CN217667220U - Adjustable automatic feeding and discharging structure for micro-silicon wheat laser marking - Google Patents

Abstract

The adjustable automatic feeding and discharging structure for micro-silicon wheat laser marking comprises a supporting frame, wherein a feeding mechanism is installed on the supporting frame, a moving mechanism is installed on one side of the supporting frame, and a discharging mechanism is installed in the supporting frame; the utility model relates to an unloading technical field in the automation, the beneficial effect of present case does: through installing feed mechanism and moving mechanism and unloading mechanism on the device, solved and not sheltered from the subassembly in the normal working process, the material does a large amount of displacements in the work, produces easily and rocks, generally for slope feed mechanism, the material can produce the removal in the material loading process, causes work efficiency low, removes the material from material loading to unloading for the driving roller mostly, removes process material inertia itself and can make the material carry out excessive displacement, influences unloading operation scheduling problem.

Description

Adjustable automatic feeding and discharging structure for micro-silicon wheat laser marking

Technical Field

The utility model relates to an unloading technical field in the automation specifically is unloading structure in adjustable automation is used in little silicon wheat laser marking.

Background

1. The traditional adjustable automatic loading and unloading device is not provided with a shielding component in the working process, and materials are displaced in a large amount in the working process and are easy to shake;

2. the traditional adjustable automatic loading and unloading device is generally an inclined loading mechanism, and materials move in the loading process, so that the working efficiency is low;

3. traditional adjustable automatic unloader that goes up, it is material from material loading to unloading that the driving roller removes mostly, remove process material inertia itself and can make the material carry out excessive displacement, influence the unloading operation.

SUMMERY OF THE UTILITY MODEL

For solving the above problem, the utility model discloses a following technical scheme realizes: the adjustable automatic feeding and discharging structure for micro-silicon wheat laser marking comprises a supporting frame, wherein a feeding mechanism is installed on the supporting frame, a moving mechanism is installed on one side of the supporting frame, and a discharging mechanism is installed in the supporting frame;

the feed mechanism includes: the device comprises a telescopic cylinder, a storage plate, a plurality of transmission rollers, a pair of pushing cylinders, a pair of movable blocks, a pair of bent plates, a pair of slide rails, a pair of clamping plates and a transmission frame;

the telescopic cylinder is installed in the braced frame, it installs to put the thing board telescopic cylinder drive end, the driving frame is installed braced frame is last, a plurality of driving rollers are installed on the driving frame, a pair of promotion cylinder is installed respectively the braced frame left and right sides, a pair of movable block is installed respectively a pair of promotion cylinder drive end, a pair of bent plate is installed respectively braced frame is last, and respectively with a pair of movable block round pin hub connection, a pair of slide rail is installed braced frame is last, a pair of pinch-off blades is installed respectively on a pair of bent plate.

Preferably, the pair of pushing cylinders is provided with a movable rod.

Preferably, the moving mechanism includes: the device comprises a driving motor, a driving gear, a transmission chain, a driven gear, a transfer plate, a sliding rail, a sliding block and a pushing plate;

the driving motor is installed on the support frame, the driving gear is installed the driving motor drive end, driven gear installs on the support frame, drive chain installs the driving gear and on the driven gear, the transfer board is installed on the support frame, the slip rail is established on the support frame, the sliding block is installed on the slip rail, the slurcam is installed on the sliding block.

Preferably, the blanking mechanism comprises: the device comprises a lifting plate, a composite cylinder, a supporting plate, a transmission rail, a sliding rod, a limiting rod, a mounting plate and a limiting U-shaped plate;

the composite air cylinder is installed on the supporting frame, the lifting plate is installed at the composite air cylinder driving end, the supporting plate is installed in the supporting frame, the transmission rail is installed on one side of the supporting frame, the sliding rod is installed on the supporting frame, the mounting plate is installed on the supporting plate, the limiting rod is installed on the mounting plate, and the limiting U-shaped plate is installed on the supporting frame.

Preferably, the transmission frame is provided with a baffle.

Preferably, a plurality of universal wheels are installed at the lower end of the supporting frame.

Advantageous effects

The utility model provides a little silicon wheat laser marking is with unloading structure in adjustable automation possesses following beneficial effect:

1. the baffle and the limiting rod are arranged on the device, and the baffle blocks materials to perform operation in the working process, so that the problem that the traditional adjustable automatic loading and unloading device is not provided with a blocking component in the working process, and the materials are displaced in a large amount in the working process and are easy to shake is solved;

2. through be equipped with telescopic cylinder and compound cylinder on the device, the cylinder control material reciprocates the material loading, has solved traditional adjustable automatic unloader that goes up, generally is slope feed mechanism, and the material can produce the removal among the material loading process, causes the problem that work efficiency is low.

