CN216913373U - Full-automatic saw bit sander - Google Patents

Abstract

The utility model discloses a full-automatic saw blade sander, belongs to the field of saw blade processing equipment, and solves the problem that a full-automatic saw blade sander capable of realizing automatic feeding and discharging and improving production efficiency while ensuring the health of workers in the prior art is lacked. It mainly includes the grinder, and the grinder both sides are equipped with the work or material rest respectively, the work or material rest includes work or material rest I and work or material rest II, is equipped with shift mechanism on work or material rest I and the work or material rest II respectively, is equipped with the elastic sucker on the shift mechanism, and the elastic sucker includes upper plate and hypoplastron, and shift mechanism is connected with the upper plate, is equipped with coil spring on the hypoplastron, opens out the helical strip hole promptly on the hypoplastron, and upper plate and hypoplastron pass through the mounting fixed, are equipped with the electro-magnet on the hypoplastron, are equipped with transmission device on work or material rest I and the work or material rest II. The utility model is mainly used for polishing the surface of the saw blade by a sander.

Description

Full-automatic saw bit sander

Technical Field

The utility model relates to saw blade processing equipment, in particular to a full-automatic saw blade sander.

Background

Laser cutting and stamping forming are applied in the circular saw blade production process, so that burrs can be unavoidably generated on a manufactured product, a sander made of an annular abrasive belt needs to be placed to perform surface sanding to remove the burrs and high points, the noise and dust pollution of the sander seriously harm the health of workers, and the automatic feeding and discharging of the original sander can not be realized, so that the production efficiency is low.

Disclosure of Invention

The utility model aims to provide a full-automatic saw blade sander, and aims to solve the problem that the prior art lacks a full-automatic saw blade sander which can realize automatic feeding and discharging, ensure the health of workers and improve the production efficiency.

The utility model is realized by the following technical scheme:

the utility model provides a full-automatic saw bit grinder, includes the grinder, the grinder both sides are equipped with the work or material rest respectively, the work or material rest includes work or material rest I and work or material rest II, is equipped with the shifter on work or material rest I and the work or material rest II respectively, is equipped with the elastic chuck on the shifter, and the elastic chuck includes upper plate and hypoplastron, and the shifter is connected with the upper plate, is equipped with coil spring on the hypoplastron, opens out the spiral strip hole promptly on the hypoplastron, and upper plate and hypoplastron pass through the mounting fixed, are equipped with the electro-magnet on the hypoplastron, are equipped with transmission on work or material rest I and the work or material rest II.

Furthermore, the conveying device is a roller type conveying belt, and a roller is arranged on the roller type conveying belt.

Further, drum-type conveyer belt below the work or material rest I go up the symmetry and be equipped with the feeding and correct the cylinder, the piston rod that the cylinder was corrected in the feeding is connected with correcting the board, still is equipped with the sensor on the work or material rest I of drum-type conveyer belt below, the sensor is used for detecting the saw bit and arrives, and then the work of feeding correction cylinder.

Further, drum-type conveyer belt below work or material rest II on be equipped with ejection of compact orthotic devices, ejection of compact orthotic devices includes the grillage, gear and power cylinder, the grillage is located on work or material rest II, gear revolve locates on the grillage, power cylinder installs in the grillage below, the grillage still is equipped with three slide rail, it is equipped with the rack slide to slide respectively on the three slide rail, rack portion and the gear engagement of rack slide, one of three rack slide is connected with power cylinder's piston rod through the connecting piece, be equipped with the nipper on the three rack slide respectively, still be equipped with the sensor on the work or material rest II of drum-type conveyer belt below, the sensor is used for detecting the saw bit and arrives, and then power cylinder works.

Furthermore, the beam frame at the end part of the roller type conveyor belt is also provided with an end plate, and the upper surface of the end plate is flush with the working surface of the roller type conveyor belt.

Further, the upper plate and the lower plate are provided with mounting holes, a sucker fitting is arranged in the mounting holes and fixed on the upper plate, the sucker fitting can assist in sucking the saw blade, namely the saw blade can be sucked by the sucker fitting firstly, after the elastic sucker sucks the saw blade and lifts a certain height, the electromagnet is electrified to suck the saw blade, then the sucker fitting is disconnected, the saw blade can be prevented from being magnetized, and the electromagnet sucks a plurality of saw blades.

