CN223383633U - Composite plate processing mold - Google Patents

Abstract

The present invention relates to the technical field of plate processing, and in particular to a composite plate processing mold, comprising a base frame, at least two side plates connected to the base frame, a limit plate hinged to the base frame, a positioning plate connected to the base frame and located on the other side of the side plate, a rotation drive mechanism and a chamfering mechanism for driving the limit plate to rotate, wherein an accommodating space for positioning the side of the plate to be processed is provided between the side plates; when the plate to be processed is chamfered, the plate to be processed is placed in the accommodating space, and the rotation drive mechanism drives the limit plate to rotate so that the two ends of the plate to be processed respectively abut the limit plate and the positioning plate, and the chamfering mechanism enables the plate to be processed to be chamfered at one end close to the positioning plate; the present invention is conducive to quickly processing chamfers, reducing processing errors, facilitating stable processing quality, ensuring processing accuracy, and improving production efficiency.

Description

Composite board processing die

Technical Field

The utility model relates to the technical field of plate processing, in particular to a composite plate processing die.

Background

The wood composite board, namely the wood composite board, adopts wood shavings and fiber materials as board cores, and the upper and lower surfaces of the wood composite board are glued and laminated with the artificial board structure of the veneer, and in the normal case, the upper and lower surfaces of the wood composite board are glued and laminated with a plurality of wood layers made of different materials for multi-level compounding, so that different requirements on thickness or hardness are realized, and the cost of production materials is reduced.

The composite board is of a multi-layer stacked structure, and the chamfer is cut at the edge and then is subjected to edge wrapping treatment, so that the edge of the composite board is covered conveniently, the edge of the composite board can be effectively protected, and the service life of the composite board is prolonged.

However, at present, the composite board is generally subjected to chamfering operation manually, machining errors caused by artificial factors are easy to generate, machining quality is inconvenient to stabilize, machining precision is difficult to guarantee, and production efficiency is influenced.

Disclosure of utility model

Aiming at the defects of the prior art, the utility model provides the composite board processing die, reduces the artificial factors, is beneficial to quickly processing chamfer angles, reduces processing errors, is convenient for stabilizing processing quality, ensures processing precision and improves production efficiency.

In order to solve the technical problems, the utility model adopts the following technical scheme:

The utility model provides a composite board processing die which comprises a bottom frame, at least two side plates connected to the bottom frame, a limiting plate hinged to the bottom frame, a positioning plate connected to the bottom frame and positioned at the other side of the side plates, a rotation driving mechanism for driving the limiting plate to rotate and a chamfering mechanism, wherein an accommodating space for positioning the side face of a board to be processed is arranged between the side plates;

When the chamfering mechanism processes the chamfer on the plate to be processed, the plate to be processed is placed in the accommodating space, and the rotation driving mechanism drives the limiting plate to rotate, so that two ends of the plate to be processed are respectively abutted to the limiting plate and the positioning plate, and the chamfering mechanism processes the chamfer on one end, close to the positioning plate, of the plate to be processed.

The chassis is connected with the backup pad, the backup pad is located the bottom of accommodation space, when rotation actuating mechanism drives the free end of limiting plate to the direction of keeping away from the curb plate and remove to required position, the upper surface of limiting plate current state flushes with the top surface of backup pad.

The chamfering mechanism comprises a chamfering lifting module and a chamfering cutter in driving connection with the chamfering lifting module, and when two ends of the board to be processed are respectively abutted to the limiting plate and the positioning plate, the chamfering lifting module drives the chamfering cutter to move downwards from top to bottom so that the board to be processed is processed to form a chamfer.

The chassis is connected with a longitudinal sliding rail, the longitudinal sliding rail is connected with a sliding frame in a sliding manner, the sliding frame is provided with at least two connecting arms, the output end of the chamfering lifting module is connected with a sliding frame in a driving manner, one end of each connecting arm is connected with a chamfering cutter, the chamfering lifting module drives the sliding frame to synchronously drive the chamfering cutters to move up and down along the longitudinal sliding rail in the moving process, and when a to-be-processed plate is processed to be chamfered, waste on the to-be-processed plate is located in a space surrounded by the chamfering cutters, the locating plate and the connecting arms.

