CN210970336U - Laser molding press - Google Patents

Abstract

The utility model belongs to the technical field of the equipment for packing and specifically relates to a laser moulding press, including a host computer seat, install a paper feeding mechanism on the host computer seat paper feeding mechanism's low reaches cooperation has a paper delivery mechanism paper feeding mechanism with be equipped with a bearing mechanism between the paper delivery mechanism, bearing mechanism is used for connecting the winding paper feeding mechanism with foil between the paper delivery mechanism realizes rising tightly, and the opposite side that corresponds the foil of position department at bearing mechanism is equipped with a printing plate mechanism, printing plate mechanism is used for realizing the printing plate impression to the foil. The realization that can be quick is to the impression of seal paper, and the operation is swift effective, and can realize according to required pressure to the seal paper of different weight thickness realizing the impression, and the impression dynamics is adjustable, and impression speed is adjustable, and whole impression efficiency is higher.

Description

Laser molding press

Technical Field

The utility model belongs to the technical field of the equipment for packing and specifically relates to a laser moulding press.

Background

Laser processing is a process of irradiating a material surface with a high-energy-density light beam to vaporize the material or change the color of the material. In the laser processing process, laser beams have high energy density and high processing speed, are processed locally, have no or little influence on non-laser irradiated parts, and therefore, the existing laser mould pressing machine has important application in the field of packaging processing. However, the existing laser moulding press can only imprint the printing paper with one standard specification thickness when imprinting the printing paper, the function is relatively single, and the existing film pressing machine can not be matched with different gum requirements to realize the press transfer printing of different degrees of the printing paper when pressing the printing paper, so that the printing paper products generated by pressing the printing paper under the condition of different requirements can not meet the requirements, the stable pressing mould can be realized only through long-time early-stage debugging, and the whole operation and adjustment process is relatively complicated.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a solve the technical scheme that one of above-mentioned technical problem adopted and be: a laser molding press comprises a main machine base, wherein a paper feeding mechanism is installed on the main machine base, a paper collecting mechanism is matched at the lower stream of the paper feeding mechanism, a bearing mechanism is arranged between the paper feeding mechanism and the paper collecting mechanism and used for realizing tensioning of foil paper wound and connected between the paper feeding mechanism and the paper collecting mechanism, a printing plate mechanism is arranged on the other side of the foil paper at the position corresponding to the bearing mechanism, and the printing plate mechanism is used for realizing printing plate stamping of the foil paper.

Preferably, paper feeding mechanism includes that one sets up the paper roll of putting of host computer seat top, the both ends of putting the paper roll are respectively through the activity cartridge of fixed end axle on the support of form advancing of corresponding position department, two the lower extreme of the support of form advancing links firmly respectively on the host computer seat, link firmly a motor of form advancing on the host computer seat of one of them support one side of form advancing, the motor of form advancing links to each other through the fixed end axle on the paper roll of putting of reduction gear and corresponding position department.

Preferably, paper receiving mechanism includes one and winds the paper roll, it is in to wind paper roll parallel arrangement the front side below of putting the paper roll, the both ends of winding the paper roll are respectively through the movable cartridge of fixed end axle on the paper roll support of winding of corresponding position department, two the lower extreme of winding the paper roll support links firmly respectively on the host computer seat, link firmly one on one of them host computer seat of winding paper roll support one side and wind the paper motor, it links to each other with the fixed end axle on the paper roll of winding of corresponding position department through the reduction gear to wind the paper motor, wind the paper roll with the structural dimension of putting the paper roll is the same, the motor of form advancing with it is synchronous operation state to wind between the paper motor.

Preferably, the supporting mechanism comprises a supporting roller arranged in parallel with the paper winding roller, the inner end and the outer end of the supporting roller are movably inserted into the supporting supports on the two sides of the supporting roller through rotating shafts respectively, and the front side of the outer side wall of the supporting roller is used for tensioning the foil paper.

Preferably, the printing plate mechanism comprises a vertical base, a fixed frame is fixedly mounted at the top of the vertical base towards the upper part of the side wall on one side of the bearing roller, a horizontally-arranged moving lead screw is arranged in an inner frame of the fixed frame, two ends of the moving lead screw are respectively inserted into rotary holes at corresponding positions through stepped shaft sections at the end parts of the moving lead screw, the stepped shaft sections at the inner ends of the moving lead screw movably penetrate out of the fixed frame on one side and are connected with an output shaft of a fine tuning motor, a motor shell of the fine tuning motor is fixedly connected onto the fixed frame, a moving slide block is matched onto the moving lead screw, inner and outer side walls of the moving slide block are respectively abutted against and arranged on the side wall of the inner frame, an imprinting part is mounted at the bottom of the moving slide block, and the imprinting part is used for realizing printing plate imprinting on foil.

