阅读说明：本技术 板材钢印加工设备 (Plate steel seal processing equipment ) 是由 李沛 张还 刘扬 温文文 金江成 于 2021-08-30 设计创作，主要内容包括：本发明公开了一种板材钢印加工设备,包括外壳体(1),外壳体(1)的顶部设有进料口(2),进料口(2)的下方设有匀速下料机构(3),匀速下料机构(3)的下方设有传送带(4),传送带(4)端部的外壳体(1)上设有出料口(5),传送带(5)的下方设有钢印加工机构(6)；所述匀速下料机构(3)包括设置于外壳体(1)内腔且与电机相连的主齿轮(7),主齿轮(7)的上方设有安装板(8),安装板(8)上设有对称设置的从动齿轮(9),两从动齿轮(9)和主齿轮(8)上均设有传动带(10)；本发明可以自动有序地完成板材钢印加工过程,具有实用性高和使用便捷性佳的特点。(The invention discloses a plate steel seal processing device which comprises an outer shell (1), wherein a feeding hole (2) is formed in the top of the outer shell (1), a constant-speed blanking mechanism (3) is arranged below the feeding hole (2), a conveying belt (4) is arranged below the constant-speed blanking mechanism (3), a discharging hole (5) is formed in the outer shell (1) at the end part of the conveying belt (4), and a steel seal processing mechanism (6) is arranged below the conveying belt (5); the uniform-speed blanking mechanism (3) comprises a main gear (7) which is arranged in the inner cavity of the outer shell (1) and connected with a motor, an installation plate (8) is arranged above the main gear (7), driven gears (9) which are symmetrically arranged are arranged on the installation plate (8), and a transmission belt (10) is arranged on each of the two driven gears (9) and the main gear (8); the invention can automatically and orderly finish the processing process of the steel seal of the plate and has the characteristics of high practicability and good use convenience.)

1. The plate steel seal processing equipment is characterized in that: the automatic blanking device comprises an outer shell (1), wherein a feeding hole (2) is formed in the top of the outer shell (1), a uniform-speed blanking mechanism (3) is arranged below the feeding hole (2), a conveying belt (4) is arranged below the uniform-speed blanking mechanism (3), a discharging hole (5) is formed in the outer shell (1) at the end part of the conveying belt (4), and a steel seal processing mechanism (6) is arranged below the conveying belt (5); the uniform-speed blanking mechanism (3) comprises a main gear (7) which is arranged in the inner cavity of the outer shell (1) and connected with a motor, an installation plate (8) is arranged above the main gear (7), driven gears (9) which are symmetrically arranged are arranged on the installation plate (8), and a transmission belt (10) is arranged on each of the two driven gears (9) and the main gear (8); the mounting plate (8) is provided with symmetrically-arranged fixing pieces (11), the fixing pieces (11) are provided with driving shafts (12) which are rotatably connected and connected with the driven gears (9) on the corresponding sides, the driving shafts (12) are provided with rollers (13), two surfaces of each roller (13) are provided with cam grooves (14), the cam grooves (14) on the two surfaces are arranged in opposite directions, and the cam grooves (14) on the rollers (13) on the two sides are symmetrical; a feed opening (15) is formed in the mounting plate (8) between the rollers (13), fixed blocks (16) are arranged on two sides of the feed opening (15), sliding openings (17) are formed in two sides of each fixed block (16), the two sliding openings (17) are arranged up and down, sliding rods (18) in sliding connection are arranged in the sliding openings (17), and rolling blocks (19) located at the inner ends of the corresponding side cam grooves (14) are arranged at one ends, facing the rollers (13), of the sliding rods (18); the end parts of the sliding rods (18) are provided with striker plates (20) corresponding to the positions of the feed openings (15); the steel seal machining mechanism (6) comprises a transmission shaft (21) which is arranged below the conveyor belt (5) and connected with a motor, round machining plates (22) are arranged at two ends of the transmission shaft (21), mounting grooves (23) are formed in the machining plates (22), and the mounting grooves (23) on the two sides correspond to each other in position; a fixed shaft (24) which is rotatably connected is arranged in the mounting groove (23), clamping blocks (25) are arranged on the fixed shafts (24) on the two sides, connecting blocks (26) are arranged at the bottoms of the clamping blocks (25), a return spring (27) is arranged between the connecting blocks (26) on the two sides, and cylindrical extrusion blocks (28) which are connected with the inner cavity of the outer shell (1) and correspond to the clamping blocks (25) in position are arranged on the outer sides of the clamping blocks (25); be equipped with on centre gripping piece (25) towards first inclined plane (29) of extrusion piece (28), one side of first inclined plane (29) is equipped with and is obtuse angle reset face (30) rather than the contained angle, one side that centre gripping piece (25) are towards reset spring (27) is equipped with second inclined plane (31), and second inclined plane (31) are parallel with first inclined plane (29), and wherein second inclined plane (31) of one side are embossed seal machined surface.

