CN217046779U

CN217046779U - Automatic feeding device for double-end milling

Info

Publication number: CN217046779U
Application number: CN202220232427.4U
Authority: CN
Inventors: 周华标; 汤焕骅
Original assignee: Reignmac Machinery Co ltd
Current assignee: Reignmac Machinery Co ltd
Priority date: 2022-01-27
Filing date: 2022-01-27
Publication date: 2022-07-26
Anticipated expiration: 2032-01-27

Abstract

The utility model discloses an automatic feeding device for a double-end milling machine, which comprises a machine base, and a transmission line and a feeding device which are arranged on the machine base; the front side of the feeding device is provided with a correcting device, the correcting device comprises a fixed running rule part and a floating running rule part, correcting rules are arranged on the fixed running rule part and the floating running rule part, and a correcting inclined plane and a linear guide surface are arranged on each correcting rule; the floating guiding rule part comprises a floating frame and a floating cylinder, the correcting rule of the floating guiding rule part is positioned on the floating frame, and the floating cylinder is used for controlling the floating frame to move along the left and right sides; through the design of the correcting ruler adopting the correcting device, the plate can be corrected while moving forwards on the conveying line, the effect of the subsequent edge milling processing procedure is ensured, and the working efficiency is not influenced.

Description

Automatic feeding device for double-end milling

Technical Field

The utility model relates to a bi-polar mills technical field, especially a bi-polar mills automatic feeding.

Background

The milling machine mainly refers to a machine tool for processing various surfaces of a workpiece by using a milling cutter, generally, the milling cutter mainly moves by rotation, the workpiece and the milling cutter move by feeding, and the milling machine can process planes, grooves and the like on a plate. Double-end milling machines are increasingly used because they can machine both sides of a plate.

When the double-end milling machine in the existing market mills the edge of the wood, the wood is usually fixed firstly and then cut by the milling cutter of the milling machine, which is not beneficial to matching with the automatic assembly line type feeding operation for production.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model provides an automatic feeding device is milled to bi-polar.

The utility model provides a technical scheme that its technical problem adopted is: the automatic feeding device for the double-end milling comprises a base, and a conveying line and a feeding device which are arranged on the base; the front side of the feeding device is provided with a correcting device, the correcting device comprises a fixed running rule part and a floating running rule part, the fixed running rule part and the floating running rule part are both provided with correcting rules, and the correcting rules are provided with correcting inclined surfaces and linear guide surfaces; the floating guiding rule part comprises a floating frame and a floating cylinder, the correcting rule of the floating guiding rule part is positioned on the floating frame, and the floating cylinder is used for controlling the floating frame to move along the left and right side directions.

According to the utility model provides a bi-polar mills automatic feeding through the design of the correction ruler that adopts correcting unit, makes panel can go forward the limit correction on the transmission line, has both guaranteed the effect of follow-up edge milling manufacturing procedure, does not influence work efficiency yet.

As some preferred embodiments of the utility model, material feeding unit is including folding work or material rest and ejector pad, the ejector pad with be provided with the ejector pad head between the frame, it is used for placing the panel of the state of having folded to fold the work or material rest, the ejector pad is used for the handle it pushes away to fold the panel of downside in the work or material rest on the transfer line, the ejector pad head is used for control the ejector pad is along the activity of front and back side direction.

As some preferred embodiments of the utility model, it is provided with the inclined guide board to fold the work or material rest rear side.

As some preferred embodiments of the utility model, it is provided with to fold the work or material rest left and right sides and fold material chuck cylinder.

As some preferred embodiments of the utility model, material feeding unit with be provided with auxiliary positioning device between the correcting unit, auxiliary positioning device is including fixed folder and activity folder, fixed folder be provided with the location splint on the activity folder respectively.

As some preferred embodiments of the present invention, the positioning clamping plate is provided with a correcting inclined clamping plate surface and a straight clamping plate surface.

As some preferred embodiments of the utility model, the activity folder is including activity clamp fixed plate, activity clamp fly leaf, activity clamp fixed plate set up activity clamp cylinder, activity clamp guide rail structure between the activity clamp fly leaf.

As some preferred embodiments of the utility model, the floating frame is including floating frame fixed plate, the frame fly leaf that floats, floating frame fixed plate with be provided with the pivot structure between the floating frame fly leaf, floating cylinder with floating frame fixed plate floating frame fly leaf is connected.

As some preferred embodiments of the utility model, the floating frame fixed plate is provided with the stopper between the floating frame fly leaf.

As some preferred embodiments of the present invention, the straight guide surface of the calibration ruler is provided with a long mounting hole for the calibration ruler.