3. Through installing sliding rail and slurcam on the device, the drive promotes the piece and removes the operation of material from material loading to unloading, has solved traditional adjustable automatic unloader that goes up, and the material is followed material loading to unloading for the driving roller removes to the great extent, and removal process material inertia itself can make the material carry out excessive displacement, influences the problem of unloading operation

Drawings

Fig. 1 is the utility model discloses little silicon wheat laser marking is with unloading structure's on adjustable automation owner's visual structure schematic diagram.

Fig. 2 is the utility model discloses little silicon wheat laser marking is with overlooking the schematic diagram of unloading structure in adjustable automation.

In the figure: 1. braced frame, 2, telescopic cylinder, 3, put the thing board, 4, the driving roller, 5, promote the cylinder, 6, the movable block, 7, the bent plate, 8, the movable rod, 9, the slide rail, 10, the pinch-off blades, 11, the transmission frame, 12, the baffle, 13, driving motor, 14, the driving gear, 15, drive chain, 16, driven gear, 17, the transfer board, 18, the slip rail, 19, the sliding block, 20, the slurcam, 21, the lifter plate, 22, compound cylinder, 23, the backup pad, 24, the transmission rail, 25, the slide bar, 26, spacing stick, 27, the mounting panel, 28, spacing U template, 29, the universal wheel.

Detailed Description

Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts all belong to the protection scope of the present invention.

The embodiment is as follows: referring to fig. 1-2, the present invention provides a technical solution:

example 1

The adjustable automatic feeding and discharging structure for micro-silicon wheat laser marking comprises a supporting frame 1 and is characterized in that a feeding mechanism is installed on the supporting frame 1, a moving mechanism is installed on one side of the upper portion of the supporting frame 1, and a discharging mechanism is installed in the supporting frame 1;

the feed mechanism includes: the device comprises a telescopic cylinder 2, an object placing plate 3, a plurality of driving rollers 4, a pair of pushing cylinders 5, a pair of movable blocks 6, a pair of bent plates 7, a pair of sliding rails 9, a pair of clamping plates 10 and a driving frame 11;

telescopic cylinder 2 installs in braced frame 1, it installs to put thing board 3 telescopic cylinder 2 drive end, driving frame 11 is installed on braced frame 1, a plurality of driving rollers 4 are installed on driving frame 11, a pair of push cylinder 5 is installed respectively the braced frame 1 left and right sides, a pair of movable block 6 is installed respectively a pair of 5 drive ends that promote the cylinder, a pair of bent plate 7 is installed respectively on braced frame 1, and respectively with a pair of 6 round pin hub connections of movable block, a pair of slide rail 9 is installed on braced frame 1, a pair of pinch-off blades 10 is installed respectively on a pair of bent plate 7.

In the concrete implementation process, it should be noted that, when the device need carry out the material loading, place the material on driving frame 11, drive driving roller 4 makes the material remove to put on the thing board 3, drive a pair of push cylinder 5, the movable block 6 drives the grip block 10 on the bent plate 7 under the effect of a pair of push cylinder 5 and steps up the material, drives telescopic cylinder 2, puts that thing board 3 begins to rise to the assigned position along slide rail 9 under telescopic cylinder 2's effect.

Example 2

Preferably, a pair of pushing cylinders 5 are provided with movable rods 8.

In the specific implementation process, it should be noted that the movable rod 8 is limited in position when the pair of pushing cylinders 5 are in operation, so as to prevent the rotation.

Example 3

Preferably, the stirring mechanism further comprises: the moving mechanism includes: a driving motor 13, a driving gear 14, a transmission chain 15, a driven gear 16, a transfer plate 17, a sliding rail 18, a sliding block 19 and a pushing plate 20;

the driving motor 13 is installed on the supporting frame 1, the driving gear 14 is installed at the driving end of the driving motor 13, the driven gear 16 is installed on the supporting frame 1, the transmission chain 15 is installed on the driving gear 14 and the driven gear 16, the transfer plate 17 is installed on the supporting frame 1, the sliding rail 18 is arranged on the supporting frame 1, the sliding block 19 is installed on the sliding rail 18, and the pushing plate 20 is installed on the sliding block 19;

in the specific implementation process, it should be noted that, when a material needs to be moved, the driving motor 13 is started, the driving motor 13 drives the driving gear 14 to rotate, the driven gear 16 starts to rotate under the action of the driving gear 14 and the transmission chain 15, the sliding block 19 drives the pushing plate 20 on the sliding rail 18 to stably move under the action of the transmission chain 15, and the material is pushed to the blanking mechanism through the transfer plate 17.

