CN212733747U - Continuous die for processing vehicle headrest - Google Patents

Abstract

The invention discloses a continuous die for processing a vehicle headrest, which comprises a frame, a collecting box, a bottom plate, a supporting table, a slide rail, a pulling claw, a die table, a mounting plate, a first cylinder, a pressing block, a second cylinder, a punching cutter and a headrest framework, wherein the collecting box is arranged on the frame; the frame, the collecting box and the supporting platform are all arranged on the bottom plate; the slide rail is arranged on the support platform; the headrest framework is arranged on the sliding rail in a sliding manner; a moving mechanism for pushing the headrest framework to move is arranged on the support table; a conveying belt mechanism for driving the headrest framework to move is arranged on the rack; the die table and the mounting plate are both arranged on the frame; the conveying belt is arranged on the die table in a sliding manner; a plurality of pulling claws are uniformly arranged on the conveying belt. According to the headrest framework collection box, the headrest framework is conveyed to the die table through the conveying belt mechanism, the headrest is compressed through the compression block, the clamping groove is punched in the headrest framework through the punching knife, and the headrest framework is conveyed into the collection box through the conveying belt mechanism after punching is completed.

Description

Continuous die for processing vehicle headrest

Technical Field

The invention relates to the technical field of mold processing equipment, in particular to a continuous mold for processing a vehicle headrest.

Background

The automobile headrest is a driving comfort configuration article and a safety protection article; the method mainly comprises two main categories, namely non-adjustable category and adjustable category; the headrest framework of the adjustable headrest is provided with a clamping groove, and the position where the clamping groove is clamped is changed during adjustment, so that the extending length of the headrest is adjusted.

And prior art is to the draw-in groove processing on the headrest skeleton, generally is to take the headrest skeleton to the punch press through the manual work on processing, machining efficiency is low.

Disclosure of Invention

Objects of the invention

In order to solve the technical problems in the background art, the invention provides a continuous die for processing a headrest of a vehicle, a headrest framework is conveyed to a die table through a conveyer belt mechanism, the headrest is pressed by a pressing block, a clamping groove is punched on the headrest framework by a punching tool, and the headrest framework is conveyed to a collecting box by the conveyer belt mechanism after punching is finished; the production efficiency is improved and the continuous processing can be realized.

(II) technical scheme

The invention provides a continuous die for processing a vehicle headrest, which comprises a frame, a collecting box, a bottom plate, a supporting table, a sliding rail, a pulling claw, a die table, a mounting plate, a first cylinder, a pressing block, a second cylinder, a punching cutter and a headrest framework, wherein the frame is provided with a plurality of grooves;

the frame, the collecting box and the supporting platform are all arranged on the bottom plate; the slide rail is arranged on the support platform; the headrest framework is arranged on the sliding rail in a sliding manner; a moving mechanism for pushing the headrest framework to move is arranged on the support table; a conveying belt mechanism for driving the headrest framework to move is arranged on the rack; the conveying belt mechanism comprises a second motor, a driving belt wheel, a conveying belt, a first driven belt wheel and a second driven belt wheel; the second motor is arranged on the frame, and the output end of the second motor is connected with the driving belt wheel; the driving belt wheel, the first driven belt wheel and the second driven belt wheel are rotatably arranged on the rack and are in driving connection through the conveying belt; the die table and the mounting plate are both arranged on the frame; the conveying belt is arranged on the die table in a sliding manner; a plurality of pulling claws are uniformly arranged on the conveying belt; the first air cylinder is arranged on the mounting plate, and the output end of the first air cylinder is connected with the pressing block; the pressing block is positioned above the die table; the second cylinder is arranged on the pressing block, and the output end of the second cylinder is connected with the punching knife.

Preferably, the moving mechanism comprises a first motor, a screw rod and a pushing block; the first motor is arranged on the support table, and the output end of the first motor is connected with the screw rod; the pushing block is arranged on the screw rod and the sliding rail in a sliding manner and is in threaded connection with the screw rod; the headrest framework is arranged on the screw rod and the slide rail in a sliding manner; the pushing block is abutted against the headrest framework.

Preferably, the first motor and the second motor are both stepping motors; the first motor is electrically connected with the second motor.

Preferably, the die table is provided with a die groove, a limiting plate and a conveying groove; two limiting plates are symmetrically arranged on two sides of the die table; the conveying belt is arranged in the conveying groove in a sliding manner; the headrest framework is embedded into the die groove and is in sliding connection with the die table.

