CN220613154U - Large-span plate edge milling device - Google Patents

Abstract

The utility model relates to a large-span plate edge milling device, which comprises: the device comprises a base and a pressing mechanism, wherein the pressing mechanism is arranged on the base and comprises a first pressing module and a second pressing module which are oppositely arranged, the first pressing module comprises a first main body and a plurality of first pressing pieces which are in sliding connection with the first main body, the pressing pieces are used for pressing one side of a plate, the second pressing module comprises a second main body and a plurality of second pressing pieces which are in sliding connection with the second main body, the second pressing pieces are used for pressing the other side of the plate, and the translation mechanism is connected with the first main body and the second main body and used for driving the first main body and the second main body to move; and a milling mechanism for milling the end edges of the sheet material. According to the utility model, the distance between the first pressing pieces and the distance between the second pressing pieces can be adjusted according to the lengths of the plates, so that the plates with different lengths can be stably fixed, the jumping of the plates is avoided, and the stability of edge milling operation is improved.

Description

Large-span plate edge milling device

Technical Field

The utility model relates to the technical field of special material processing, in particular to a large-span plate edge milling device.

Background

The plates generally need to be subjected to edge milling operation before welding so that the subsequent welding seams are tidy and firm.

For example, patent CN 203426511U provides a steel plate edge milling machine, including electric control system and host computer, the fuselage support body upper portion of host computer is provided with material feeding unit and guider, material feeding unit is including preceding swager roller and back swager roller, the guider is including a plurality of strip stock guide that set up side by side along the flitch direction of feed, preceding swager roller and back swager roller pass through transmission and are connected with the pay-off driving motor, the front portion of preceding swager roller is provided with the ejection of compact platform, the rear portion of back swager roller is provided with the material loading platform, fuselage support body both ends between preceding swager roller and the back swager roller are provided with milling device, milling device is including two pairs of milling unit heads that upper and lower dislocation subtend set up, connect the blade disc in the pivot of milling unit head, install the milling cutter on the blade disc.

But it has the following problems: for the ultra-long plate, when edge milling operation is carried out, the plate can jump, and further stability of the edge milling operation is affected.

Disclosure of Invention

In view of the above, the utility model provides a large-span plate edge milling device, which limits the runout of the plate and improves the stability of edge milling operation.

In order to achieve the above object, the present utility model provides a large-span plate edge milling device, comprising: the device comprises a base and a pressing mechanism, wherein the pressing mechanism is arranged on the base and comprises a first pressing module and a second pressing module which are oppositely arranged, the first pressing module comprises a first main body and a plurality of first pressing pieces which are in sliding connection with the first main body, the pressing pieces are used for pressing one side of a plate, the second pressing module comprises a second main body and a plurality of second pressing pieces which are in sliding connection with the second main body, the second pressing pieces are used for pressing the other side of the plate, and a translation mechanism is connected with the first main body and the second main body and used for driving the first main body and the second main body to move; and the milling mechanism is fixed on the first compression module or the second compression module and is used for milling the end edges of the plates.

Further, a first groove is formed in one face, facing the second body, of the first body, a first sliding rail is arranged on the inner wall of the first groove, a plurality of first pressing pieces are in sliding connection with the first sliding rail, and any one of the first pressing pieces can slide along the first sliding rail and stop at any position in the sliding stroke of the first pressing piece.

Further, the first pressing piece comprises a first slider, a first carrier plate, a first lower clamping plate, a first lifting oil cylinder and a first upper clamping plate, wherein the first slider is in sliding connection with the first sliding rail, one end of the first carrier plate is fixed with the first slider, the first lower clamping plate is fixed with the other end of the first carrier plate, the first lifting oil cylinder is fixed on the first carrier plate, the movable end of the first lifting oil cylinder is fixed with the first upper clamping plate, and the first upper clamping plate is driven to lift relative to the first lower clamping plate so as to fix one side of the plate.

Further, a second groove is formed in one face, facing the first body, of the second body, a second sliding rail is arranged on the inner wall of the second groove, a plurality of second pressing pieces are in sliding connection with the second sliding rail, and any second pressing piece can slide along the second sliding rail and stop at any position in the sliding stroke of the second pressing piece.

Further, the second compacting piece comprises a second slider, a second carrier plate, a second lower clamping plate, a second lifting oil cylinder and a second upper clamping plate, wherein the second slider is in sliding connection with the second sliding rail, one end of the second carrier plate is fixed with the second slider, the second lower clamping plate is fixed with the other end of the second carrier plate, the second lifting oil cylinder is fixed on the second carrier plate, the movable end of the second lifting oil cylinder is fixed with the second upper clamping plate, and the second upper clamping plate is driven to lift relative to the second lower clamping plate so as to fix the other side of the plate.

