CN213167415U - Novel digital plateless gilding press of packing carton handbag - Google Patents

Abstract

The utility model provides a novel digital no version gilding press of packing carton handbag, including lifting unit, along lifting unit gliding lateral shifting subassembly from top to bottom, along printer head, base assembly that lateral shifting subassembly slided and set up three kinds of removable jigs on the base assembly, lifting unit includes two mounting panels, two parallel arrangement backup pads between two mounting panels and sets up the first linear motion device between two backup pads, the lateral shifting subassembly includes the connecting plate along first linear motion device up-and-down motion and sets up the second linear motion device on the connecting plate, printer head includes the fixed plate along second linear motion device seesaw and sets up the printer head that beats in fixed plate one side. The utility model provides a gilding press beat printer head electric regulation not in place and influence gilt effect or damage and beat the problem that the restriction of printer head and tool leads to the unable printing that satisfies jumbo size specification or customization type specification product of gilding press.

Description

Novel digital plateless gilding press of packing carton handbag

Technical Field

The utility model relates to a gilt printing apparatus technical field, concretely relates to novel digital no version gilding press of packing carton handbag.

Background

The existing digital plateless stamping machine belongs to special customized printing equipment, and the main printing product objects are hard paper products and card-like products in the market. The equipment mainly controls the thermal printing head to transfer the gold stamping ribbon to a product on the surface of an object through a computer. The equipment is mainly characterized in that the equipment is used for gilding without a plate, objects to be printed are directly placed on a specific jig in a printing area, the equipment is manually adjusted, the gilding press directly transfers the patterns of the arranged plate to the objects on the surface of the objects, but because the shapes and specifications of the printed objects are uncertain, when the height of the printing head is adjusted, the printing head is easily in contact with or collides with the printed objects due to the fact that the printing head is adjusted only by an electric control button, and the printing effect is influenced or even damaged.

As the demand of customized products in the existing market is more and more large, the feasibility requirements of the process formulation of products with different specifications and types on the stamping machine are more and more higher; due to the limitation of the jig, when printing, the jig cannot be matched with printed products of different specifications, so that many types of stamping machines cannot meet the printing requirements of products of large-size specifications or customized specifications.

Disclosure of Invention

The problem of among the prior art gilding press beat printer head electric regulation not in place and influence gilding effect or damage and beat printer head and the restriction of tool leads to the gilding press to be unable to satisfy the printing of jumbo size specification or customization type specification product is solved. The utility model provides a novel digital no version gilding press of packing carton handbag.

The utility model provides a novel digital no version gilding press of packing carton handbag, includes lifting unit, along lifting unit gliding lateral shifting subassembly from top to bottom, along the printer head that lateral shifting subassembly slided, support the base assembly of lifting unit bottom and set up three kinds of removable jigs on the base assembly, lifting unit includes two mounting panels, two parallel arrangement backup pads between two mounting panels and sets up the first linear motion device between two backup pads, the lateral shifting subassembly includes the connecting plate along first linear motion device up-and-down motion and sets up the second linear motion device on the connecting plate, the printer head includes the fixed plate along second linear motion device seesaw and sets up the printer head of beating in fixed plate one side.

Further, the first linear motion device comprises a first motor arranged above the mounting plate above, a vertically arranged first screw rod connected with a shaft of the first motor through a coupler, a lifting slider sleeved on the first screw rod and in threaded connection with the first screw rod, and two first guide rails arranged on the support plate and used for defining a sliding track of the lifting slider, wherein the lifting slider is buckled on the first guide rails.

Further, a handle connected with the motor shaft is arranged at the top of the first motor.

Furthermore, the upper part and the lower part of the supporting plate provided with the first guide rail are provided with anti-collision switches, and anti-collision sheets corresponding to the positions of the anti-collision switches are arranged on the upper side and the lower side of the lifting slide block.

Furthermore, the second linear motion device comprises a second motor fixed on one side of the connecting plate, a second screw rod connected with a shaft of the second motor, a nut seat sleeved on the second screw rod and in threaded connection with the second screw rod, and a second guide rail arranged on the other side of the connecting plate.