Preferably, the headrest framework is of a U-shaped structure, and the mold groove is identical to the headrest framework in structure.

Preferably, the pressing block is provided with a pressing groove, a sliding groove and a punching tool holder; the output end of the second cylinder is connected with the punching tool rest; the punching knife rest is arranged in the sliding groove in a sliding manner; the stamping knives are arranged in parallel and are all arranged on the stamping knife rest.

Preferably, a baffle is arranged on the frame; two baffles are arranged; the headrest framework is positioned between the two baffles.

Compared with the prior art, the technical scheme of the invention has the following beneficial technical effects:

in the invention, a second motor drives a driving belt wheel to rotate, and the driving belt wheel, a first driven belt wheel and a second driven belt wheel are connected through a conveying belt; the headrest framework is driven to move above the die table by the pull claw, the second motor is stopped, and the headrest framework stays on the die table; starting a first air cylinder, driving a pressing block to move downwards, pressing the headrest framework by the pressing block, starting a second air cylinder, driving a punching knife to move by the second air cylinder, punching the headrest framework by the punching knife, and punching out a clamping groove; after stamping is finished, the first air cylinder and the second air cylinder respectively drive the pressing block and the stamping knife to move upwards, the second motor is started, the conveying belt drives the pull claw to move, the pull claw drives the headrest framework to move, and when the headrest framework moves to the position above the collecting box, the headrest framework falls into the collecting box to finish collecting; conveying the headrest framework to a die table through a conveying belt mechanism, pressing the headrest framework tightly through a pressing block, punching a clamping groove in the headrest framework through a punching knife, and conveying the headrest framework into a collecting box through the conveying belt mechanism after punching is finished; the production efficiency is improved and the continuous processing can be realized.

Drawings

Fig. 1 is a schematic structural view of a continuous mold for manufacturing a headrest for vehicles according to the present invention.

Fig. 2 is a structural plan view of a continuous mold for manufacturing a headrest for vehicles according to the present invention.

Fig. 3 is a schematic structural diagram of a mold table in a continuous mold for processing a headrest for vehicles according to the present invention.

Fig. 4 is a structural sectional view of a mold table in a continuous mold for manufacturing a headrest for vehicles according to the present invention.

Fig. 5 is a schematic structural diagram of a headrest framework in a continuous mold for processing a headrest of a vehicle according to the present invention.

Reference numerals: 1. a frame; 101. a baffle plate; 2. a collection box; 3. a base plate; 301. a support table; 302. a slide rail; 4. a moving mechanism; 401. a first motor; 402. a screw rod; 403. a pushing block; 5. a conveyor belt mechanism; 501. a second motor; 502. a driving pulley; 503. a conveyor belt; 504. a first driven pulley; 505. a second driven pulley; 6. pulling a claw; 7. a mold table; 701. a mold slot; 702. a limiting plate; 703. a conveying trough; 8. mounting a plate; 9. a first cylinder; 10. a compression block; 1001. pressing a groove; 1002. a sliding groove; 11. a second cylinder; 12. a punching tool holder; 1201. punching a cutter; 13. a headrest framework.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings in conjunction with the following detailed description. It should be understood that the description is intended to be exemplary only, and is not intended to limit the scope of the present invention. Moreover, in the following description, descriptions of well-known structures and techniques are omitted so as to not unnecessarily obscure the concepts of the present invention.

As shown in fig. 1 to 5, the continuous die for processing the headrest of the vehicle, provided by the invention, comprises a frame 1, a collection box 2, a bottom plate 3, a support table 301, a slide rail 302, a pull claw 6, a die table 7, a mounting plate 8, a first cylinder 9, a pressing block 10, a second cylinder 11, a punching knife 1201 and a headrest framework 13;

the frame 1, the collection box 2 and the support platform 301 are all arranged on the bottom plate 3; the slide rail 302 is arranged on the support platform 301; the headrest framework 13 is arranged on the slide rail 302 in a sliding manner; the support table 301 is provided with a moving mechanism 4 for pushing the headrest framework 13 to move; a conveyer belt mechanism 5 for driving the headrest framework 13 to move is arranged on the frame 1; the conveyor belt mechanism 5 includes a second motor 501, a driving pulley 502, a conveyor belt 503, a first driven pulley 504, and a second driven pulley 505; the second motor 501 is arranged on the frame 1, and the output end of the second motor 501 is connected with the driving belt wheel 502; the driving pulley 502, the first driven pulley 504 and the second driven pulley 505 are rotatably arranged on the frame 1, and the driving pulley 502, the first driven pulley 504 and the second driven pulley 505 are in driving connection through the conveyer belt 503; the die table 7 and the mounting plate 8 are both arranged on the frame 1; the conveying belt 503 is arranged on the mould table 7 in a sliding way; a plurality of pulling claws 6 are uniformly arranged on the conveying belt 503; the first air cylinder 9 is arranged on the mounting plate 8, and the output end of the first air cylinder 9 is connected with the pressing block 10; the compaction block 10 is positioned above the die table 7; the second cylinder 11 is arranged on the pressing block 10, and the output end of the second cylinder 11 is connected with the punching knife 1201.