2. The sheet steel seal processing apparatus of claim 1, wherein: the conveying belt (4) is provided with uniformly distributed partition plates (32), and the distance between every two adjacent partition plates (32) corresponds to the size of the feed opening (15); two side surfaces of the partition plate (32) are inclined surfaces.

3. The sheet steel seal processing apparatus of claim 1, wherein: the cam groove (14) comprises an arc-shaped material blocking part (33) and an arc-shaped material placing part (34) which are arranged on the side surface of the roller (13), the circle centers of the material blocking part (33) and the material placing part (34) are both positioned at the rotating center of the roller (13), and the radius of the material blocking part (33) is larger than that of the material placing part (34); the corner between the material blocking part (33) and the material placing part (34) is in arc transition.

4. The sheet steel seal processing apparatus of claim 1, wherein: the upper surface of the material baffle plate (20) is an inclined surface.

5. The sheet steel seal processing apparatus of claim 1, wherein: the upper conveying surface of the conveyor belt (4) is positioned between the return spring (27) and the bottom surface of the clamping block (25).

6. The sheet steel seal processing apparatus of claim 1, wherein: and a discharging barrel (35) corresponding to the position of the discharging opening (15) is arranged on the bottom surface of the mounting plate (8).

Technical Field

The invention relates to the field of plate processing, in particular to plate steel seal processing equipment.

Background

After the specific metal plate is processed, the specific metal plate needs to be classified and sorted, so that a steel seal needs to be added on the side surface of the specific metal plate for marking, and the steel seal has the characteristics of long retention time and clear mark compared with a label type mark; the existing stage of steel seal processing is generally realized by using a manual steel seal machine by operators, and the manual steel seal machine has high labor intensity and low efficiency, so that operators can bear heavy load; therefore, how to design a device capable of automatically realizing steel seal processing of the plate becomes a problem to be solved urgently.

Disclosure of Invention

The invention aims to provide a plate steel seal processing device. The invention can automatically and orderly finish the processing process of the steel seal of the plate and has the characteristics of high practicability and good use convenience.

The technical scheme of the invention is as follows: the plate steel seal processing equipment comprises an outer shell, wherein a feed inlet is formed in the top of the outer shell, a constant-speed blanking mechanism is arranged below the feed inlet, a conveyor belt is arranged below the constant-speed blanking mechanism, a discharge outlet is formed in the outer shell at the end part of the conveyor belt, and a steel seal processing mechanism is arranged below the conveyor belt; the uniform-speed blanking mechanism comprises a main gear which is arranged in the inner cavity of the outer shell and connected with the motor, an installation plate is arranged above the main gear, driven gears which are symmetrically arranged are arranged on the installation plate, and transmission belts are arranged on the two driven gears and the main gear; the mounting plate is provided with symmetrically arranged fixing pieces, the fixing pieces are provided with driving shafts which are rotatably connected and connected with the driven gears on the corresponding sides, the driving shafts are provided with rollers, two sides of each roller are provided with cam grooves, the cam grooves on the two sides are arranged in opposite directions, and the cam grooves on the rollers on the two sides are symmetrical; a feed opening is formed in the mounting plate between the rollers, fixed blocks are arranged on two sides of the feed opening, sliding openings are formed in two sides of each fixed block, the two sliding openings are arranged up and down, sliding rods in sliding connection are arranged in the sliding openings, and rolling blocks located at the inner ends of the corresponding side cam grooves are arranged at one ends of the sliding rods facing the rollers; the end parts of the sliding rods are provided with striker plates corresponding to the positions of the feed openings; the steel seal machining mechanism comprises a transmission shaft which is arranged below the conveying belt and connected with a motor, round machining plates are arranged at two ends of the transmission shaft, mounting grooves are formed in the machining plates, and the mounting grooves on two sides correspond to each other in position; a fixed shaft which is rotatably connected is arranged in the mounting groove, clamping blocks are arranged on the fixed shafts on two sides, connecting blocks are arranged at the bottoms of the clamping blocks, a reset spring is arranged between the connecting blocks on the two sides, and cylindrical extrusion blocks which are connected with the inner cavity of the outer shell and correspond to the clamping blocks in position are arranged on the outer sides of the clamping blocks; the clamping block is provided with a first inclined surface facing the extrusion block, one side of the first inclined surface is provided with a reset surface with an obtuse included angle with the first inclined surface, one side of the clamping block facing the reset spring is provided with a second inclined surface, the second inclined surface is parallel to the first inclined surface, and the second inclined surface on one side is a steel seal processing surface.