The utility model has the advantages that:

1. the automatic correction of the plate is realized, and the precision effect of subsequent edge milling processing is ensured;

2. the whole correction process does not need to be suspended and fixed, so that the production efficiency can be effectively improved;

3. the plates can be stacked in the stacking rack in a centralized manner and then are sequentially sent out one by one, so that the operation is convenient;

4. the auxiliary positioning device can clamp and fix the plate and is used for processing the plate in the earlier stage;

5. the new design can better match the requirements of double-end milling.

Drawings

The present invention will be further described with reference to the accompanying drawings and examples.

Fig. 1 is a perspective view of the present invention;

FIG. 2 is a partial enlarged view of the present invention;

FIG. 3 is a schematic diagram of the operation of the present invention;

FIG. 4 is an enlarged view of a portion of the alignment device of the present invention;

FIG. 5 is a partial enlarged view of the middle push block of the present invention;

FIG. 6 is an enlarged view of a portion of the middle stack portion of the present invention;

fig. 7 is a partial enlarged view of the auxiliary positioning device of the present invention.

Reference numerals are as follows:

a machine base 100, a transmission line 110;

the device comprises a feeding device 200, a stacking frame 210, an inclined guide plate 211, a push block 220, a push block moving device 230, a stacking chuck 240 and a stacking chuck cylinder 241;

the device comprises a correction device 300, a fixed running rule part 310, a floating running rule part 320, a correction rule 330, a correction inclined plane 331, a linear guide surface 332, a correction rule long mounting hole 333, a floating frame 340, a floating frame fixing plate 341, a floating frame movable plate 342, a rotating shaft structure 343, a floating cylinder 350, a height adjusting device 360 and a limiter 370;

the auxiliary positioning device 400, a fixed clamp 410, a movable clamp 420, a movable clamp fixing plate 421, a movable clamp fixing plate extending end 422, a movable clamp movable plate 423, a movable clamp movable plate extending end 424, a movable clamp cylinder 425, a movable clamp guide rail structure 426, an extending plate 427, a positioning clamp plate 430, a correcting inclined clamp plate surface 431, a linear clamp plate surface 432 and a positioning clamp plate long-shaped mounting hole 433;

a panel 500.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. In the following description, certain specific details are set forth in order to provide a thorough understanding of the present invention. And in the absence of such specific details, the present invention may be implemented such that a person having ordinary skill in the art would more effectively introduce those skilled in the art to the essential elements of their work using the description and statements herein.

Furthermore, it should be noted that the terms "front side", "rear side", "left side", "right side", "upper side", "lower side", and the like used in the following description refer to directions in the drawings, and the terms "inner" and "outer" refer to directions toward and away from the geometric center of a specific part, respectively, and those skilled in the art should not understand that the technology beyond the scope of the present application is simply and innovatively adjustable in the directions.

It should be understood that the detailed description and specific examples, while indicating the scope of the invention, are intended for purposes of illustration only and are not intended to limit the scope of the invention. Well-known manufacturing methods, control procedures, component sizes, material compositions, pipe layouts, etc., are not described in detail since they are readily apparent from the art to avoid obscuring the present invention.

Fig. 1 is a perspective view of an embodiment of the present invention, and referring to fig. 1, an embodiment of the present invention provides an automatic double-end milling feeding device, which includes a machine base 100, and a conveying line 110 and a feeding device 200 on the machine base 100. The sheet material 500 is moved along the conveyor line 110 after exiting the feeder 200.

Further, referring to fig. 2 and 3, a correcting device 300 is disposed on the front side of the feeding device 200, and the correcting device 300 includes a fixed running rule portion 310 and a floating running rule portion 320, and is used for correcting the plate material 500 on the conveying line 110. The fixed guiding rule portion 310 and the floating guiding rule portion 320 are both provided with a correcting rule 330, and the correcting rule 330 is provided with a correcting inclined surface 331 and a straight line guide surface 332.

Still further, referring to fig. 4, the floating guiding rule portion 320 includes a floating frame 340 and a floating cylinder 350, the correcting rule 330 of the floating guiding rule portion 320 is located on the floating frame 340, and the floating cylinder 350 is used for controlling the floating frame 340 to move in the left-right direction.

In operation, sheet material 500 is advanced along conveyor line 110 after exiting from feeder 200. Once the sheet material 500 is skewed, the floating cylinder 350 of the floating guide portion 320 applies a suitable pressure to the sheet material 500 after reaching the position of the correcting device 300, both sides of the sheet material 500 are corrected along the correcting inclined surfaces 331 of the correcting rule 330, and then proceed through the position of the linear guide surfaces 332, thus completing the correction of the sheet material 500 on the conveying line 110.