In an alternative embodiment, the moving mechanism 4 includes a first motor 401, a lead screw 402, and a pushing block 403; the first motor 401 is arranged on the support platform 301, and the output end of the first motor 401 is connected with the screw rod 402; the pushing block 403 is arranged on the screw rod 402 and the sliding rail 302 in a sliding manner, and the pushing block 403 is in threaded connection with the screw rod 402; the headrest framework 13 is slidably arranged on the screw rod 402 and the slide rail 302; the push block 403 abuts against the headrest frame 13.

It should be noted that the first motor 401 drives the screw rod 402 to rotate, the screw rod 402 drives the pushing block 403 to move, the pushing block 403 pushes the headrest framework 13 to move, and the headrest framework 13 is close to the conveying belt 503 and is taken away by the pulling claw 6 on the conveying belt 503.

In an alternative embodiment, the first motor 401 and the second motor 501 are both stepper motors; the first motor 401 and the second motor 501 are electrically connected.

It should be noted that the first motor 401 and the second motor 501 move in coordination, so that continuous processing can be performed.

In an alternative embodiment, the die table 7 is provided with a die groove 701, a limiting plate 702 and a conveying groove 703; two limiting plates 702 are symmetrically arranged on two sides of the die table 7; the conveyer belt 503 is arranged in the conveyer groove 703 in a sliding way; the headrest framework 13 is fitted into the mold groove 701 and slidably connected to the mold table 7.

It should be noted that the conveyor belt 503 drives the headrest framework 13 to move, and when the headrest framework 13 is located above the mold slot 701, the headrest framework 13 falls into the mold slot 701; the stopper plate 702 is used to restrict the headrest frame 13 and prevent the headrest frame 13 from slipping down.

In an alternative embodiment, the headrest framework 13 is a U-shaped structure, and the mold slot 701 is identical to the structure of the headrest framework 13.

It should be noted that the die groove 701 is convenient to limit the headrest framework 13.

In an alternative embodiment, the pressing block 10 is provided with a pressing groove 1001, a sliding groove 1002 and a punching tool rest 12; the output end of the second cylinder 11 is connected with the punching tool rest 12; the punching frame 12 is arranged in the sliding groove 1002 in a sliding mode; the plurality of punching blades 1201 are arranged side by side, and the plurality of punching blades 1201 are all arranged on the punching frame 12.

It should be noted that the indent 1001 is used for placing the pull claw 6, and prevents the pressing block 10 from pressing the pull claw 6 when pressing down, so as to avoid the pull claw 6 from being crushed.

In an alternative embodiment, the frame 1 is provided with a baffle 101; two baffles 101 are arranged; the headrest framework 13 is located between the two flaps 101.

The guard plate 101 is used to guide the headrest frame 13 and prevent the headrest frame 13 from tilting.

In the invention, a second motor 501 drives a driving pulley 502 to rotate, and the driving pulley 502, a first driven pulley 504 and a second driven pulley 505 are connected through a conveying belt 503; the conveying belt 503 drives the pull claw 6 to move, the moving mechanism 4 pushes the headrest framework 13 to move, so that the headrest framework 13 is close to the conveying belt 503, the headrest framework 13 is driven by the pull claw 6, the pull claw 6 drives the headrest framework 13 to move to the position above the mold table 7, the second motor 501 is stopped, and the headrest framework 13 stays on the mold table 7; starting a first air cylinder 9, driving a pressing block 10 to move downwards by the first air cylinder 9, pressing a headrest framework 13 by the pressing block 10, starting a second air cylinder 11, driving a punching knife 1201 to move by the second air cylinder 11, punching the headrest framework 13 by the punching knife, and punching a clamping groove; after the punching is completed, the first air cylinder 9 and the second air cylinder 11 respectively drive the pressing block 10 and the punching knife 1201 to move upwards, the second motor 501 is started, the conveying belt 503 drives the pulling claw 6 to move, the pulling claw 6 drives the headrest framework 13 to move, and when the headrest framework 13 moves to the upper side of the collecting box 2, the headrest framework 13 falls into the collecting box 2 to complete the collection.