Example 4

As a preferred scheme, still further, unloading mechanism includes: the device comprises a lifting plate 21, a composite cylinder 22, a support plate 23, a transmission rail 24, a sliding rod 25, a limiting rod 26, a mounting plate 27 and a limiting U-shaped plate 28;

compound cylinder 22 is installed on braced frame 1, lifter plate 21 is installed compound cylinder 22 drive end, backup pad 23 is installed in braced frame 1, transmission rail 24 is installed braced frame 1 one side, slide bar 25 is installed braced frame 1 is last, mounting panel 27 is installed on backup pad 23, stopper stick 26 is installed on mounting panel 27, spacing U template 28 is installed braced frame 1 is last.

In the specific implementation process, it should be noted that when the material needs to be blanked, it is first waited for the material to be pushed onto the support plate 23, the compound cylinder 22 is driven, the compound cylinder 22 drives the lifting plate 21 to move downward on the sliding rail 18 and the sliding rod 25, the limit rod 26 stabilizes the material in the moving process, and the limit U-shaped plate 28 limits the displacement of the limit rod 26.

Example 5

Preferably, the transmission frame 11 is further provided with a baffle 12.

In the specific implementation, it should be noted that the baffle 12 prevents the material from falling out of the device when the material is moving on the driving roller 4.

Example 6

Preferably, a plurality of universal wheels 29 are mounted at the lower end of the supporting frame 1.

In the specific implementation process, it should be noted that the universal wheels 29 facilitate the overall movement of the device, and improve the mobility of the device.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The adjustable automatic feeding and discharging structure for micro-silicon wheat laser marking comprises a supporting frame and is characterized in that a feeding mechanism is mounted on the supporting frame, a moving mechanism is mounted on one side of the supporting frame, and a discharging mechanism is mounted in the supporting frame;

the feed mechanism includes: the device comprises a telescopic cylinder, an object placing plate, a plurality of driving rollers, a pair of pushing cylinders, a pair of movable blocks, a pair of bent plates, a pair of sliding rails, a pair of clamping plates and a driving frame;

the telescopic cylinder is installed in the braced frame, it installs to put the thing board telescopic cylinder drive end, the driving frame is installed braced frame is last, a plurality of driving rollers are installed on the driving frame, a pair of promotion cylinder is installed respectively the braced frame left and right sides, a pair of movable block is installed respectively a pair of promotion cylinder drive end, a pair of bent plate is installed respectively braced frame is last, and respectively with a pair of movable block round pin hub connection, a pair of slide rail is installed braced frame is last, a pair of pinch-off blades is installed respectively on a pair of bent plate.

2. The adjustable automatic feeding and discharging structure for micro silicon wheat laser marking according to claim 1, wherein the pair of pushing cylinders are provided with movable rods.

3. The adjustable automatic feeding and discharging structure for micro silicon wheat laser marking according to claim 1, wherein the moving mechanism comprises: the device comprises a driving motor, a driving gear, a transmission chain, a driven gear, a transfer plate, a sliding rail, a sliding block and a pushing plate;

the driving motor is installed on the supporting frame, the driving gear is installed the driving motor drive end, driven gear installs on the supporting frame, drive chain installs the driving gear and on the driven gear, the transfer board is installed on the supporting frame, the slip rail is established on the supporting frame, the sliding block is installed on the slip rail, the slurcam is installed on the sliding block.

4. The adjustable automatic feeding and discharging structure for micro silicon wheat laser marking according to claim 1, wherein the discharging mechanism comprises: the device comprises a lifting plate, a composite cylinder, a supporting plate, a transmission rail, a sliding rod, a limiting rod, a mounting plate and a limiting U-shaped plate;

the composite air cylinder is installed on the supporting frame, the lifting plate is installed at the composite air cylinder driving end, the supporting plate is installed in the supporting frame, the transmission rail is installed on one side of the supporting frame, the sliding rod is installed on the supporting frame, the mounting plate is installed on the supporting plate, the limiting rod is installed on the mounting plate, and the limiting U-shaped plate is installed on the supporting frame.

5. The adjustable automatic feeding and discharging structure for micro silicon wheat laser marking according to claim 1, wherein a baffle is arranged on the transmission frame.

6. The adjustable automatic feeding and discharging structure for micro silicon wheat laser marking according to claim 1, wherein a plurality of universal wheels are installed at the lower end of the supporting frame.

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