Wherein, the one end of backup pad is connected with the brace table, the brace table flushes with the top surface of backup pad, the brace table is provided with the grooving, grooving and chamfer sword cooperation, the bottom of chamfer sword stretches into the grooving when waiting to handle panel by processing out the chamfer.

Wherein, the both sides of supporting bench all are connected with ejection of compact platform, ejection of compact platform flushes with the top surface of supporting bench.

The top ends of the side plates are connected with a first top frame, the first top frame is connected with a first linear module, the front end of the first linear module is connected with a first pressing plate, and after two ends of a plate to be processed are abutted to a limiting plate and a positioning plate, the first linear module drives the first pressing plate to press the top of the plate to be processed;

The utility model discloses a waste material treatment device, including chassis, curb plate, first roof-rack, second roof-rack is connected with the first straight line module, the front end of second straight line module is connected with the second clamp plate, wait to handle after panel both ends butt limiting plate and the locating plate, the second straight line module drives the second clamp plate and compresses tightly the top with the waste material corresponding position in the panel of waiting to handle.

The second top frame is provided with a storage space, the chamfering lifting module drives the sliding frame to move in the process that the sliding frame penetrates through the storage space, and the sliding frame is separated from the locating plate and is staggered with the second linear module when the sliding frame moves upwards to a required position.

The rotation driving mechanism is a linear cylinder, two ends of the linear cylinder are hinged to the underframe and the limiting plate respectively, the limiting plate abuts against one end face of the plate to be processed when the linear cylinder is in an extension state, and the upper surface of the limiting plate in the current state is flush with the top surface of the supporting plate when the linear cylinder is in a contraction state.

The utility model has the beneficial effects that:

When practical application, when needs wait to handle panel processing chamfer, will wait to handle panel and place in the accommodation space, rotation actuating mechanism drives the limiting plate and rotates for the both ends of waiting to handle panel butt limiting plate and locating plate respectively, the horizontal migration of waiting to handle panel is restricted, improves the processing stability, then adopts chamfering mechanism makes the one end that wait to handle panel and be close to the locating plate process out the chamfer, reduces the factor of labor, reduces machining error, does benefit to and processes out the chamfer fast, is convenient for stabilize processingquality, guarantees machining precision, promotes production efficiency.

Drawings

Fig. 1 is a schematic perspective view of a composite board processing mold.

Fig. 2 is a structural cross-sectional view of the present composite board processing mold.

Fig. 3 is a partial structural cross-sectional view of the present composite board tooling mold.

Fig. 4 is a schematic view of a partial perspective view of a chamfering mechanism.

Fig. 5 is a schematic view of the structure of the plate to be processed before chamfering.

FIG. 6 is an exploded view of a side plate, limiting plate, scrap, chamfering tool and locating plate after chamfering the board to be processed.

Fig. 7 is a perspective view of a chamfering lift module, a longitudinal rail, a carriage and a chamfering blade.

Fig. 8 is a schematic view of a partial perspective structure with a support plate, a support table and a discharge table.

Fig. 9 is a schematic diagram of a connection structure between the side plate and the first top frame and the first pressing plate.

Fig. 10 is a schematic diagram of a connection structure of the side plate, the second top frame and the second pressing plate.

Fig. 11 is a perspective view of a second linear module, including a second top frame, a storage space, a carriage, and a second linear module.

Fig. 12 is a schematic diagram of a connection structure of the rotation driving mechanism with the chassis and the limiting plate.

1. A chassis; 2, a side plate, 3, a limiting plate, 4, a positioning plate;

5. A rotation driving mechanism;

6. chamfering mechanism; 61, a chamfering lifting module 62, a chamfering cutter;

7. 8, a supporting plate;

9. The device comprises a longitudinal sliding rail, a sliding frame, 1001 and a connecting arm;

11. 1101, grooving;

12. A discharging table;

13. A first top frame; 14, a first linear module, 15, a first pressing plate;

16. The second top frame, 17, the second linear module, 18, the second pressing plate;

19. and a storage space.

