawing in the following description is only an embodiment of the invention, and that for a person skilled in the art, other embodiments can be derived from the drawing provided without inventive effort.

FIG. 1: the utility model discloses a schematic overlooking structure;

FIG. 2 is a schematic diagram: the front view structure section of the hopper and the feeding conveying device;

FIG. 3: a front view structure section of the feeding conveying device and the chamfering machine;

FIG. 4 is a schematic view of: the side view structure section of beveler.

Detailed Description

The invention will be further described with reference to the following figures and examples:

reference will now be made in detail to the embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar functions throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present invention, and should not be construed as limiting the present invention.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; may be directly connected or indirectly connected through an intermediate. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplification of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

The first embodiment is as follows:

as shown in fig. 1 to 4, the present embodiment provides an automatic feeding and discharging chamfering device, including: chamfering machine 1, hopper 2, material loading conveyor 3, material loading board 4, unloading conveyor 5 and storage case 6, 1 both ends of chamfering machine respectively with material loading board 4 and 5 fixed connection of unloading conveyor, the one end and the 3 fixed connection of material loading conveyor 3 that chamfering machine 1 was kept away from to material loading board 4, the one end that material loading conveyor 3 kept away from material loading board 4 is fixed with hopper 2, storage case 6 is located the one end below that material unloading conveyor 5 kept away from chamfering machine 1.

Further, hopper 2 includes second frame 21, first roof 22, third cylinder 24 and workbin 25, workbin 25 below and second frame 21 fixed connection, third cylinder 24 is located workbin 25 below, the cylinder body and the second frame 21 fixed connection of third cylinder 24, the piston rod and the first roof 22 fixed connection of third cylinder 24, first roof 22 and workbin 25 sliding connection, workbin 25 bottom is formed with second inclined plane 251.

Further, the hopper 2 further comprises a baffle 23, the feeding and conveying device 3 comprises a third frame 31, a connecting plate 32 and a first chain conveyor 33, two ends of the connecting plate 32 are fixedly connected with the bin 25 and the third frame 31 respectively, and the first chain conveyor 33 is installed inside the third frame 31; one end of the first top plate 22, which is far away from the connecting plate 32, is fixedly connected with the baffle plate 23, and the baffle plate 23 is slidably connected with the material box 25.

Further, the feeding and conveying device 3 further includes a fourth air cylinder 34 and a second top plate 35, the second top plate 35 is located inside the third frame 31 and is slidably connected with the third frame 31, the fourth air cylinder 34 is located below the second top plate 35, and the fourth air cylinder 34 is used for driving the second top plate 35 to reciprocate up and down.

Further, the chamfering machine 1 includes a first rack 11, a positioning block 12, a push block 13, a first air cylinder 14, an electric push rod 161, a first motor 16, a cutter head 162, a mounting plate 17, a second air cylinder 171, a second motor 172, a bearing block 173, a lead screw 174, a nut 175 and a clamping plate 18, wherein the positioning block 12 is located above the first rack 11 and fixedly connected with the first rack 11, one end of the feeding plate 4 is fixedly connected with the third rack 31, and the other end is located above the positioning block 12, the second air cylinder 171 is used for driving the mounting plate 17 to move up and down, the second motor 172 drives the lead screw 174 to rotate, the lead screw 174 is rotatably connected with the mounting plate 17 through a bearing in the bearing block 173, threads with opposite rotation directions are respectively formed on two sides of the lead screw 174, each section of the thread of the lead screw 174 is connected with one nut 175, the clamping plate 18 is fixedly connected with the nut, the mounting plate 18 is slidably connected with the mounting plate 17, a groove 181 is formed on each opposite side of the two clamping plates 18, the groove 181 is communicated with the inside of the feeding plate 4, an inlet, an outlet 111 and a first inclined plane 111 and an outlet 111 are formed on the first rack 11; the clamping plate 18 is positioned above the inlet, and the first air cylinder 14 is used for driving the pushing block 13 to reciprocate relative to the positioning block 12; the first motor 16 drives the cutter head 162 to rotate, the cutter head 162 is positioned above the inlet, and the electric push rod 161 drives the first motor 16 to move linearly.

Further, the blanking conveying device 5 further includes a fourth frame 51 and a second chain conveyor 52, the second chain conveyor 52 is installed inside the fourth frame 51, and the first inclined surface 111 is inserted inside the fourth frame 51.

Further, a clearance hole 510 is formed in the bottom surface of the fourth frame 51.

Further, a cylindrical surface matched with the side surface of the bar 7 is formed on one side of the positioning block 12 close to the pushing block 13.

The working principle is as follows:

in operation, a worker puts the bar 7 into the bin 25, and the cylindrical bar 7 rolls along the second slope 251 to the upper side of the first top plate 22 and then contacts with the inner wall of the right side of the bin 25. The first top plate 22 is an inclined plate. The third cylinder 24 drives the first top plate 22 to move upwards, and after the first top plate 22 rises to a certain height, the upper bar 7 rolls along the first top plate 22 and enters the third frame 31 from the connecting plate 32, and finally falls on the first chain conveyor 33.

The first chain conveyor 33 conveys the bar 7 over the second top plate 35, and the fourth air cylinder 34 drives the second top plate 35 to move upward away from the inside of the third frame 31. The bar 7 rolls along the second top plate 35 onto the upper plate 4.