Further, a base groove is formed in the base, a sliding rail is formed in the bottom surface of the base groove, the first main body is in sliding connection with the second main body, the translation mechanism comprises a first translation oil cylinder and a second translation oil cylinder, the first translation oil cylinder is fixed on the inner wall of the groove, the movable end of the first translation oil cylinder is fixed with the first main body, the second translation oil cylinder is fixed on the inner wall of the groove, and the movable end of the second translation oil cylinder is fixed with the second main body.

Further, the milling mechanism comprises a position adjusting assembly, a milling motor and a milling disc, wherein the position adjusting assembly is fixed on the first main body or the second main body and is fixed with the milling motor, the position adjusting assembly can drive the milling motor to move in a plane where the plate is located, and the milling disc is fixed with a rotating end of the milling motor.

Further, the position adjustment assembly comprises a first horizontal sliding rail, a first horizontal carrier plate, a second horizontal sliding rail and a second horizontal sliding rail, wherein the first horizontal sliding rail is fixed on the surface of the first main body, which is close to the second main body, or the surface of the second main body, which is close to the first main body, along the horizontal sliding rail, the first horizontal sliding rail is in sliding connection with the first horizontal sliding rail, can slide along the first horizontal sliding rail and stop at any position in the sliding stroke of the first horizontal sliding rail, the first horizontal carrier plate is fixed on the first horizontal sliding rail, the second horizontal sliding rail is horizontally arranged on the first horizontal carrier plate and is perpendicular to the first horizontal sliding rail, the second horizontal sliding rail is in sliding connection with the second horizontal sliding rail, can slide along the second horizontal sliding rail and stop at any position in the sliding stroke of the second horizontal sliding rail, and the milling motor is fixed with the second horizontal sliding rail.

Further, both ends of the first horizontal sliding rail are protruded relative to the first sliding rail, so that the position adjusting assembly can move from one end of the plate to the other end of the plate along the first horizontal sliding rail.

Further, the milling disc is detachably connected with the rotating end of the milling motor.

Compared with the prior art, the large-span plate edge milling device provided by the utility model has the following beneficial effects:

the utility model is provided with a first compression module and a second compression module which are oppositely arranged, wherein the first compression module comprises a first main body and a plurality of first compression parts which are in sliding connection with the first main body, the second compression module comprises a second main body and a plurality of second compression parts which are in sliding connection with the second main body, the distance between the first compression parts and the distance between the second compression parts can be adjusted according to the length of a plate, the stable fixation of plates with different lengths is realized, the jumping of the plate in the edge milling process is avoided, and the stability of edge milling operation is improved.

Drawings

FIG. 1 is a schematic top view of a large span plate edge milling apparatus according to the present utility model;

FIG. 2 is a schematic cross-sectional view of FIG. 1 at the dashed line;

FIG. 3 is a schematic view of the first compression module of FIG. 1;

FIG. 4 is a schematic diagram of a second compressing module shown in FIG. 1;

FIG. 5 is a schematic view of the milling mechanism of FIG. 1;

in the figure: the milling machine comprises a base, a 2-pressing mechanism, a 21-first pressing module, 211-first main body, 211 a-first groove, 211 b-first slide rail, 212-first pressing piece, 212 a-first slider, 212 b-first carrier plate, 212 c-first lower clamp plate, 212 d-first lifting cylinder, 212 e-first upper clamp plate, 22-second pressing module, 221-second main body, 221 a-second groove, 221 b-second slide rail, 222-second pressing piece, 222 a-second slider, 222 b-second carrier plate, 222 c-second lower clamp plate, 222 d-second lifting cylinder, 222 e-second upper clamp plate, 3-translation mechanism, 31-first translation cylinder, 32-second translation cylinder, 4-milling mechanism, 41-position adjusting assembly, 411-first horizontal slide rail, 412-first horizontal slider, 413-first horizontal carrier plate, 414-second horizontal slide rail, 415-second horizontal slider, 42-second horizontal motor, and 43-milling disc.