Preferably, the stamping part comprises two cantilever plates arranged in parallel at intervals, a stamping roller is arranged between the inner ends of the two cantilever plates, the stamping roller is movably inserted into a rotary hole at the corresponding position of the cantilever plates through fixed end shafts at the ends of the stamping roller respectively, a printing plate is arranged on the outer ring of the stamping roller, and a belt pulley driving piece for driving the stamping roller to rotate is arranged on the outer side of the cantilever plates.

Preferably, the plane of the transverse tangent median plane of the carrier roller is the same as the horizontal plane of the center of the winding roller and the central connecting line of the center of the winding roller.

The beneficial effects of the utility model are embodied in: the realization that can be quick is to the impression of seal paper, and the operation is swift effective, and can realize according to required pressure to the seal paper of different weight thickness realizing the impression, and the impression dynamics is adjustable, and impression speed is adjustable, and whole impression efficiency is higher.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the technical solutions in the prior art will be briefly described below. Throughout the drawings, like elements or components are generally identified by like reference numerals. In the drawings, elements or components are not necessarily drawn to scale.

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a partially enlarged schematic view of fig. 1.

In the figure, 1, a main engine base; 2. A paper feeding mechanism; 3. a paper delivery mechanism; 4. A support mechanism; 5. Foil paper; 6. a printing plate mechanism; 7. an impression member; 8. a pulley drive member; 201. paper placing rollers; 202. a paper feeding support; 203. a paper feed motor; 301. winding paper rolls; 302. a paper winding roller support; 303. a paper winding motor; 401. a carrying roller; 402. supporting a support; 601. a vertical seat; 602. a fixing frame; 603. moving the lead screw; 604. a stepped shaft section; 605. fine tuning a motor; 606. moving the slide block; 701. a cantilever plate; 702. a platen roller; 703. printing plate; 801. a driven wheel; 802. a pulley motor; 803. a driving wheel; 804. a belt.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings. The following examples are only for illustrating the technical solutions of the present invention more clearly, and therefore are only examples, and the protection scope of the present invention is not limited thereby.

As shown in fig. 1-2, a laser molding press comprises a main machine base 1, a paper feeding mechanism 2 is installed on the main machine base 1, a paper collecting mechanism 3 is installed at the downstream of the paper feeding mechanism 2 in a matching manner, a supporting mechanism 4 is arranged between the paper feeding mechanism 2 and the paper collecting mechanism 3, the supporting mechanism 4 is used for tensioning foil paper 5 wound and connected between the paper feeding mechanism 2 and the paper collecting mechanism 3, a printing plate mechanism 6 is arranged on the other side of the foil paper 5 at the position corresponding to the supporting mechanism 4, and the printing plate mechanism 6 is used for realizing printing plate imprinting of the foil paper 5.

This moulding press adopts form advancing, the mode of collection rapid match realizes that the complete machine is relative simple and easy, and the operation is swift, and the tight validity when can guaranteeing follow-up printing plate mechanism 6 to the foil 5 imprints through the rising of bearing mechanism 4 simultaneously, adapts to different foil 5 thickness through the extension length of adjusting printing plate mechanism 6, and the required impression effect is realized to the impression dynamics of foil 5 to the regulation printing plate mechanism 6 that comes in advance simultaneously as required.

Preferably, the paper feeding mechanism 2 includes a setting and is in the paper feeding roller 201 above the main frame foundation 1, the both ends of the paper feeding roller 201 are respectively through the movable cartridge of fixed end axle on the support 202 that form paper of corresponding position department, two the lower extreme of the support 202 that forms paper links firmly respectively on the main frame foundation 1, link firmly a paper feeding motor 203 on the main frame foundation 1 of one of them support 202 one side that forms paper, the paper feeding motor 203 passes through the reduction gear and links to each other with the fixed end axle on the paper feeding roller 201 of corresponding position department.

When the automatic foil paper feeding device is used, a paper feeding roller 201 is sleeved with a coiled foil paper 5 to be printed, the foil paper 5 is conveyed outwards by controlling the forward and reverse rotation and the stop of a paper feeding motor 203 (the type of the paper feeding motor is a servo motor and can be used for purchasing existing products), and meanwhile, the foil paper 5 is conveyed in a transferring manner by matching with a paper collecting mechanism 3.

Preferably, paper receiving mechanism 3 includes one and winds paper roll 301, it is in to wind paper roll 301 parallel arrangement the front side below of paper discharge roll 201, wind paper roll 301's both ends respectively through the activity cartridge of fixed end axle on the paper roll support 302 that winds of corresponding position department, two the lower extreme of winding paper roll support 302 links firmly respectively on main engine base 1, link firmly one on one of them main engine base 1 of winding paper roll support 302 one side and wind paper motor 303, wind paper motor 303 and pass through the reduction gear and link to each other with the fixed end axle on the paper roll 301 that winds of corresponding position department, wind paper roll 301 with the structure size of paper discharge roll 201 is the same, paper feed motor 203 with it is synchronous operation state to wind between the paper motor 303.

