阅读说明：本技术 一种全自动高效磁芯覆膜机 (Full-automatic high-efficient magnetic core laminating machine ) 是由 廖艳秋 于 2021-10-29 设计创作，主要内容包括：本发明涉及覆膜机技术领域,尤其是一种全自动高效磁芯覆膜机,包括覆膜装置,所述覆膜装置的输入端与输出端均设置有传输装置,两组所述传输装置的上端面之间连接有搬运装置,所述搬运装置包括支撑组件、水平驱动组件、翻板组件、升降组件,所述支撑组件包括四组支撑竖杆,两组所述传输装置上端面的左右两侧均对称设置有两组支撑竖杆,两组所述传输装置上同侧的两组所述支撑竖杆之间连接有支撑横杆,两组所述支撑横杆相对的端面上均开设有通槽,该一种全自动高效磁芯覆膜机,解决了现有技术中存在不能对待覆膜的产品进行翻面及搬运操作,使得生产效率降低等缺点。(The invention relates to the technical field of laminating machines, in particular to a full-automatic high-efficiency magnetic core laminating machine which comprises a laminating device, the input end and the output end of the film covering device are both provided with a transmission device, a carrying device is connected between the upper end surfaces of the two groups of transmission devices, the carrying device comprises a supporting component, a horizontal driving component, a turning plate component and a lifting component, wherein the supporting component comprises four groups of vertical supporting rods, the left side and the right side of the upper end surface of each group of conveying devices are symmetrically provided with two groups of vertical supporting rods, a supporting transverse rod is connected between the two groups of vertical supporting rods on the same side of the two groups of conveying devices, the opposite end surfaces of the two groups of supporting transverse rods are provided with through grooves, this full-automatic high-efficient magnetic core laminating machine has solved and has had to have the product that can not treat the tectorial membrane among the prior art to turn over and the transport operation for shortcomings such as production efficiency reduces.)

1. The utility model provides a full-automatic high-efficient magnetic core laminating machine, includes tectorial membrane device (1), its characterized in that: the film laminating device comprises a laminating device (1), wherein the input end and the output end of the laminating device are both provided with a transmission device, a carrying device is connected between the upper end surfaces of the two groups of transmission devices, and the carrying device comprises a supporting assembly, a horizontal driving assembly, a turning plate assembly and a lifting assembly;

the supporting assembly comprises four groups of supporting vertical rods (3), two groups of supporting vertical rods (3) are symmetrically arranged on the left side and the right side of the upper end surfaces of two groups of transmission devices, a supporting cross rod (4) is connected between the two groups of supporting vertical rods (3) on the same side of the two groups of transmission devices, through grooves (401) are formed in the opposite end surfaces of the two groups of supporting cross rods (4), and a plurality of groups of first convex teeth (402) are arranged on the upper end surfaces of the two groups of supporting cross rods (4);

the horizontal driving assembly comprises a supporting frame (5), a plurality of groups of rollers (501) are arranged on the left side end surface and the right side end surface of the supporting frame (5), the plurality of groups of rollers (501) are respectively connected to the insides of the two groups of through grooves (401) in a sliding mode, a first driving piece meshed with the first convex teeth (402) is arranged between the plurality of groups of rollers (501), and penetrating type hole grooves (505) are formed in the middle parts of the left side end surface and the right side end surface of the inner side of the supporting frame (5);

the turning plate assembly comprises two groups of first rotating shafts (6), a telescopic support frame (703) is connected between the opposite end faces of the two groups of first rotating shafts (6), one ends of the two groups of first rotating shafts (6) are respectively connected to the insides of the two groups of hole grooves (505) in a sliding mode, second convex teeth (603) are arranged on the peripheral end face of one end, located inside the hole grooves (505), of the first rotating shafts (6), a second rotating shaft (604) is connected to one side end face inside the hole grooves (505) in a rotating mode, a second gear (605) which is movably meshed with the second convex teeth (603) is arranged on the peripheral end face of the second rotating shaft (604), and a second driving piece which is in transmission connection with the second rotating shaft (604) is fixedly connected to the upper end face of the support frame (5);

the lifting assembly comprises an expansion piece support (7), the expansion piece support (7) is fixedly connected to the upper end face of the support frame (5), a first electric telescopic rod (701) is arranged at the upper end of the expansion piece support (7), a rotating block (702) is connected to the periphery of the first rotating shaft (6) in a rotating mode, and the rotating block (702) is fixedly connected with an output shaft of the first electric telescopic rod (701).