Detailed Description

The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

Referring to fig. 1-4, the present utility model provides a large-span plate edge milling device, which includes: the device comprises a base 1, a pressing mechanism 2, a translation mechanism 3 and a milling mechanism 4, wherein the pressing mechanism 2 is arranged on the base 1 and comprises a first pressing module 21 and a second pressing module 22 which are oppositely arranged, the first pressing module 21 comprises a first main body 211 and a plurality of first pressing pieces 212 which are in sliding connection with the first main body 211, the pressing pieces 212 are used for pressing one side of a plate, the second pressing module 22 comprises a second main body 221 and a plurality of second pressing pieces 222 which are in sliding connection with the second main body 221, the second pressing pieces 212 are used for pressing the other side of the plate, and the translation mechanism 3 is connected to the first main body 211 and the second main body 221 and is used for driving the first main body 211 and the second main body 221 to move; the milling mechanism 4 is used for milling the end edges of the sheet material.

The utility model is provided with a first compression module 21 and a second compression module 22 which are oppositely arranged, wherein the first compression module 21 comprises a first main body 211 and a plurality of first compression members 212 which are in sliding connection with the first main body 211, the second compression module 22 comprises a second main body 221 and a plurality of second compression members 222 which are in sliding connection with the second main body 221, the distance between the first compression members 212 and the distance between the second compression members 222 can be adjusted according to the length of a plate, the stable fixation of plates with different lengths is realized, the condition that the plate is jumped in the edge milling process is avoided, and the stability of edge milling operation is improved.

Specifically, the base 1 is provided with a base groove, the first compression module 21 and the second compression module 22 are disposed in the base groove, so that the first compression module 21 and the second compression module 22 move, a sliding rail is provided on a bottom surface of the base groove, and the first main body 211 and the second main body 221 are slidably connected with the sliding rail.

Specifically, the first main body 211 is slidably connected with the sliding rail, a first groove 211a is formed on a surface of the first main body 211 facing the second main body 221, a first sliding rail 211b is disposed on an inner wall of the first groove 211a, a plurality of first pressing members 212 are slidably connected with the first sliding rail 211b, and any one of the first pressing members 212 can slide along the first sliding rail 211b and stop at any position in a sliding stroke thereof. The first pressing piece 212 slides along the first sliding rail 211b, so that the distance between the first pressing pieces 212 can be adjusted, stable fixing of boards with different lengths is achieved, the boards are prevented from jumping in the edge milling process, and stability of edge milling operation is improved.

Further, the first pressing member 212 includes a first slider 212a, a first carrier plate 212b, a first lower clamping plate 212c, a first lifting cylinder 212d, and a first upper clamping plate 212e, where the first slider 212a is slidably connected with the first sliding rail 211b, one end of the first carrier plate 212b is fixed to the first slider 212a, the first lower clamping plate 212c is fixed to the other end of the first carrier plate 212b, the first lifting cylinder 212d is fixed to the first carrier plate 212b, and a movable end of the first lifting cylinder 212d is fixed to the first upper clamping plate 212e, so as to drive the first upper clamping plate 212e to lift relative to the first lower clamping plate 212c, so as to fix one side of the board. However, when the plate needs to be fixed, the movable end of the first lifting cylinder 212d is extended, the distance between the first upper clamping plate 212e and the first lower clamping plate 212c is reduced, and the edge of one side of the plate is clamped, so that the plate is fixed.

Specifically, the second main body 221 is slidably connected with the sliding rail, a second groove 221a is formed on a surface of the second main body 221 facing the first main body 211, a second sliding rail 221b is disposed on an inner wall of the second groove 221a, a plurality of second pressing members 222 are slidably connected with the second sliding rail 221b, and any one of the second pressing members 222 can slide along the second sliding rail 221b and stop at any position in a sliding stroke thereof. The second pressing piece 222 slides along the second sliding rail 221b, so that the distance between the second pressing pieces 222 can be adjusted, stable fixing of boards with different lengths is achieved, the boards are prevented from jumping in the edge milling process, and stability of edge milling operation is improved.

Further, the second pressing member 222 includes a second slider 222a, a second carrier 222b, a second lower clamping plate 222c, a second lifting cylinder 222d, and a second upper clamping plate 222e, where the second slider 222a is slidably connected with the second sliding rail 221b, one end of the second carrier 222b is fixed to the second slider 222a, the second lower clamping plate 222c is fixed to the other end of the second carrier 222b, the second lifting cylinder 222d is fixed to the second carrier 222b, and a movable end of the second lifting cylinder 222d is fixed to the second upper clamping plate 222e to drive the second upper clamping plate 222e to lift relative to the second lower clamping plate 222c so as to fix the other side of the plate. However, when the plate needs to be fixed, the movable end of the second lifting cylinder 222d extends, the distance between the second upper clamping plate 222e and the second lower clamping plate 222c decreases, and the edge of the other side of the plate is clamped, so that the other side of the plate is fixed.