It is to be understood that the above-described embodiments of the present invention are merely illustrative of or explaining the principles of the invention and are not to be construed as limiting the invention. Therefore, any modification, equivalent replacement, improvement and the like made without departing from the spirit and scope of the present invention should be included in the protection scope of the present invention. Further, it is intended that the appended claims cover all such variations and modifications as fall within the scope and boundaries of the appended claims or the equivalents of such scope and boundaries.

Claims (7)

1. A continuous die for processing a vehicle headrest is characterized by comprising a frame (1), a collecting box (2), a bottom plate (3), a supporting table (301), a sliding rail (302), a pulling claw (6), a die table (7), a mounting plate (8), a first cylinder (9), a pressing block (10), a second cylinder (11), a punching knife (1201) and a headrest framework (13);

the rack (1), the collection box (2) and the support platform (301) are all arranged on the bottom plate (3); the slide rail (302) is arranged on the support table (301); the headrest framework (13) is arranged on the sliding rail (302) in a sliding manner; a moving mechanism (4) for pushing the headrest framework (13) to move is arranged on the support table (301); a conveyer belt mechanism (5) for driving the headrest framework (13) to move is arranged on the frame (1); the conveying belt mechanism (5) comprises a second motor (501), a driving belt wheel (502), a conveying belt (503), a first driven belt wheel (504) and a second driven belt wheel (505); the second motor (501) is arranged on the frame (1), and the output end of the second motor (501) is connected with the driving belt wheel (502); the driving belt wheel (502), the first driven belt wheel (504) and the second driven belt wheel (505) are rotationally arranged on the rack (1), and the driving belt wheel (502), the first driven belt wheel (504) and the second driven belt wheel (505) are in driving connection through the conveying belt (503); the die table (7) and the mounting plate (8) are both arranged on the frame (1); the conveying belt (503) is arranged on the mould table (7) in a sliding manner; a plurality of pulling claws (6) are uniformly arranged on the conveying belt (503); the first air cylinder (9) is arranged on the mounting plate (8), and the output end of the first air cylinder (9) is connected with the pressing block (10); the pressing block (10) is positioned above the die table (7); the second cylinder (11) is arranged on the pressing block (10), and the output end of the second cylinder (11) is connected with the punching knife (1201).

2. The continuous mold for manufacturing vehicle headrests according to claim 1, characterized in that the moving mechanism (4) comprises a first motor (401), a screw (402) and a pushing block (403); the first motor (401) is arranged on the support table (301), and the output end of the first motor (401) is connected with the screw rod (402); the pushing block (403) is arranged on the screw rod (402) and the sliding rail (302) in a sliding mode, and the pushing block (403) is in threaded connection with the screw rod (402); the headrest framework (13) is arranged on the screw rod (402) and the slide rail (302) in a sliding manner; the push block (403) abuts against the headrest framework (13).

3. A continuous mold for manufacturing vehicle headrests according to claim 2, characterized in that the first motor (401) and the second motor (501) are both stepper motors; the first motor (401) is electrically connected with the second motor (501).

4. The continuous mold for processing vehicle headrests according to claim 1, characterized in that the mold table (7) is provided with mold grooves (701), limit plates (702) and conveying grooves (703); two limiting plates (702) are symmetrically arranged on two sides of the die table (7); the conveying belt (503) is arranged in the conveying groove (703) in a sliding manner; the headrest framework (13) is embedded in the die groove (701) and is connected with the die table (7) in a sliding mode.

5. A continuous mold for manufacturing a headrest for vehicles according to claim 4, wherein the headrest framework (13) has a U-shaped structure, and the mold groove (701) has the same structure as the headrest framework (13).

6. The continuous die for processing the headrest of the vehicle as claimed in claim 1, wherein the pressing block (10) is provided with a pressing groove (1001), a sliding groove (1002) and a punching tool rest (12); the output end of the second cylinder (11) is connected with the punching tool rest (12); the punching tool holder (12) is arranged in the sliding groove (1002) in a sliding manner; the plurality of punching knives (1201) are arranged side by side, and the plurality of punching knives (1201) are all arranged on the punching knife rest (12).

7. A continuous mold for manufacturing vehicle headrests according to claim 1, characterized in that the frame (1) is provided with baffles (101); two baffles (101) are arranged; the headrest framework (13) is positioned between the two baffles (101).

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