In the plate steel seal processing equipment, the conveying belt is provided with the uniformly distributed partition plates, and the distance between every two adjacent partition plates corresponds to the size of the feed opening; two side surfaces of the partition plate are inclined surfaces.

In the plate steel seal processing equipment, the cam groove comprises an arc material blocking part and an arc material placing part which are arranged on the side surface of the roller, the circle centers of the material blocking part and the material placing part are both positioned at the rotating center of the roller, and the radius of the material blocking part is larger than that of the material placing part; the corner between the material blocking part and the material placing part is in arc transition.

In the plate steel seal processing equipment, the upper surface of the material baffle is an inclined plane.

In the plate steel seal processing equipment, the upper conveying surface of the conveying belt is positioned between the return spring and the bottom surface of the clamping block.

In the plate steel seal processing equipment, the bottom surface of the mounting plate is provided with the discharging barrel corresponding to the position of the discharging opening.

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

1. the top of the outer shell is provided with a feeding hole, a constant-speed blanking mechanism is arranged below the feeding hole, a conveying belt is arranged below the constant-speed blanking mechanism, a discharging hole is formed in the outer shell at the end part of the conveying belt, and a steel seal processing mechanism is arranged below the conveying belt; the uniform-speed blanking mechanism comprises a main gear which is arranged in the inner cavity of the outer shell and connected with the motor, an installation plate is arranged above the main gear, driven gears which are symmetrically arranged are arranged on the installation plate, and transmission belts are arranged on the two driven gears and the main gear; the mounting plate is provided with symmetrically arranged fixing pieces, the fixing pieces are provided with driving shafts which are rotatably connected and connected with the driven gears on the corresponding sides, the driving shafts are provided with rollers, two sides of each roller are provided with cam grooves, the cam grooves on the two sides are arranged in opposite directions, and the cam grooves on the rollers on the two sides are symmetrical; a feed opening is formed in the mounting plate between the rollers, fixed blocks are arranged on two sides of the feed opening, sliding openings are formed in two sides of each fixed block, the two sliding openings are arranged up and down, sliding rods in sliding connection are arranged in the sliding openings, and rolling blocks located at the inner ends of the corresponding side cam grooves are arranged at one ends of the sliding rods facing the rollers; the end parts of the sliding rods are provided with striker plates corresponding to the positions of the feed openings; the steel seal machining mechanism comprises a transmission shaft which is arranged below the conveying belt and connected with a motor, round machining plates are arranged at two ends of the transmission shaft, mounting grooves are formed in the machining plates, and the mounting grooves on two sides correspond to each other in position; a fixed shaft which is rotatably connected is arranged in the mounting groove, clamping blocks are arranged on the fixed shafts on two sides, connecting blocks are arranged at the bottoms of the clamping blocks, a reset spring is arranged between the connecting blocks on the two sides, and cylindrical extrusion blocks which are connected with the inner cavity of the outer shell and correspond to the clamping blocks in position are arranged on the outer sides of the clamping blocks; the clamping block is provided with a first inclined surface facing the extrusion block, one side of the first inclined surface is provided with a reset surface with an obtuse included angle with the first inclined surface, one side of the clamping block facing the reset spring is provided with a second inclined surface which is parallel to the first inclined surface, and the second inclined surface on one side is a steel seal processing surface; the plate is put into the material baffle from the feeding hole and reaches the position of the material baffle, the main gear is driven by the motor to drive the driven gears on two sides to rotate so as to drive the roller to rotate, the rolling blocks on the same side are pushed by the cam grooves to reciprocate in the sliding port during rotation, and the cam grooves on two sides of the roller are arranged in opposite directions, so that the material baffle of the upper sliding rod and the material baffle of the lower sliding rod can reciprocate alternately, and the material baffle on the other side is matched to alternately discharge the stacked plate above, so that the stacked plate can uniformly fall onto the conveying belt, and subsequent ordered processing is facilitated; when panel reachs embossed seal processing agency department, the motor drives the processing board rotation at transmission shaft both ends, when the first inclined plane of grip block contacts the extrusion piece at the uniform velocity when rotating, the grip block that receives the extrusion both sides of extrusion piece rotates inwards jointly, both sides second inclined plane and panel laminating form the extrusion spacing to it, in-process goes up the embossed seal through the side processing of embossed seal processing face panel, after the extrusion piece reachs face of restoring to the throne department, the reset spring that receives the extrusion resumes deformation and pushes the grip block to the outside, make it resume to the normal position steadily, can receive extrusion repetition above-mentioned step once more after the grip block is rotatory a week, the panel of align to grid has been cooperated, periodic carry out embossed seal processing operation to it, high efficiency, and have practicality and the good characteristics of convenience of use.