What the above-mentioned disclosed automatic material feeding unit of bi-polar mill reveals is only the preferred embodiment of the present invention, only used for explaining the technical scheme of the present invention, and not to limit it. Reference will now be made in detail to the present embodiments, wherein "an embodiment" is defined to mean that a particular feature, structure, or characteristic may be included in at least one implementation of the present application.

In some embodiments, the conveying wire 110 moves the sheet material 500 from back to front.

In some embodiments, the conveyor line 110 includes a left and right feed belt section. The plate 500 is located between the left feeding belt part and the right feeding belt part and is driven to move by the conveyor belts on the left feeding belt part and the right feeding belt part. The distance between the left feeding belt part and the right feeding belt part can be adjusted according to the size of the plate 500.

In some embodiments, referring to fig. 5 and 6, the feeding device 200 includes a stacking rack 210 and a pushing block 220, a pushing block moving device 230 is disposed between the pushing block 220 and the machine base 100, the stacking rack 210 is used for placing the stacked plates 500, the pushing block 220 is used for pushing the lowermost plate 500 in the stacking rack 210 onto the conveying line 110, and the pushing block moving device 230 is used for controlling the pushing block 220 to move in the front-rear side direction.

In some embodiments, the stacking rack 210 is provided with an inclined guide plate 211 at the rear side thereof, so that the sheets 500 can be stacked from the lower side to the upper side sequentially along the inclined guide plate 211 entering the stacking rack 210.

In some embodiments, the stacking rack 210 is provided with stacking chucks 240 and stacking chuck cylinders 241 on the left and right sides, and the stacking chucks 241 control the stacking chucks 240 to move in the left and right directions to hold the sheet material 500.

In some embodiments, the push block 220 has a linear plate shape, and the push block 220 extends in the front-rear side direction. Thus, when the push block 220 pushes the lowermost plate material 500 forward, the upper plate material 500 is smoothly dropped to the rear position of the push block 220 and is not directly dropped to the conveying line 110. The lower plates 500 at the stacking rack 210 will not fall onto the conveyor line 110 until the push block 220 is reset to the rear side.

In some embodiments, a height adjusting device 360 is disposed on the correcting device 300 for adjusting the height of the correcting ruler 330. Thus, the height of the leveling ruler 330 can be adjusted according to the shape, size, etc. of the plate material 500. For example, when the plate is thick, the correction ruler 330 can be adjusted high accordingly, and so on.

In some embodiments, the floating frame 340 includes a floating frame fixing plate 341 and a floating frame moving plate 342, and a rotating shaft structure 343 is disposed between the floating frame fixing plate 341 and the floating frame moving plate 342, that is, the floating frame fixing plate 341 itself is fixed, and the floating frame moving plate 342 can rotate along the rotating shaft structure 343 in the left-right direction for fine adjustment. The floating cylinder 350 is connected with the floating frame fixing plate 341 and the floating frame moving plate 342, and the floating cylinder 350 is used for controlling the rotation fine adjustment of the floating frame moving plate 342. The design is more suitable for correcting the plate in the moving process.

In some embodiments, a limiter 370 is disposed between the floating frame fixing plate 341 and the floating frame moving plate 342 to limit the rotation range of the floating frame moving plate 342, so as to avoid damaging the plate 500.

In some embodiments, the linear guide surface 332 of the corrector 330 is provided with a corrector elongate mounting hole 333. The position of the calibration ruler 330 can be adjusted along the calibration ruler long installation hole 333 in the front-back direction.

In some embodiments, an auxiliary positioning device 400 is disposed between the feeding device 200 and the calibration device 300, and the auxiliary positioning device 400 is used for performing a pause travel fixing on the plate material 500. Referring to fig. 7, the auxiliary positioning device 400 includes a fixed clip 410 and a movable clip 420, and positioning clamping plates 430 are respectively disposed on the fixed clip 410 and the movable clip 420. The positioning jaws 430 of the fixed clip 410 are stationary while the positioning jaws 430 of the movable clip 420 are movable. The locating cleats 430 on both sides cooperate to clamp the sheet material 500 for prior machining (e.g., drilling) of the sheet material 500.

In some embodiments, the alignment cleat 430 has a set ramp cleat face 431 and a straight cleat face 432. The corrected inclined clamping plate surface 431 is used for guiding the plate 500, and the straight clamping plate surface 432 is used for clamping and fixing the plate 500, so that the plate 500 can be prevented from being clamped in a skew offset state, and the early-stage processing effect is ensured.

In some embodiments, the movable clamp 420 includes a movable clamp fixing plate 421 and a movable clamp moving plate 423, and a movable clamp cylinder 425 and a movable clamp rail structure 426 are disposed between the movable clamp fixing plate 421 and the movable clamp moving plate 423. The movable clamp cylinder 425 is used to control the movable clamp moving plate 423 to move along the movable clamp rail structure 426, and the movable clamp fixing plate 421 is fixed, so as to control the movable clamp fixing plate 421 and the positioning clamp plate 430 of the movable clamp moving plate 423.