2. The full-automatic high-efficiency magnetic core laminating machine according to claim 1, is characterized in that: the transmission device comprises a transmission support (2), the bilateral symmetry of the transmission support (2) is provided with two sets of transmission supports (2) and is two sets of transmission supports (2) are transversely and uniformly provided with a plurality of groups of transmission rollers (201) and a plurality of transmission supports (2) and a first motor frame (203) are fixedly arranged on the outer end face of the transmission support (2), a first motor (204) is fixedly arranged in the transmission supports (203), the output end and the plurality of the first motor (204) are connected with a first transmission belt (202) and are two sets of transmission supports (2) are symmetrically provided with a support plate (205) on the upper end face of the support plate (205), and a support vertical rod (3) is fixedly arranged on the upper end face of the support plate (205).

3. The full-automatic high-efficiency magnetic core laminating machine according to claim 1, is characterized in that: the first driving piece comprises a second motor frame (502), the second motor frame (502) is connected with a plurality of groups of rollers (501) in a rotating mode, a second motor (503) is fixedly arranged inside the second motor frame (502), a first gear (504) is arranged at the output end of the second motor (503), and the first gear (504) is meshed with the first convex teeth (402).

4. The full-automatic high-efficiency magnetic core laminating machine according to claim 1, is characterized in that: the second driving piece comprises a third motor (601), the third motor (601) is fixedly connected with the supporting frame (5), and a second transmission belt (602) is connected between the output end of the third motor (601) and the second rotating shaft (604) in a transmission manner.

5. A full-automatic high-efficiency magnetic core laminating machine according to any one of claims 3 or 4, characterized in that: the second motor (503) and the third motor (601) are both servo motors.

6. The full-automatic high-efficiency magnetic core laminating machine according to claim 1, is characterized in that: a second electric telescopic rod (704) is connected between the telescopic structures of the telescopic support frames (703).

7. The full-automatic high-efficiency magnetic core laminating machine according to claim 1, is characterized in that: the rotating block (702) is internally provided with a clamp which is abutted against the outer side end face of the first rotating shaft (6).

8. The full-automatic high-efficiency magnetic core laminating machine according to claim 7, is characterized in that: the first rotating shaft (6) is provided with anti-skid grains on the peripheral end face of one end, located inside the rotating block (702).

Technical Field

The invention relates to the technical field of laminating machines, in particular to a full-automatic efficient magnetic core laminating machine.

Background

The laminating machine can be divided into a ready-to-coat laminating machine and a pre-coat laminating machine, is special equipment for paper, plates and film mounting, is pressed by a blanket cylinder and a heating cylinder to form a product which integrates product and plastic, and most of the existing laminating machines are single-face laminating machines which have simple structure, convenient maintenance and reduced use cost; when meeting the unsatisfactory needs secondary tectorial membrane of first tectorial membrane effect, also need the manual work to carry, not only inefficiency still probably leads to making the product impaired at the in-process of artifical transport, has reduced product quality, consequently just needs a laminating machine structure that can replace artifical transport and turn-over operation.

Disclosure of Invention

The invention aims to solve the defects that the product to be coated cannot be turned over and conveyed, the production efficiency is reduced and the like in the prior art, and provides a full-automatic high-efficiency magnetic core film coating machine.