A plurality of bars 7 are arranged in a row on the upper plate 4 and the rightmost bar 7 of figure 3 rolls between the grooves 181 of the two jaws 18. The second motor 172 drives the two jaws 18 towards each other to grip the bar 7. The second cylinder 171 then drives the mounting plate 17 downwards, during which the clamping plate 18 stops the bars 7 on the upper plate 4, preventing them from rolling off. The first air cylinder 14 drives the pushing block 13 to move towards the direction close to the positioning block 12, the pushing block 13 pushes the bar 7, the bar 7 slides in the groove 181, and finally the bar 7 is attached to the positioning block 12, so that the bar 7 is positioned and fixed. At this point, the jaws 18 move apart, releasing the bar 7, and the second cylinder 171 drives the mounting plate 17 to return upwards.

Then, the electric push rods 161 on both sides drive the first motor 16 and the cutter head 162 to move towards each other, the first motor 16 drives the cutter head 162 to rotate, and the cutter head 162 performs chamfering on the end of the bar 7.

After the chamfering is finished, the electric push rod 161 is reset and the first motor 16 stops rotating. The first air cylinder 14 drives the pushing block 13 to move in the direction away from the positioning block 12, and the processed bar 7 is released. The bar 7 falls by gravity down the entry onto the first ramp 111 and rolls down the first ramp 111 from the exit onto the second chain conveyor 52. During the movement of the bar 7 along with the second chain conveyor 52, the metal chips attached to the surface of the bar 7 fall from the holes of the chain mesh of the second chain conveyor 52 and finally fall onto the ground from the chip removal holes 510, thereby facilitating the arrangement by workers. The bar 7 finally falls into the storage box 6, and when the storage box 6 is filled, the new storage box 6 is manually replaced by workers.

The present invention has been described above by way of example, but the present invention is not limited to the above-mentioned embodiments, and any modification or variation based on the present invention is within the scope of the present invention.

Claims (7)

1. The utility model provides an unloading chamfer device in automation which characterized in that includes: chamfering machine (1), hopper (2), material loading conveyor (3), material loading plate (4), unloading conveyor (5) and storage case (6), chamfering machine (1) both ends respectively with material loading plate (4) and unloading conveyor (5) fixed connection, the one end and the material loading conveyor (3) fixed connection of chamfering machine (1) are kept away from to material loading plate (4), the one end that material loading conveyor (3) kept away from material loading plate (4) is fixed with hopper (2), storage case (6) are located the one end below that chamfering machine (1) were kept away from to unloading conveyor (5).

2. The automatic feeding and discharging chamfering device according to claim 1, wherein: hopper (2) include second frame (21), first roof (22), third cylinder (24) and workbin (25), workbin (25) below and second frame (21) fixed connection, third cylinder (24) are located workbin (25) below, the cylinder body and second frame (21) fixed connection of third cylinder (24), the piston rod and first roof (22) fixed connection of third cylinder (24), first roof (22) and workbin (25) sliding connection, workbin (25) bottom is formed with second inclined plane (251).

3. The automatic feeding and discharging chamfering device according to claim 2, wherein: the hopper (2) further comprises a baffle (23), the feeding and conveying device (3) comprises a third rack (31), a connecting plate (32) and a first chain conveyor (33), two ends of the connecting plate (32) are fixedly connected with the material box (25) and the third rack (31) respectively, and the first chain conveyor (33) is installed inside the third rack (31); one end, far away from connecting plate (32), of first roof (22) is fixedly connected with baffle (23), baffle (23) and workbin (25) sliding connection.

4. The automatic feeding and discharging chamfering device according to claim 3, wherein: the feeding and conveying device (3) further comprises a fourth air cylinder (34) and a second top plate (35), the second top plate (35) is located inside the third rack (31) and is in sliding connection with the third rack (31), the fourth air cylinder (34) is located below the second top plate (35), and the fourth air cylinder (34) is used for driving the second top plate (35) to reciprocate up and down.

5. The automatic feeding and discharging chamfering device according to claim 4, wherein: the chamfering machine (1) comprises a first rack (11), a positioning block (12), a pushing block (13), a first air cylinder (14), an electric push rod (161), a first motor (16), a cutter head (162), a mounting plate (17), a second air cylinder (171), a second motor (172), a bearing seat (173), a screw rod (174), a nut (175) and a clamping plate (18), wherein the positioning block (12) is positioned above the first rack (11) and fixedly connected with the first rack (11), one end of the feeding plate (4) is fixedly connected with the third rack (31), the other end of the feeding plate is positioned above the positioning block (12), the second air cylinder (171) is used for driving the mounting plate (17) to move up and down, the second motor (172) drives the screw rod (174) to rotate, the screw rod (174) is rotatably connected with the mounting plate (17) through a bearing in the bearing seat (173), threads with opposite rotation directions are respectively formed on two sides of the screw rod (174), each section of the screw rod (174) is connected with one nut (175), the screw rod (18) is fixedly connected with the nut (175), one side of the mounting plate (181) is connected with the clamping plate (18), and one side of the clamping plate (181) is respectively communicated with the groove (181), the first frame (11) is formed with an inlet, an outlet and a first slope (111), the first slope (111) being located between the inlet and the outlet; the clamping plate (18) is positioned above the inlet, and the first cylinder (14) is used for driving the push block (13) to reciprocate relative to the positioning block (12); the first motor (16) drives the cutter head (162) to rotate, the cutter head (162) is located above the inlet, and the electric push rod (161) drives the first motor (16) to move linearly.

6. The automatic feeding and discharging chamfering device according to claim 5, wherein: the blanking conveying device (5) further comprises a fourth rack (51) and a second chain conveyor (52), the second chain conveyor (52) is installed inside the fourth rack (51), and the first inclined surface (111) is inserted into the fourth rack (51).

7. The automatic feeding and discharging chamfering device according to claim 6, wherein: a chip removal hole (510) is formed in the bottom surface of the fourth frame (51).

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