In this embodiment, optionally, the movable clamp rail structure 426 guides and controls the movable clamp moving plate 423 to move in the left-right direction.

In some embodiments, the movable clip fixing plate 421 has a movable clip fixing plate extending end 422 extending forward, the movable clip movable plate 423 has a movable clip movable plate extending end 424 extending forward, and the movable clip cylinder 425 is connected between the movable clip fixing plate extending end 422 and the movable clip movable plate extending end 424, so that the whole activity is more compact, and the movable clip 420 can work more stably.

In some embodiments, the movable clamping plate 423 is provided with an extending plate 427 extending downward toward the conveying line 110, and the positioning clamp 430 of the movable clamping plate 423 is located under the extending plate 427, so as to ensure that the clamping position of the movable clamp 420 is closer to the lower side of the plate 500, and the friction between the plate 500 and the conveying line is reduced in the clamping state.

In some embodiments, the alignment ramp surface 431 of the alignment cleat 430 is provided with an alignment cleat elongated mounting hole 433. The position of the alignment clamp 430 can be adjusted along the alignment clamp elongated mounting hole 433 in the front-rear direction.

According to the above principle, the present invention can also make appropriate changes and modifications to the above embodiments. Therefore, the present invention is not limited to the specific embodiments disclosed and described above, and modifications and variations of the present invention are also intended to fall within the scope of the appended claims.

Claims

1. The utility model provides a bi-polar mills automatic feeding, includes frame (100) and conveying line (110) and material feeding unit (200) on frame (100), its characterized in that:

the front side of the feeding device (200) is provided with a correcting device (300), the correcting device (300) comprises a fixed running rule part (310) and a floating running rule part (320), correcting rules (330) are arranged on the fixed running rule part (310) and the floating running rule part (320), and a correcting inclined surface (331) and a linear guide surface (332) are arranged on each correcting rule (330);

the floating running rule part (320) comprises a floating frame (340) and a floating cylinder (350), the correcting rule (330) of the floating running rule part (320) is located on the floating frame (340), and the floating cylinder (350) is used for controlling the floating frame (340) to move along the left and right side directions.

2. The double end milling automatic feeding device of claim 1, characterized in that: the feeding device (200) comprises a stacking frame (210) and a pushing block (220), a pushing block moving device (230) is arranged between the pushing block (220) and the base (100), the stacking frame (210) is used for placing plates (500) in a stacked state, the pushing block (220) is used for pushing the plate (500) on the lowest side in the stacking frame (210) to the conveying line (110), and the pushing block moving device (230) is used for controlling the pushing block (220) to move along the front-back side direction.

3. The double end milling automatic feeding device as claimed in claim 2, wherein: an inclined guide plate (211) is arranged on the rear side of the material stacking frame (210).

4. The double end milling automatic feeding device of claim 2, characterized in that: the left side and the right side of the material stacking frame (210) are provided with a material stacking chuck (240) and a material stacking chuck cylinder (241).

5. The double end milling automatic feeding device as claimed in claim 1, wherein: an auxiliary positioning device (400) is arranged between the feeding device (200) and the correcting device (300), the auxiliary positioning device (400) comprises a fixed clamping piece (410) and a movable clamping piece (420), and positioning clamping plates (430) are respectively arranged on the fixed clamping piece (410) and the movable clamping piece (420).

6. The double end milling automatic feeding device of claim 5, characterized in that: the positioning clamping plate (430) is provided with a correcting inclined clamping plate surface (431) and a linear clamping plate surface (432).

7. The double end milling automatic feeding device as claimed in claim 5, wherein: the movable clamp (420) comprises a movable clamp fixing plate (421) and a movable clamp movable plate (423), and a movable clamp cylinder (425) and a movable clamp guide rail structure (426) are arranged between the movable clamp fixing plate (421) and the movable clamp movable plate (423).

8. The double end milling automatic feeding device as claimed in claim 1, wherein: the floating frame (340) comprises a floating frame fixing plate (341) and a floating frame movable plate (342), a rotating shaft structure (343) is arranged between the floating frame fixing plate (341) and the floating frame movable plate (342), and the floating cylinder (350) is connected with the floating frame fixing plate (341) and the floating frame movable plate (342).

9. The double end milling automatic feeding device of claim 8, characterized in that: and a limiter (370) is arranged between the floating frame fixing plate (341) and the floating frame movable plate (342).

10. The double end milling automatic feeding device as claimed in claim 1, wherein: and a long-shaped mounting hole (333) of the correcting ruler is formed in the linear guide surface (332) of the correcting ruler (330).