Detailed Description

In order to facilitate understanding of those skilled in the art, the present invention will be further described below with reference to examples and drawings, and it should be noted that during the course of the detailed description of these embodiments, it is not possible to describe all features of the actual embodiments in detail in this specification for the sake of brevity.

Referring to fig. 1 to 12, the utility model provides a composite board processing die, which comprises a bottom frame 1, two side plates 2 connected to the bottom frame 1, a limiting plate 3 hinged to the bottom frame 1, a positioning plate 4 connected to the bottom frame 1 and positioned at the other side of the side plates 2, a rotation driving mechanism 5 and a chamfering mechanism 6, wherein a containing space 7 for positioning the side surface of a board to be processed is arranged between the side plates 2, in actual application, the board to be processed is a composite board, when the board to be processed is required to be processed to process a chamfer, the board to be processed is placed in the containing space 7, the rotation driving mechanism 5 drives the limiting plate 3 to rotate, so that two ends of the board to be processed are respectively abutted to the limiting plate 3 and the positioning plate 4, the horizontal movement of the board to be processed is limited, the processing stability is improved, then the chamfering mechanism 6 is adopted to enable one end of the board to be processed close to the positioning plate 4 to process the chamfer, the artifacts are reduced, the chamfer is reduced, the processing quality is facilitated to be stabilized, the processing precision is ensured, and the production efficiency is improved.

In this embodiment, as shown in fig. 2, the chassis 1 is connected with the supporting plate 8, the supporting plate 8 is located at the bottom of the accommodating space 7, as shown in fig. 3, when the rotation driving mechanism 5 drives the free end of the limiting plate 3 to move to a desired position in a direction away from the side plates 2, the upper surface of the current state of the limiting plate 3 is flush with the top surface of the supporting plate 8, the board to be treated smoothly slides into the top surface of the supporting plate 8 along the upper surface of the limiting plate 3, the board to be treated can stably move between the two side plates 2, the carrying time of the board to be treated is saved, and the abrasion and scratch in the movement of the board to be treated are reduced, which is beneficial to protecting the board to be treated.

Referring to fig. 4, 5 and 6, in this embodiment, the chamfering mechanism 6 includes a chamfering lifting module 61 and a chamfering blade 62 in driving connection with the chamfering lifting module 61, when two ends of the board to be processed respectively abut against the limiting plate 3 and the positioning plate 4, the chamfering lifting module 61 drives the chamfering blade 62 to move from top to bottom, so that the board to be processed processes a chamfer, and in practical application, the chamfering lifting module 61 adopts a screw motor module, an oil cylinder or an oil cylinder to automatically drive the chamfering blade 62 to move, so that a chamfer can be processed smoothly and rapidly, and the chamfering processing efficiency is improved.

Referring to fig. 7, in this embodiment, the chassis 1 is connected with a longitudinal sliding rail 9, the longitudinal sliding rail 9 is slidably connected with a carriage 10, the carriage 10 is provided with at least two connecting arms 1001, an output end of the chamfer lifting module 61 is in driving connection with the carriage 10, one end of the connecting arm 1001 is connected with a chamfer cutter 62, the chamfer lifting module 61 drives the carriage 10 to move up and down synchronously in the process of moving along the longitudinal sliding rail 9, referring to fig. 6 and 7, when the to-be-processed board is processed into a chamfer, waste on the to-be-processed board is located in a space surrounded by the chamfer cutter 62, the positioning plate 4 and the connecting arm 1001, after the to-be-processed board is processed into a chamfer, the waste is temporarily limited in the space surrounded by the chamfer cutter 62, the positioning plate 4 and the connecting arm 1001, so that the waste is prevented from directly falling down after the chamfer is finished, the waste can stay at the current position until an auxiliary tool or a manual waste is taken out, the collection time of the waste is convenient to control, after the chamfer is processed, the to-be-processed board is taken out, and then the to-be-processed board is subjected to edge covering treatment, and the board is processed into a composite edge, thereby the board is smoothly covered, and the purpose of covering the composite edge is achieved.