Specifically, the translation mechanism 3 includes a first translation cylinder 31 and a second translation cylinder 32, the first translation cylinder 31 is fixed on the inner wall of the groove, the movable end of the first translation cylinder 31 is fixed with the first main body 211, the second translation cylinder 32 is fixed on the inner wall of the groove, and the movable end of the second translation cylinder 32 is fixed with the second main body 221. The movable end of the first translation cylinder 31 and the movable end of the second translation cylinder 32 are extended and contracted, so as to push the first body 211 and the second body 221 to move. Thereby, the width between the first body 211 and the second body 221 can be adjusted according to the width of the plate, and the plate can be conveniently taken and placed.

Specifically, referring to fig. 3 and 5, the milling mechanism 4 includes a position adjusting assembly 41, a milling motor 42, and a milling disc 43, wherein the position adjusting assembly 41 is fixed on the first body 211 or the second body 221 and is fixed to the milling motor 42, the position adjusting assembly 41 can drive the milling motor 42 to move in a plane where a plate is located, and the milling disc 43 is fixed to a rotating end of the milling motor 42. When the milling machine is used, the position adjusting assembly 41 drives the milling motor 42 to be close to a plate, so that the milling disc 43 is attached to the edge of the plate, the rotating end of the milling motor 42 is milled, the milling disc 43 mills the edge of the plate, and the position adjusting assembly 41 drives the milling motor 42 to move along the edge of the plate to mill the edge of the plate.

Further, the position adjusting assembly 41 includes a first horizontal sliding rail 411, a first horizontal sliding rail 412, a first horizontal carrier 413, a second horizontal sliding rail 414, and a second horizontal sliding rail 415, where the first horizontal sliding rail 411 is fixed on a surface of the first main body 211 near the second main body 221 or on a surface of the second main body 221 near the first main body 211 along a horizontal direction, the first horizontal sliding rail 412 is slidably connected with the first horizontal sliding rail 411, and can slide along the first horizontal sliding rail 411 and stop at any position in a sliding stroke thereof, the first horizontal carrier 413 is fixed on the first horizontal sliding rail 412, the second horizontal sliding rail 414 is horizontally arranged on the first horizontal carrier 413 and perpendicular to the first horizontal sliding rail 411, the second horizontal sliding rail 415 is slidably connected with the second horizontal sliding rail 414, and can slide along the second horizontal sliding rail 414 and stop at any position in a sliding stroke thereof, and the motor 42 is fixed with the second horizontal sliding rail 415. In use, the first horizontal slider slides along the first horizontal rail 411 to enable the milling motor 42 to approach the plate and attach to the edge of the plate, and the second horizontal slider 415 slides along the second horizontal rail 414 to enable the milling motor 42 to move along the edge of the plate to mill the edge of the plate.

It should be noted that, both ends of the first horizontal sliding rail 411 protrude relative to the first sliding rail 211b, so that the position adjusting assembly 41 can move from one end of the plate to the other end of the plate along the first horizontal sliding rail 411. When in use, after one end of the plate is milled, the second pressing member 222 loosens the plate, the second main body 221 is driven by the second translating cylinder 32 to move away from the first main body 211, a space allowing the milling motor 42 to pass through is formed between the first main body 211 and the second main body 221, the first horizontal slider 412 slides along the first horizontal sliding rail 411, the milling motor 42 moves to the other end of the plate, the second translating cylinder 32 drives the second main body 221 to be close to the first main body 211, the second pressing member 222 clamps the plate again, and the milling motor 42 can start to mill the other end of the plate.

The milling disc 43 is detachably connected with the rotating end of the milling motor 42, so that the milling discs of different types can be replaced conveniently.

The utility model is provided with a first compression module and a second compression module which are oppositely arranged, wherein the first compression module comprises a first main body and a plurality of first compression parts which are in sliding connection with the first main body, the second compression module comprises a second main body and a plurality of second compression parts which are in sliding connection with the second main body, the distance between the first compression parts and the distance between the second compression parts can be adjusted according to the length of a plate, the stable fixation of plates with different lengths is realized, the jumping of the plate in the edge milling process is avoided, and the stability of edge milling operation is improved.

The above-described embodiments of the present utility model do not limit the scope of the present utility model. Any other corresponding changes and modifications made according to the technical idea of the present utility model shall be included in the protection scope of the present utility model.

Claims (10)

1. A large span sheet edge milling apparatus comprising:

a base, a base seat and a base seat,

the pressing mechanism is arranged on the base and comprises a first pressing module and a second pressing module which are oppositely arranged, the first pressing module comprises a first main body and a plurality of first pressing pieces which are in sliding connection with the first main body, the pressing pieces are used for pressing one side of a plate, the second pressing module comprises a second main body and a plurality of second pressing pieces which are in sliding connection with the second main body, the second pressing pieces are used for pressing the other side of the plate,

the translation mechanism is connected to the first main body and the second main body and is used for driving the first main body and the second main body to move;

and the milling mechanism is fixed on the first compression module or the second compression module and is used for milling the end edges of the plates.