2. The conveying belt is provided with uniformly distributed partition plates, the distance between every two adjacent partition plates corresponds to the size of a feed opening, and two side surfaces of each partition plate are inclined surfaces; can get into between the division board after panel falls from the feed opening, the division board can carry out tentatively spacing to panel to can cooperate the embossed seal processing agency to carry out more reliable fixed to panel when the centre gripping, thereby promote the accuracy of embossed seal processing position.

3. The cam groove comprises an arc material blocking part and an arc material placing part which are arranged on the side surface of the roller, the circle centers of the material blocking part and the material placing part are both positioned at the rotating center of the roller, and the radius of the material blocking part is larger than that of the material placing part; the corner between the material blocking part and the material placing part is in arc transition; when the roller moves in the cam groove, the movement is smooth and the transition is smooth, so that the pause and the pause in the operation are reduced, and the operation reliability of the device is improved.

4. The upper surface of the material baffle plate is an inclined plane, so that when the material baffle plate is alternately blanked, a plate can quickly and conveniently fall on the next material baffle plate or a conveying belt, and the use reliability is further improved.

5. The bottom surface of the mounting plate is provided with the discharging barrel corresponding to the position of the discharging opening, so that the falling posture of the plate can be limited, and the plate can be more accurately fallen on the conveying belt.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural diagram of a uniform speed blanking mechanism of the invention;

FIG. 3 is a schematic view of a portion of the cam slot of the present invention;

FIG. 4 is a schematic structural diagram of a steel seal processing mechanism of the invention.

The labels in the figures are: 1-an outer shell; 2-a feed inlet; 3-a uniform-speed blanking mechanism; 4-a conveyor belt; 5-a discharge hole; 6-a steel seal processing mechanism; 7-main teeth; 8-mounting a plate; 9-a driven gear; 10-a transmission belt; 11-a fixing member; 12-a drive shaft; 13-a roller; 14-cam grooves; 15-a feed opening; 16-fixing block; 17-a sliding port; 18-a slide bar; 19-a scroll pad; 20-a striker plate; 21-a transmission shaft; 22-processing the plate; 23-mounting grooves; 24-a fixed shaft; 25-a clamping block; 26-connecting blocks; 27-a return spring; 28-an extrusion block; 29-a first bevel; 30-a reset face; 31-a second bevel; 32-a separator; 33-a material blocking part; 34-a discharging part; and 35-discharging the barrel.

Detailed Description

The invention is further illustrated by the following figures and examples, which are not to be construed as limiting the invention.