In order to achieve the purpose, the invention adopts the following technical scheme:

the full-automatic efficient magnetic core film laminating machine comprises film laminating devices, wherein transmission devices are arranged at the input end and the output end of each film laminating device, a carrying device is connected between the upper end surfaces of the two groups of transmission devices, and each carrying device comprises a supporting assembly, a horizontal driving assembly, a turning plate assembly and a lifting assembly;

the supporting assembly comprises four groups of supporting vertical rods, two groups of supporting vertical rods are symmetrically arranged on the left side and the right side of the upper end surfaces of the two groups of transmission devices, supporting transverse rods are connected between the two groups of supporting vertical rods on the same side of the two groups of transmission devices, through grooves are formed in the opposite end surfaces of the two groups of supporting transverse rods, and a plurality of groups of first convex teeth are arranged on the upper end surfaces of the two groups of supporting transverse rods;

the horizontal driving assembly comprises a supporting frame, a plurality of groups of idler wheels are arranged on the left side end surface and the right side end surface of the supporting frame, the plurality of groups of idler wheels are respectively connected inside the two groups of through grooves in a sliding mode, a first driving piece meshed with the first convex teeth is arranged between the plurality of groups of idler wheels, and penetrating type hole grooves are formed in the middle of the left side end surface and the right side end surface of the inner side of the supporting frame;

the turning plate assembly comprises two groups of first rotating shafts, a telescopic support frame is connected between the opposite end faces of the two groups of first rotating shafts, one ends of the two groups of first rotating shafts are respectively connected inside the two groups of hole grooves in a sliding mode, second convex teeth are arranged on the peripheral end face of one end, located inside the hole grooves, of the first rotating shafts, a second rotating shaft is rotatably connected to one side end face inside the hole grooves, second gears movably meshed with the second convex teeth are arranged on the peripheral end face of the second rotating shaft, and a second driving piece in transmission connection with the second rotating shafts is fixedly connected to the upper end face of the support frame;

the lifting assembly comprises an expansion piece support, the expansion piece support is fixedly connected to the upper end face of the support frame, a first electric telescopic rod is arranged at the upper end of the expansion piece support, a rotating block is connected to the periphery of the first rotating shaft in a rotating mode, and the rotating block is fixedly connected with an output shaft of the first electric telescopic rod.

Preferably, transmission device is including transmitting the support, it is provided with two sets ofly, two sets of to transmit the support bilateral symmetry transversely evenly be provided with the multiunit transmission cylinder between the support, and is a set of the fixed first motor frame that is provided with on the outside terminal surface of transmission support, the fixed first motor that is provided with in inside of first motor frame, the output and the multiunit of first motor the transmission is connected with first drive belt between the transmission cylinder, and is two sets of equal bilateral symmetry is provided with the backup pad on the up end of transmission support, support the montant fixed set up in on the up end of backup pad.

Preferably, the first driving part comprises a second motor frame, the second motor frame is connected with the plurality of groups of rollers in a rotating mode, a second motor is fixedly arranged inside the second motor frame, a first gear is arranged at the output end of the second motor, and the first gear is meshed with the first convex teeth.

Preferably, the second driving part comprises a third motor, the third motor is fixedly connected with the supporting frame, and a second transmission belt is connected between the output end of the third motor and the second rotating shaft in a transmission manner.

Preferably, the second motor and the third motor are both servo motors.

Preferably, a second electric telescopic rod is connected between the telescopic structures of the telescopic support frames.

Preferably, a clamper abutting against an outer end surface of the first rotating shaft is provided inside the rotating block.

Preferably, the peripheral end face of the first rotating shaft at one end inside the rotating block is provided with anti-slip threads.

The invention provides a full-automatic high-efficiency magnetic core film laminating machine, which has the beneficial effects that:

through the horizontal driving assembly, when the second motor is started, the first gear is meshed with the first convex teeth, so that the second motor can drive the roller to horizontally move along the through groove, the turning plate assembly and the lifting assembly are driven to move, the function of moving objects between the two groups of conveying devices is realized, and the carrying effect is achieved;

through the arranged turning plate assembly, when the first rotating shaft is in the hole groove, the second convex teeth are meshed with the second gear, the third motor is started, the third motor drives the first rotating shaft to rotate through the second transmission belt, so that the first rotating shaft can drive the telescopic support frame to rotate, objects in the telescopic support frame are turned over, and the function of turning the plate is achieved;

through the lifting unit who sets up, start first electric telescopic handle, first electric telescopic handle's output shaft promotes the commentaries on classics piece and makes the commentaries on classics piece drive first pivot and telescopic support frame displacement about perpendicular, has played the elevating system for telescopic support frame can drive the object and reciprocate.