2. The large-span sheet edge milling device of claim 1, wherein:

the first main body is provided with a first groove towards one surface of the second main body, the inner wall of the first groove is provided with a first sliding rail, a plurality of first pressing pieces are in sliding connection with the first sliding rail, and any one of the first pressing pieces can slide along the first sliding rail and stop at any position in the sliding stroke of the first pressing pieces.

3. The large-span sheet edge milling device of claim 2, wherein:

the first pressing piece comprises a first slider, a first carrier plate, a first lower clamping plate, a first lifting oil cylinder and a first upper clamping plate, wherein the first slider is in sliding connection with the first sliding rail, one end of the first carrier plate is fixed with the first slider, the first lower clamping plate is fixed with the other end of the first carrier plate, the first lifting oil cylinder is fixed on the first carrier plate, the movable end of the first lifting oil cylinder is fixed with the first upper clamping plate, and the first upper clamping plate is driven to lift relative to the first lower clamping plate so as to fix one side of a plate.

4. A large span sheet edge milling apparatus as claimed in claim 3 wherein:

the second main body is provided with a second groove towards one surface of the first main body, the inner wall of the second groove is provided with a second sliding rail, a plurality of second pressing pieces are in sliding connection with the second sliding rail, and any second pressing piece can slide along the second sliding rail and stop at any position in the sliding stroke of the second pressing piece.

5. The large-span sheet edge milling device of claim 4, wherein:

the second compacting piece comprises a second slider, a second carrier plate, a second lower clamping plate, a second lifting oil cylinder and a second upper clamping plate, wherein the second slider is in sliding connection with the second sliding rail, one end of the second carrier plate is fixed with the second slider, the second lower clamping plate is fixed with the other end of the second carrier plate, the second lifting oil cylinder is fixed on the second carrier plate, the movable end of the second lifting oil cylinder is fixed with the second upper clamping plate, and the second upper clamping plate is driven to lift relative to the second lower clamping plate so as to fix the other side of the plate.

6. The large-span sheet edge milling device of claim 5, wherein:

the base is provided with a base groove, the bottom surface of the base groove is provided with a sliding rail, the first main body is in sliding connection with the sliding rail, the translation mechanism comprises a first translation oil cylinder and a second translation oil cylinder, the first translation oil cylinder is fixed on the inner wall of the groove, the movable end of the first translation oil cylinder is fixed with the first main body, the second translation oil cylinder is fixed on the inner wall of the groove, and the movable end of the second translation oil cylinder is fixed with the second main body.

7. The large-span sheet edge milling device of claim 6, wherein:

the milling mechanism comprises a position adjusting assembly, a milling motor and a milling disc, wherein the position adjusting assembly is fixed on the first main body or the second main body and is fixed with the milling motor, the position adjusting assembly can drive the milling motor to move in a plane where a plate is located, and the milling disc is fixed with a rotating end of the milling motor.

8. The large-span sheet edge milling apparatus of claim 7, wherein:

the position adjusting assembly comprises a first horizontal sliding rail, a first horizontal carrier plate, a second horizontal sliding rail and a second horizontal sliding rail, wherein the first horizontal sliding rail is fixed on the surface of the first main body, which is close to the second main body, or the surface of the second main body, which is close to the first main body, along the horizontal direction, the first horizontal sliding rail is in sliding connection with the first horizontal sliding rail, can slide along the first horizontal sliding rail and stop at any position in the sliding stroke of the first horizontal sliding rail, the first horizontal carrier plate is fixed on the first horizontal sliding rail, the second horizontal sliding rail is horizontally arranged on the first horizontal carrier plate and is perpendicular to the first horizontal sliding rail, the second horizontal sliding rail is in sliding connection with the second horizontal sliding rail, can slide along the second horizontal sliding rail and stop at any position in the sliding stroke of the second horizontal sliding rail, and the milling motor is fixed with the second horizontal sliding rail.

9. The large-span sheet edge milling device of claim 8, wherein:

both ends of the first horizontal sliding rail are protruded relative to the first sliding rail, so that the position adjusting assembly can move from one end of the plate to the other end of the plate along the first horizontal sliding rail.

10. The large-span sheet edge milling apparatus of claim 7, wherein:

the milling disc is detachably connected with the rotating end of the milling motor.