Further, the shifting mechanism include the layer board, horizontal optical axis and cylinder I, horizontal optical axis locates on the work or material rest, the layer board is located on the horizontal optical axis, cylinder I is installed on the layer board, the piston rod and the work or material rest of cylinder I are connected, still be equipped with cylinder II and vertical optical axis on the layer board, vertical optical axis and layer board sliding contact, vertical optical axis one end is fixed on the upper plate, the piston rod and the upper plate of cylinder II are connected, be equipped with the guiding hole on the hypoplastron, the one end downwardly extending outside the guiding hole of the fixed upper plate of vertical optical axis, play the guide effect to the removal of hypoplastron.

Furthermore, the upper plate is provided with a sensor detection hole, the sensor detection hole is positioned above the spiral spring of the lower plate, the upper plate is provided with a sensor, and the sensor detects the tension and pressure change of the spiral spring through the sensor detection hole so as to judge whether the saw blade is successfully grabbed.

Further, the fixing piece is a bolt and a nut.

Compared with the prior art, the utility model has the beneficial effects that:

1. automatic feeding and discharging of the saw blade to be processed are achieved through the elastic sucker, working efficiency is improved, manual participation is reduced, and health of personnel is guaranteed.

2. The saw blade is positioned through the correcting plate during feeding, and the saw blade transmitted from the drum-type conveying belt is blocked through the positioning grabbing plate during discharging and is positioned simultaneously so that the elastic sucker can grab and then is placed on the collecting vehicle.

Drawings

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

FIG. 2 is a side view of the present invention;

FIG. 3 is an enlarged view of the left side portion of FIG. 1 of the present invention;

FIG. 4 is a schematic structural view of the elastic suction cup of the present invention;

FIG. 5 is a schematic structural view II of the elastic suction cup of the present invention;

FIG. 6 is a schematic view III of the structure of the elastic suction cup of the present invention;

FIG. 7 is a schematic view of the installation of the discharge straightener, conveyor of the present invention;

FIG. 8 is a schematic structural view of the discharge orthotic device of the present invention;

figure 9 is a schematic view of the installation of the correction plate of the present invention.

In the figure: 1. a cylinder II; 2. erecting the optical axis; 3. a support plate; 4. a transverse optical axis; 5. a material rack; 6. a cylinder I; 7. a drum; 8. a sanding machine; 9. a feed straightening cylinder; 10. straightening a plate; 11. an elastic sucker; 12. a discharge straightening device; 13. an upper plate; 14. a lower plate; 15. a sensor; 16. a coil spring; 17. an electromagnet; 18. positioning a grabbing plate; 19. an end plate; 20. a rack slide plate; 21. a slide rail; 22. a plate frame; 23. a gear; 24. a power cylinder; 25. a connecting member.

Detailed Description

The utility model is further described below with reference to the accompanying drawings.

Embodiment 1, as shown in fig. 1-6, a full-automatic saw bit grinder, including grinder 8, grinder 8 both sides are equipped with work or material rest 5 respectively, work or material rest 5 includes work or material rest I and work or material rest II, be equipped with shift mechanism on work or material rest I and the work or material rest II respectively, be equipped with elastic chuck 11 on the shift mechanism, elastic chuck 11 includes upper plate 13 and hypoplastron 14, shift mechanism is connected with upper plate 13, be equipped with coil spring 16 on the hypoplastron 14, coil spring 16 makes elastic chuck 11 have certain cushioning effect and elasticity, opens out the spiral strip hole on hypoplastron 14 promptly, upper plate 13 and hypoplastron 14 are fixed through the mounting, be equipped with electro-magnet 17 on the hypoplastron 14, be equipped with transmission device on work or material rest I and the work or material rest II and be equipped with transmission device