Example (b): the plate steel seal processing equipment comprises an outer shell 1, wherein a feed inlet 2 is formed in the top of the outer shell 1, a constant-speed blanking mechanism 3 is arranged below the feed inlet 2, a conveyor belt 4 is arranged below the constant-speed blanking mechanism 3, a discharge outlet 5 is formed in the outer shell 1 at the end part of the conveyor belt 4, and a steel seal processing mechanism 6 is arranged below the conveyor belt 5; as shown in fig. 2 and fig. 3, the uniform blanking mechanism 3 includes a main gear 7 disposed in the inner cavity of the outer casing 1 and connected to the motor, a mounting plate 8 is disposed above the main gear 7, driven gears 9 symmetrically disposed are disposed on the mounting plate 8, and a driving belt 10 is disposed on each of the two driven gears 9 and the main gear 8; the mounting plate 8 is provided with fixing pieces 11 which are symmetrically arranged, the fixing pieces 11 are provided with driving shafts 12 which are rotatably connected and connected with the driven gears 9 on the corresponding sides, the driving shafts 12 are provided with rollers 13, two surfaces of each roller 13 are provided with cam grooves 14, the cam grooves 14 on the two surfaces are arranged in opposite directions, and the cam grooves 14 on the rollers 13 on the two sides are symmetrical; a feed opening 15 is formed in the mounting plate 8 between the rollers 13, fixed blocks 16 are arranged on two sides of the feed opening 15, sliding openings 17 are formed in two sides of each fixed block 16, the two sliding openings 17 are arranged up and down, sliding rods 18 in sliding connection are arranged in the sliding openings 17, and rolling blocks 19 located at the inner ends of the corresponding side cam grooves 14 are arranged at one ends, facing the rollers 13, of the sliding rods 18; the end parts of the sliding rods 18 are respectively provided with a material baffle plate 20 corresponding to the position of the feed opening 15; as shown in fig. 4, the steel seal processing mechanism 6 includes a transmission shaft 21 disposed below the conveyor belt 5 and connected to the motor, two ends of the transmission shaft 21 are provided with circular processing plates 22, the processing plates 22 are provided with mounting grooves 23, and the mounting grooves 23 on the two sides are corresponding in position; a fixed shaft 24 which is rotatably connected is arranged in the mounting groove 23, clamping blocks 25 are arranged on the fixed shafts 24 on the two sides, connecting blocks 26 are arranged at the bottoms of the clamping blocks 25, a return spring 27 is arranged between the connecting blocks 26 on the two sides, and cylindrical extrusion blocks 28 which are connected with the inner cavity of the outer shell 1 and correspond to the clamping blocks 25 are arranged on the outer sides of the clamping blocks 25; a first inclined surface 29 facing the extrusion block 28 is arranged on the clamping block 25, a reset surface 30 with an obtuse included angle with the first inclined surface 29 is arranged on one side of the first inclined surface 29, a second inclined surface 31 is arranged on one side of the clamping block 25 facing the reset spring 27, the second inclined surface 31 is parallel to the first inclined surface 29, and the second inclined surface 31 on one side is a steel seal processing surface; the conveying belt 4 is provided with uniformly distributed partition plates 32, and the distance between every two adjacent partition plates 32 corresponds to the size of the feed opening 15; two side surfaces of the partition plate 32 are inclined surfaces; the cam groove 14 comprises an arc-shaped material blocking part 33 and an arc-shaped material placing part 34 which are arranged on the side surface of the roller 13, the circle centers of the material blocking part 33 and the material placing part 34 are both positioned at the rotation center of the roller 13, and the radius of the material blocking part 33 is larger than that of the material placing part 34; the corners between the material blocking part 33 and the material placing part 34 are in arc transition; the upper surface of the striker plate 20 is an inclined surface; the upper conveying surface of the conveyor belt 4 is positioned between the return spring 27 and the bottom surface of the clamping block 25; and a blanking barrel 35 corresponding to the blanking port 15 is arranged on the bottom surface of the mounting plate 8.

The working principle is as follows: the plate is put into the material baffle from the feeding hole and reaches the position of the material baffle, the main gear is driven by the motor to drive the driven gears on two sides to rotate so as to drive the roller to rotate, the rolling blocks on the same side are pushed by the cam grooves to reciprocate in the sliding port during rotation, and the cam grooves on two sides of the roller are arranged in opposite directions, so that the material baffle of the upper sliding rod and the material baffle of the lower sliding rod can reciprocate alternately, and the material baffle on the other side is matched to alternately discharge the stacked plate above, so that the stacked plate can uniformly fall onto the conveying belt, and subsequent ordered processing is facilitated; when the plate reaches the steel seal processing mechanism, the motor drives the processing plates at two ends of the transmission shaft to rotate, when the first inclined planes of the clamping blocks contact the extrusion blocks during uniform rotation, the clamping blocks on two sides extruded by the extrusion blocks rotate inwards together, the second inclined planes on two sides are attached to the plate and form extrusion limit on the plate, the steel seal is processed on the side face of the plate through the steel seal processing surface in the process, after the extrusion blocks reach the reset face, the extruded reset springs recover deformation and push the clamping blocks outwards to enable the clamping blocks to stably recover to the original positions, the clamping blocks can be extruded again after rotating for one circle to repeat the steps, the uniformly arranged plate is matched, steel seal processing operation is periodically performed on the clamping blocks, and the efficiency is high.