Referring to fig. 8, in this embodiment, one end of the supporting plate 8 is connected with a supporting table 11, the supporting table 11 is flush with the top surface of the supporting plate 8, the supporting table 11 is provided with a notch 1101, the notch 1101 is matched with a chamfering tool 62, and when the to-be-processed plate is processed to be chamfered, the bottom end of the chamfering tool 62 extends into the notch 1101, so that the to-be-processed plate is cut off conveniently.

In the embodiment shown in fig. 8, two sides of the supporting table 11 are connected with the discharging table 12, the discharging table 12 is flush with the top surface of the supporting table 11, and when the chamfering of the board to be processed is finished in practical application, the chamfering lifting module 61 drives the chamfering knife 62 to be separated from the positioning plate 4 upwards, so that the waste is smoothly moved out along the discharging table 12, the processing waste of the board to be processed is conveniently pushed out, no residual waste exists between the discharging table 12 and the supporting table 11, and the chamfering processing environment can be cleaned rapidly.

Referring to fig. 9, in this embodiment, a first top frame 13 is connected between the top ends of the side plates 2, the first top frame 13 is connected with a first linear module 14, the first linear module 14 adopts an oil cylinder or an electric cylinder, the front end of the first linear module 14 is connected with a first pressing plate 15, and after two ends of the to-be-processed plate abut against the limiting plate 3 and the positioning plate 4, the first linear module 14 drives the first pressing plate 15 to press the top of the to-be-processed plate; referring to fig. 4 and 10, a second top frame 16 is connected between the bottom frame 1 and the side plate 2, the second top frame 16 is connected with a second linear module 17, the second linear module 17 adopts an oil cylinder or an electric cylinder, the front end of the second linear module 17 is connected with a second pressing plate 18, after two ends of the plate to be processed are abutted to the limiting plate 3 and the positioning plate 4, the second linear module 17 drives the second pressing plate 18 to press the top of the plate to be processed, which corresponds to the waste, so that the plate to be processed and the expected waste can be pressed and positioned, the whole up-and-down movement of the plate to be processed is limited, the plate to be processed is prevented from generating local warping before and after chamfering, and the chamfering precision is improved.

In this embodiment, as shown in fig. 11, the second top frame 16 is provided with a storage space 19, the carriage 10 is penetrated in the storage space 19 when the carriage 10 is driven to move by the chamfer lifting module 61, the carriage 10 is separated from the positioning plate 4 and the carriage 10 and the second linear module 17 are staggered when the carriage 10 moves up to a required position, as shown in fig. 10, in actual application, when the carriage 10 moves up to the required position after chamfering, the carriage 10 is separated from the positioning plate 4 and the carriage 10 and the second linear module 17 are staggered, normal use of the second linear module 17 is not affected, the structure arrangement is compact, space occupation is saved, as shown in fig. 6 and 11, and in addition, shielding of waste materials by the connecting arm 1001 when the carriage 10 is separated from the positioning plate 4 is eliminated, the waste materials of the board to be processed can move smoothly, and the waste materials are taken out.

In this embodiment, as shown in fig. 12, the rotation driving mechanism 5 is a linear cylinder, two ends of the linear cylinder are respectively hinged to the chassis 1 and the limiting plate 3, when the linear cylinder is in an extended state, the limiting plate 3 abuts against one end face of the board to be processed, so that the board to be processed is positioned conveniently, the horizontal movement of the board to be processed is accurately limited by the side plate 2 and the limiting plate 3, and the board to be processed is positioned accurately.

While the utility model has been described with reference to the preferred embodiments, it will be understood by those skilled in the art that the present utility model is not limited thereto, and that the utility model is not limited thereto, but is intended to be limited thereto, when the technical content disclosed above is utilized to make a little change or modification into equivalent embodiments of equivalent changes, but the technical content of the utility model is not deviated from, any simple modification, equivalent changes and modification of the above embodiments are all within the scope of the technical solution of the utility model.