The paper winding motor 303 (the type of which is a servo motor and can be used for purchasing the existing products) is controlled to be matched with the steering of the paper feeding motor 203, so that the paper winding motor and the paper feeding motor are synchronously operated, and the stable transfer of the foil paper 5 can be realized; when the paper receiving mechanism 3 performs impression, the paper winding motor 303 and the paper feeding motor 203 are controlled to pause and operate simultaneously, and then the operation is continued after impression is finished, a contact switch or a pressure sensor can be mounted on the bearing roller 401 during control, manual control can be performed when the requirement on efficiency is not high, control can be achieved in a remote control mode, the specific control form is not limited, and the paper receiving mechanism belongs to the prior art.

Preferably, the supporting mechanism 4 comprises a supporting roller 401 arranged in parallel with the paper winding roller 301, the inner end and the outer end of the supporting roller 401 are movably inserted into the supporting brackets 402 on both sides of the supporting roller 401 through a rotating shaft, and the front side of the outer side wall of the supporting roller 401 is used for tensioning the foil 5.

By means of synchronous operation of the paper winding motor 303 and the paper feeding motor 203, when the foil 5 is tightly abutted against the supporting roller 401, the foil 5 can be received by the supporting roller 401 when pulled, and guiding following operation is achieved.

Preferably, the printing plate mechanism 6 comprises an upright base 601, a fixing frame 602 is fixedly mounted on the upper portion of the side wall of the top of the upright base 601 facing the carrier roller 401, a horizontally arranged moving screw 603 is arranged in the inner frame of the fixed frame 602, two ends of the moving screw 603 are movably inserted into the rotating holes at corresponding positions through stepped shaft sections 604 at the end parts of the moving screw 603, the stepped shaft section 604 at the inner end of the movable lead screw 603 movably penetrates through the fixed frame 602 at the corresponding side and is connected with an output shaft of a fine tuning motor 605, a motor shell of the fine tuning motor 605 is fixedly connected on the fixed frame 602, a movable sliding block 606 is matched on the movable screw 603, the inner and outer side walls of the movable sliding block 606 are respectively abutted and arranged on the inner frame side wall of the fixed frame 602, an impression unit 7 is attached to the bottom of the moving carriage 606, said impression unit 7 being used to apply an impression to the printing forme 703 on the foil 5 on the support roller 401.

The movable lead screw 603 can be driven to rotate by controlling the periodic rotation of the fine adjustment motor 605, so that the movable slider 606 on the movable lead screw can be driven to realize the periodic displacement in the horizontal direction, and finally the printing plate 703 at the front end of the imprinting component 7 on the movable lead screw can realize the imprinting of the foil 5 on the bearing roller 401, and the specific rotation period and the number of turns of each rotation of the fine adjustment motor 605 can be adaptively adjusted according to the rotation speeds of the paper winding motor 303 and the paper feeding motor 203 and the thickness of the foil 5, and the adjustment needs to be carried out by a technician.

Preferably, the stamping part 7 includes two cantilever plates 701 arranged in parallel at intervals, outer ends of the cantilever plates 701 are respectively fixedly connected to the movable sliders 606 at corresponding positions, a stamping roller 702 is arranged between inner ends of the two cantilever plates 701, the stamping roller 702 is respectively movably inserted into a rotary hole at a corresponding position of the cantilever plate 701 through a fixed end shaft at an end of the stamping roller 702, a printing plate 703 is mounted on an outer ring of the stamping roller 702, and a pulley driving member 8 for driving the stamping roller 702 to rotate is arranged on an outer side of the cantilever plates 701.

The pulley driving member 8 includes a driven pulley 801 disposed outside the cantilever plate 701, and the driven pulley 801 is connected to a fixed end shaft at a corresponding position. A belt wheel motor 802 is fixedly connected to the outer side wall of the movable sliding block 606, a driving wheel 803 is fixedly connected to the output shaft of the belt wheel motor 802, and the driving wheel 803 is connected with the driven wheel 801 through a belt 804.

The rotating speed of the embossing roller 702 can be controlled by the belt pulley driving part 8, so that the printing plate 703 is driven to rotate to press the foil 5, and different embossing speeds of the foil 5 can be realized. The rotational speed of the pulley motor 802 in the pulley drive 8 is matched by the technician controlling the spacing distance between the individual embossed patterns of the product design and the rotational speeds of the paper winding motor 303 and the paper feeding motor 203.