Embodiment 2, as shown in fig. 7-9, a full-automatic saw blade sander, the transmission device is a drum-type conveyor belt, and a drum 7 is arranged on the drum-type conveyor belt; the feeding straightening cylinder 9 is symmetrically arranged on the material rack I below the drum-type conveyor belt, a piston rod of the feeding straightening cylinder 9 is connected with the straightening plate 10, a sensor 15 is further arranged on the material rack I below the drum-type conveyor belt, the sensor 15 is used for detecting the arrival of a saw blade, the feeding straightening cylinder 9 works, and the straightening plate 10 is used for aligning the position of the saw blade; the discharging straightening device 12 is arranged on the material rack II below the drum-type conveying belt, the discharging straightening device 12 comprises a plate rack 22, a gear 23 and a power cylinder 24, the plate rack 22 is arranged on the material rack II, the gear 23 is rotatably arranged on the plate rack 22, the power cylinder 24 is arranged below the plate rack 22, the plate rack 22 is also provided with three sliding rails 21, rack sliding plates 20 are respectively arranged on the three sliding rails 21 in a sliding manner, rack parts of the rack sliding plates 20 are meshed with the gear 23, one of the three rack sliding plates 20 is connected with a piston rod of the power cylinder 24 through a connecting piece 25, grabbing plates 18 are respectively arranged on the three rack sliding plates 20, a sensor 15 is also arranged on the material rack II below the drum-type conveying belt, the sensor 15 is used for detecting arrival of a saw blade, the power cylinder 24 works, and the positioning grabbing plate 18 is used for aligning to the position of the saw blade so that the elastic sucker 11 can grab the saw blade; the beam frame at the end part of the drum-type conveyor belt is also provided with an end plate 19, and the upper surface of the end plate 19 is flush with the working surface of the drum 7 of the drum-type conveyor belt; the upper plate 13 and the lower plate 14 are provided with mounting holes, sucking disc fittings are arranged in the mounting holes and fixed on the upper plate 13, the sucking disc fittings can assist in sucking the saw blade, namely the saw blade can be sucked by the sucking disc fittings firstly, when the elastic sucking disc 11 sucks the saw blade and lifts the saw blade to a certain height, the electromagnet 17 is electrified to suck the saw blade, then the sucking disc fittings are cut off, the saw blade can be prevented from being magnetized, and the electromagnet sucks a plurality of saw blades; the shifting mechanism comprises a supporting plate 3, a transverse optical axis 4 and a cylinder I6, the transverse optical axis 4 is arranged on a material rack 5, the supporting plate 3 is arranged on the transverse optical axis 4, the cylinder I6 is arranged on the supporting plate 3, a piston rod of the cylinder I6 is connected with the material rack 5, the supporting plate 3 is also provided with a cylinder II 1 and a vertical optical axis 2, the vertical optical axis 2 is in sliding contact with the supporting plate 3, one end of the vertical optical axis 2 is fixed on an upper plate 13, the piston rod of the cylinder II 1 is connected with the upper plate 13, a guide hole is formed in a lower plate 14, one end of the vertical optical axis 2 fixed on the upper plate 13 extends downwards to the outside of the guide hole, and the shifting mechanism plays a role in guiding the movement of the lower plate 14; as shown in fig. 4, a sensor detection hole is formed in the upper plate 13, the sensor detection hole is located above the coil spring 16 of the lower plate 14, a sensor 15 is installed on the upper plate 13, and the sensor 15 detects the change of tension and pressure of the coil spring 16 through the sensor detection hole, so as to judge whether the saw blade is successfully grabbed; the fixing pieces are bolts and nuts, and the rest is the same as that of the embodiment 1.

When the saw blade stacking trolley is used, a trolley stacked with saw blades is manually placed below the right-side elastic suction cup 11 shown in figure 1, and another empty trolley is placed below the left-side elastic suction cup 11 shown in figure 1. Starting equipment, the right side elastic suction cup 11 is driven by the cylinder I6 and the cylinder II 1 to move left and right and up and down so as to grab the saw blade. In the elastic suction cup 11 decline in-process, when electro-magnet 17 contacted the saw bit, position variable appears in coil spring 16, the sensor 15 of installation on upper plate 13 is deformation sensor, deformation sensor detects coil spring 16's deformation, and then the piston rod of cylinder II 1 stops moving, the sucking disc gold utensil is inhaled the saw bit, cylinder II 1 drives elastic suction cup 11 and rises a segment position, electro-magnet 17 circular telegram work afterwards, sucking disc gold utensil stop work prevents that electro-magnet 17 circular telegram magnetization saw bit from inhaling the multi-disc earlier. The coil spring 16 is pulled down by the blade, where a position variable occurs, from which the deformation sensor determines whether the blade has been successfully picked up. On cylinder 7 is put with the saw bit to cylinder I6 and II 1's cooperation afterwards, detect the saw bit when being located the sensor 15 (photoelectric sensor) of cylinder conveyer belt below, 9 actions are corrected in the feeding, drive and correct board 10 and correct the saw bit position, send into the grinder afterwards and polish, the grinder is prior art, does not do unnecessary the perplexing here. The saw bit after polishing comes out from the grinder, and when the sensor 15 (photoelectric sensor) that is located the drum-type conveyer belt below detected the saw bit, power cylinder 24 moved, drives one of them rack slide 20 and removes, through gear 23 transmission, and then the action of three location grabs board 18 and corrects the position with the saw bit, and the location that is located the drum-type conveyer belt end is grabbed board 18 and can also be blocked the saw bit and continue to move. At this moment, the cylinder I6 and the cylinder II 1 on the left side of the figure 1 drive the elastic sucker 11 to grab the saw blade, and the process is the same as the grabbing process. Then under the action of the air cylinder I6 and the air cylinder II 1, the electromagnet 17 is powered off so as to place the saw blade on the left-side trolley. In the process of saw blade discharging, the variable quantity of the spiral spring 16 is detected through the deformation sensor to judge that the saw blade contacts the discharged plane, then the air cylinder II 1 stops descending, the electromagnet 17 is powered off, and the saw blade discharging is completed.