Drawings

FIG. 1 is a schematic view of a main structure of a fully automatic high-efficiency magnetic core film laminating machine according to the present invention;

FIG. 2 is an enlarged structural diagram of the area A of the fully automatic high-efficiency magnetic core film laminating machine provided by the invention;

FIG. 3 is a schematic diagram of an enlarged structure of a zone B of the full-automatic efficient magnetic core film laminating machine provided by the invention;

FIG. 4 is a schematic view of a cross-sectional structure of a hole and a groove of a full-automatic efficient magnetic core laminating machine according to the present invention;

fig. 5 is a schematic diagram of a C-region enlarged structure of the full-automatic efficient magnetic core film laminating machine provided by the invention.

In the figure: 1. a film covering device; 2. a transport support; 201. a transfer drum; 202. a first drive belt; 203. a first motor mount; 204. a first motor; 205. a support plate; 3. supporting the vertical rod; 4. a support rail; 401. a through groove; 402. a first lobe; 5. a support frame; 501. a roller; 502. a second motor mount; 503. a second motor; 504. a first gear; 505. a hole groove; 6. a first rotating shaft; 601. a third motor; 602. a second belt; 603. a second lobe; 604. a second rotating shaft; 605. a second gear; 7. a retractor bracket; 701. a first electric telescopic rod; 702. rotating the block; 703. a telescopic support frame; 704. and the second electric telescopic rod.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1-5, a full-automatic high-efficiency magnetic core film laminating machine comprises a film laminating device 1, wherein transmission devices are arranged at the input end and the output end of the film laminating device 1, a carrying device is connected between the upper end surfaces of the two groups of transmission devices, and the carrying device comprises a supporting assembly, a horizontal driving assembly, a turning plate assembly and a lifting assembly;

the supporting assembly comprises four groups of supporting vertical rods 3, two groups of supporting vertical rods 3 are symmetrically arranged on the left side and the right side of the upper end surfaces of two groups of transmission devices, supporting transverse rods 4 are connected between the two groups of supporting vertical rods 3 on the same side of the two groups of transmission devices, through grooves 401 are formed in the opposite end surfaces of the two groups of supporting transverse rods 4, and a plurality of groups of first convex teeth 402 are arranged on the upper end surfaces of the two groups of supporting transverse rods 4;

the horizontal driving assembly comprises a supporting frame 5, a plurality of groups of rollers 501 are arranged on the left side end surface and the right side end surface of the supporting frame 5, the plurality of groups of rollers 501 are respectively connected inside the two groups of through grooves 401 in a sliding manner, a first driving piece meshed with the first convex teeth 402 is arranged between the plurality of groups of rollers 501, and through type hole grooves 505 are formed in the middle parts of the left side end surface and the right side end surface of the inner side of the supporting frame 5;

the plate turning assembly comprises two groups of first rotating shafts 6, a telescopic support frame 703 is connected between the opposite end faces of the two groups of first rotating shafts 6, one ends of the two groups of first rotating shafts 6 are respectively connected inside the two groups of hole grooves 505 in a sliding manner, a second convex tooth 603 is arranged on the peripheral end face of one end of the first rotating shaft 6 positioned inside the hole grooves 505, a second rotating shaft 604 is rotatably connected on one side end face inside the hole grooves 505, a second gear 605 which is movably engaged with the second convex tooth 603 is arranged on the peripheral end face of the second rotating shaft 604, and a second driving piece in transmission connection with the second rotating shaft 604 is fixedly connected on the upper end face of the support frame 5;

lifting unit includes expansion bend support 7, and expansion bend support 7 fixed connection is on the up end of support frame 5, and the upper end of expansion bend support 7 is provided with first electric telescopic handle 701, and the peripheral rotation of first pivot 6 is connected with commentaries on classics piece 702, commentaries on classics piece 702 and first electric telescopic handle 701's output shaft fixed connection.