Preferably, the plane of the cross-cutting midline plane of the carrier roller 401 is the same as the horizontal plane of the center of the winding roller 301 and the center line of the center of the winding roller 301. The bearing roller 401 is arranged on the plane where the central connecting line is located, so that the stability during tensioning can be effectively guaranteed, and the centering stability is kept.

This moulding press adopts form advancing, the mode of collection rapid match realizes that the complete machine is relative simple and easy, and the operation is swift, and the tight validity when can guaranteeing follow-up printing plate mechanism 6 to the foil 5 imprints through the rising of bearing mechanism 4 simultaneously, adapts to different foil 5 thickness through the extension length of adjusting printing plate mechanism 6, and the required impression effect is realized to the impression dynamics of foil 5 to the regulation printing plate mechanism 6 that comes in advance simultaneously as required.

The above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not substantially depart from the scope of the embodiments of the present invention, and are intended to be covered by the claims and the specification; to those skilled in the art, any alternative improvements or changes made to the embodiments of the present invention are all within the scope of the present invention.

The parts of the present invention not described in detail are the known techniques of those skilled in the art.

Claims (7)

1. The laser molding press is characterized in that: including a host computer seat, install a paper feeding mechanism on the host computer seat paper feeding mechanism's low reaches cooperation has a paper receiving mechanism paper feeding mechanism with be equipped with a bearing mechanism between the paper receiving mechanism, bearing mechanism is used for connecting the winding paper feeding mechanism with foil between the paper receiving mechanism realizes rising tightly, and the opposite side of foil that corresponds position department at bearing mechanism is equipped with a printing plate mechanism, printing plate mechanism is used for realizing the printing plate impression to the foil.

2. The laser molding press of claim 1, wherein: the paper feeding mechanism comprises a paper feeding roller arranged above the main machine seat, two ends of the paper feeding roller are movably inserted on paper feeding supports at corresponding positions through fixed end shafts respectively, the lower ends of the paper feeding supports are fixedly connected to the main machine seat respectively, a paper feeding motor is fixedly connected to the main machine seat on one side of one paper feeding support, and the paper feeding motor is connected with the fixed end shafts on the paper feeding roller at the corresponding positions through a speed reducer.

3. The laser molding press of claim 2, wherein: the paper collecting mechanism includes one and winds the paper roll, it is in to wind paper roll parallel arrangement the front side below of putting the paper roll, the both ends of winding the paper roll are respectively through the movable cartridge of fixed end axle on the paper roll support of winding of corresponding position department, two the lower extreme of winding the paper roll support links firmly respectively on the host computer seat, link firmly one on one of them on the host computer seat of paper roll support one side and wind the paper motor, it links to each other with the fixed end axle on the paper roll of winding of corresponding position department through the reduction gear to wind the paper motor, wind the paper roll with the structural dimension of putting the paper roll is the same, the motor of form advancing with it is synchronous operation state to wind between the paper motor.

4. The laser molding press of claim 3, wherein: the supporting mechanism comprises a supporting roller which is arranged in parallel with the paper winding roller, the inner end and the outer end of the supporting roller are movably inserted into the supporting supports on the two sides of the supporting roller through rotating shafts respectively, and the front side of the outer side wall of the supporting roller is used for tensioning the foil paper.

5. The laser molding press of claim 4, wherein: the printing plate mechanism comprises a vertical seat, a fixed frame is fixedly mounted on the upper portion of the side wall of one side of the bearing roller at the top of the vertical seat, a horizontally-arranged moving lead screw is arranged in an inner frame of the fixed frame, the two ends of the moving lead screw are respectively inserted into rotary holes of corresponding positions through stepped shaft sections of the end portions of the moving lead screw, the inner stepped shaft sections of the moving lead screw penetrate out of the fixed frame on one side and are connected with an output shaft of a fine tuning motor, the motor shell of the fine tuning motor is fixedly connected onto the fixed frame, a moving sliding block is matched onto the moving lead screw, the inner side wall and the outer side wall of the moving sliding block are respectively abutted to be arranged on the side wall of the inner frame of the fixed frame, an imprinting part is mounted at the bottom of the moving sliding block, and the imprinting part is used for.

6. The laser molding press of claim 5, wherein: the stamping part comprises two cantilever plates arranged in parallel at intervals, a stamping roller is arranged between the inner ends of the two cantilever plates, the stamping roller is movably inserted into a rotary hole at the corresponding position of the cantilever plates through fixed end shafts at the ends of the stamping roller respectively, a printing plate is arranged on the outer ring of the stamping roller, and a belt pulley driving piece for driving the stamping roller to rotate is arranged on the outer side of the cantilever plates.

7. The laser molding press of claim 4, wherein: the plane of the transverse cutting centerline plane of the bearing roller is the same as the horizontal plane of the center of the paper winding roller and the center connecting line of the center of the paper winding roller.

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