Claims (9)

1. The utility model provides a full-automatic saw bit grinder, includes grinder (8), grinder (8) both sides are equipped with work or material rest (5) respectively, its characterized in that: work or material rest (5) are including work or material rest I and work or material rest II, are equipped with shift mechanism on work or material rest I and the work or material rest II respectively, are equipped with elastic chuck (11) on the shift mechanism, and elastic chuck (11) are including upper plate (13) and hypoplastron (14), and shift mechanism is connected with upper plate (13), is equipped with coil spring (16) on hypoplastron (14), and upper plate (13) and hypoplastron (14) are fixed through the mounting, are equipped with electro-magnet (17) on hypoplastron (14), are equipped with transmission on work or material rest I and the work or material rest II.

2. The fully automatic saw blade sander of claim 1, wherein: the transmission device is a drum-type conveyor belt, and a drum (7) is arranged on the drum-type conveyor belt.

3. The fully automatic saw blade sander of claim 2, wherein: the material rack I below the drum-type conveying belt is symmetrically provided with a feeding correction cylinder (9), a piston rod of the feeding correction cylinder (9) is connected with a correction plate (10), and the material rack I below the drum-type conveying belt is further provided with a sensor (15).

4. The fully automatic saw blade sander of claim 2, wherein: the material rack II below the roller type conveying belt is provided with a discharging correction device (12), the discharging correction device (12) comprises a plate rack (22), a gear (23) and a power cylinder (24), the plate rack (22) is arranged on the material rack II, the gear (23) is rotatably arranged on the plate rack (22), the power cylinder (24) is arranged below the plate rack (22), the plate rack (22) is further provided with three sliding rails (21), the three sliding rails (21) are respectively provided with a rack sliding plate (20) in a sliding manner, a rack part of the rack sliding plate (20) is meshed with the gear (23), one of the three rack sliding plates (20) is connected with a piston rod of the power cylinder (24) through a connecting piece (25), the three rack sliding plates (20) are respectively provided with a positioning grabbing plate (18), and the material rack II below the roller type conveying belt is further provided with a sensor (15).

5. The fully automatic saw blade sander of claim 4, wherein: the beam frame at the end part of the drum-type conveyor belt is also provided with an end plate (19), and the upper surface of the end plate (19) is flush with the working surface of the drum (7) of the drum-type conveyor belt.

6. The fully automatic saw blade sander according to any one of claims 1 to 5, wherein: the upper plate (13) and the lower plate (14) are provided with mounting holes, and the mounting holes are internally provided with sucker fittings which are fixed on the upper plate (13).

7. The fully automatic saw blade sander according to any one of claims 1 to 5, wherein: shifting mechanism include layer board (3), horizontal optical axis (4) and cylinder I (6), horizontal optical axis (4) are located on work or material rest (5), horizontal optical axis (4) are located in layer board (3), install on layer board (3) cylinder I (6), the piston rod and the work or material rest (5) of cylinder I (6) are connected, still be equipped with cylinder II (1) and vertical optical axis (2) on layer board (3), vertical optical axis (2) and layer board (3) sliding contact, vertical optical axis (2) one end is fixed on upper plate (13), the piston rod and the upper plate (13) of cylinder II (1) are connected, be equipped with the guiding hole on hypoplastron (14), the one end downwardly extending that vertical optical axis (2) are fixed at upper plate (13) is outside the guiding hole.

8. The fully automatic saw blade sander of claim 1, wherein: the upper plate (13) is provided with a sensor detection hole, the sensor detection hole is positioned above the spiral spring (16) of the lower plate (14), and the upper plate (13) is provided with a sensor (15).

9. The fully automatic saw blade sander of claim 1, wherein: the fixing piece is a bolt and a nut.

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