The transmission device comprises a transmission support 2, the bilateral symmetry of the transmission support 2 is provided with two sets of transmission supports, transversely evenly be provided with multiunit transmission rollers 201 between two sets of transmission supports 2, the fixed first motor frame 203 that is provided with on the outside terminal surface of a set of transmission support 2, the fixed first motor 204 that is provided with in inside of first motor frame 203, the transmission is connected with first drive belt 202 between the output of first motor 204 and multiunit transmission rollers 201, equal bilateral symmetry is provided with backup pad 205 on the up end of two sets of transmission supports 2, support montant 3 fixed set up on the up end of backup pad 205, first motor 204 is through first drive belt 202 to multiunit transmission rollers 201 syntropy drive, treat the tectorial membrane article and play the transport effect, provide the supporting role for handling device simultaneously.

The first driving part comprises a second motor frame 502, the second motor frame 502 is rotatably connected with a plurality of groups of rollers 501, a second motor 503 is fixedly arranged inside the second motor frame 502, a first gear 504 is arranged at the output end of the second motor 503, the first gear 504 is meshed with the first convex teeth 402, and when the second motor 503 is started, the first gear 504 at the output end of the second motor 503 is meshed with the first convex teeth 402, so that the second motor 503 can drive the support frame 5 to horizontally move along the through groove 401.

The second driving member includes a third motor 601, the third motor 601 is fixedly connected to the support frame 5, a second driving belt 602 is connected between an output end of the third motor 601 and the second rotating shaft 604 in a driving manner, when the third motor 601 is started, the output end of the third motor 601 drives the second rotating shaft 604 to rotate through the second driving belt 602, so that when the second gear 605 is engaged with the second protruding tooth 603, the first rotating shaft 6 rotates to rotate to enable the telescopic support frame 703 to rotate along the first rotating shaft.

The second motor 503 and the third motor 601 are both servo motors, which can better control the angle.

Be connected with second electric telescopic handle 704 between the extending structure of telescopic support frame 703 for can control telescopic support frame 703's shrink through second electric telescopic handle 704, in order to play the clamping action.

A holder abutting against the outer end face of the first shaft 6 is provided inside the rotary block 702, and the first shaft 6 is prevented from rotating within the rotary block 702 by itself.

The peripheral end face of the first rotating shaft 6, which is located at one end inside the rotating block 702, is provided with anti-skid grains, so that the clamping effect on the first rotating shaft 6 is improved.

A working mode; during operation, an article to be coated is placed on a transmission device positioned on one side of an input end of a coating device 1, a first motor 204 is started, the first motor 204 drives a plurality of groups of transmission rollers 201 in the same direction through a first transmission belt 202 to transport the article to be coated, the article enters the transmission device on one side of the output end of the coating device 1 after the first coating is finished, if the coating needs to be repeated or the double-sided coating needs to be carried out, a second motor 503 is started, a first gear 504 is meshed with a first convex tooth 402, so that the second motor 503 can drive a roller 501 to horizontally move along a through groove 401, a plate turning assembly and a lifting assembly are driven to move, a telescopic support 703 is aligned with the article to be coated, then a first electric telescopic rod 701 is started, an output shaft of the first electric telescopic rod 701 pushes a rotary block 702 to drive the rotary block 702 to drive a first rotary shaft 6 and the telescopic support 703 to vertically move up and down, wrapping the telescopic support frame 703 on an article to be coated, then starting the second electric telescopic rod 704 to clamp the article to be coated, starting the first electric telescopic rod 701 again after clamping is completed, so that the first rotating shaft 6 enters the hole groove 505 again, and then transporting or turning over the article to be coated;

when the article to be coated with a film needs to be overturned, the third motor 601 is started, the third motor 601 drives the first rotating shaft 6 to rotate through the second transmission belt 602, and the second convex teeth 603 are engaged with the second gear 605, so that the first rotating shaft 6 can drive the telescopic support frame 703 to rotate, and the object in the telescopic support frame 703 can be overturned.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.