Claims (7)

1. The composite board processing die is characterized by comprising a bottom frame (1), at least two side plates (2) connected to the bottom frame (1), a limiting plate (3) hinged to the bottom frame (1), a positioning plate (4) connected to the bottom frame (1) and positioned at the other side of the side plates (2), a rotation driving mechanism (5) for driving the limiting plate (3) to rotate and a chamfering mechanism (6), wherein a containing space (7) for positioning the side face of a board to be processed is arranged between the side plates (2);

The underframe (1) is connected with a supporting plate (8), the supporting plate (8) is positioned at the bottom of the accommodating space (7), and the rotating driving mechanism (5) drives the free end of the limiting plate (3) to move to a required position in a direction away from the side plate (2), when the upper surface of the current state of the limiting plate (3) is flush with the top surface of the supporting plate (8);

The rotary driving mechanism (5) is a linear cylinder, two ends of the linear cylinder are respectively hinged with the underframe (1) and the limiting plate (3), the limiting plate (3) abuts against one end face of the plate to be treated when the linear cylinder is in an extension state, and the upper surface of the limiting plate (3) in the current state is flush with the top surface of the supporting plate (8) when the linear cylinder is in a contraction state.

2. The composite board processing die according to claim 1, wherein the chamfering mechanism (6) comprises a chamfering lifting module (61) and a chamfering cutter (62) in driving connection with the chamfering lifting module (61), and when two ends of the board to be processed are respectively abutted against the limiting plate (3) and the positioning plate (4), the chamfering lifting module (61) drives the chamfering cutter (62) to move downwards from top to bottom so that the board to be processed is processed into a chamfer.

3. The composite board processing die according to claim 2, wherein the underframe (1) is connected with a longitudinal sliding rail (9), the longitudinal sliding rail (9) is connected with a sliding frame (10) in a sliding manner, the sliding frame (10) is provided with at least two connecting arms (1001), the output end of the chamfering lifting module (61) is in driving connection with the sliding frame (10), one end of the connecting arm (1001) is connected with a chamfering cutter (62), the chamfering lifting module (61) drives the sliding frame (10) to synchronously drive the chamfering cutter (62) to move up and down along the moving process of the longitudinal sliding rail (9), and when the board to be processed is processed into a chamfer, waste on the board to be processed is located in a space surrounded by the chamfering cutter (62), the positioning plate (4) and the connecting arm (1001).

4. The composite board processing die according to claim 2, wherein one end of the supporting board (8) is connected with a supporting table (11), the supporting table (11) is flush with the top surface of the supporting board (8), the supporting table (11) is provided with a cutting groove (1101), the cutting groove (1101) is matched with a chamfering tool (62), and the bottom end of the chamfering tool (62) stretches into the cutting groove (1101) when the board to be processed is processed to be chamfered.

5. The composite board processing mold according to claim 4, wherein both sides of the supporting table (11) are connected with a discharging table (12), and the discharging table (12) is flush with the top surface of the supporting table (11).

6. The composite board processing die according to claim 3, wherein a first top frame (13) is connected between the top ends of the side boards (2), the first top frame (13) is connected with a first linear module (14), the front end of the first linear module (14) is connected with a first pressing plate (15), and after two ends of the board to be processed are abutted against the limiting board (3) and the positioning board (4), the first linear module (14) drives the first pressing plate (15) to press the top of the board to be processed;

The novel waste material treatment device is characterized in that a second top frame (16) is connected between the bottom frame (1) and the side plates (2), the second top frame (16) is connected with a second linear module (17), the front end of the second linear module (17) is connected with a second pressing plate (18), and after two ends of a to-be-treated plate are abutted to the limiting plates (3) and the positioning plates (4), the second linear module (17) drives the second pressing plate (18) to press the top of the to-be-treated plate, which corresponds to the waste material.

7. The composite board processing mold according to claim 6, wherein the second top frame (16) is provided with a storage space (19), the carriage (10) is penetrated in the storage space (19) in the process that the carriage (10) is driven by the chamfering lifting module (61) to move, and when the carriage (10) moves upwards to a required position, the carriage (10) is separated from the positioning plate (4) and the carriage (10) and the second linear module (17) are arranged in a staggered manner.