Furthermore, a sliding block connected with the fixing plate is arranged on the second guide rail, the fixing plate slides along the second guide rail and is connected with the nut seat through an adapter plate, a zero position sensor is arranged below a second screw rod, close to the second motor, on the connecting plate, and a detection sheet matched with the zero position sensor is arranged below the nut seat.

Furthermore, drag chains are arranged in the lifting assembly and the transverse moving assembly.

Further, the base assembly includes the support body and sets up at inside power, control mainboard, the motor drive of support body, lifting unit and lateral shifting subassembly all are connected with power, control mainboard, motor drive.

Furthermore, the side face of the corner of the lifting assembly is vertically provided with a scale, and a pointer is arranged below the connecting plate at the scale.

Furthermore, the detachable jig comprises a transverse jig, a longitudinal jig and a small-section jig, and the supports of the transverse jig and the longitudinal jig are perpendicular to each other but the direction of the bearing platform of the transverse jig and the direction of the bearing platform of the longitudinal jig are the same.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model provides a novel digital plateless gilding press of packing carton handbag, through the setting of lifting unit, lateral shifting subassembly, printer head, base assembly and detachable jig, constitute a plateless gilding press structure that is controlled the printer head by first linear motion device and second linear motion device and carries out Z axle and X axle direction motion, wherein first lead screw, second lead screw, first guide rail, and second guide rail have guaranteed the accuracy nature of Z axle and X axle direction motion, have provided the basis that the gilding press printed;

through the arrangement of the first motor and the handle, the first screw rod in the lifting assembly can be driven by the first motor and can also be manually adjusted by rotating the handle, when a product to be subjected to gold stamping printing is placed on the jig to adjust the height of the printing head, the first motor is controlled by the electric button to adjust the printing head to the position above the product, and then the handle is rotated by hands to properly adjust the height of the printing head, so that the printing head and the printed product are prevented from being in close contact or colliding under the control of the electric button and the first motor, and the printing effect is prevented from being influenced and even damaged;

through the arrangement of the three groups of detachable transverse jigs, the longitudinal jig and the small-section jig, the stamping machine can meet the requirement for printing products with large-size specifications or customized specifications more conveniently, the initial point of the printing process is automatically reset and detected by the arrangement of the zero-position sensor, and the printing quality of the stamping machine is ensured.

Drawings

Fig. 1 is the overall structure schematic diagram of the novel digital plateless gilding press of packing box handbag.

Fig. 2 is the overall structure schematic diagram of the novel digital plateless gilding press of packing box handbag two.

Fig. 3 is the first structural schematic diagram of the lifting assembly of the novel digital gilding press without version of the packing box handbag.

Fig. 4 is the structural schematic diagram of the lifting assembly of the novel digital gilding press without version of the packing box handbag II.

Fig. 5 is a schematic diagram of the lateral shifting assembly and the printer head structure of a novel digital plateless stamping machine for packaging boxes and handbags.

Fig. 6 is a schematic diagram of a lateral moving component and a printer head structure of a novel digital plateless stamping machine for a packaging box handbag of the utility model II.

Fig. 7 is a schematic diagram of a lateral moving assembly and a printer head structure of a novel digital plateless stamping machine for a packaging box handbag.

Fig. 8 is the utility model relates to a horizontal tool, vertical tool and small cross-section tool schematic structure of novel digital plateless gilding press of packing carton handbag.

The reference numeral of the drawing is 1, 2, 3, 4, 5, a printing head, 6, 7, a coupler, 8, 9, a lifting slide block, 10, a first guide rail, 11, an anti-collision switch, 12, a collision prevention sheet, 13, a second motor, 14, a second guide rail, 15, a nut seat, 16, a second guide rail, 17, an adapter plate, 18, a zero sensor, 19, 20, a drag chain, 21, a frame body, 22, a handle, 23, a scale, 24, a pointer, 25, a transverse jig, 26, a longitudinal jig, 27, a small-section jig and 28, wherein the mounting plate is provided with a mounting plate, the support plate is provided with a support platform.

Detailed Description

The invention will be further explained with reference to the following figures and specific examples:

as shown in fig. 1-8, a novel digital plateless gilding press of packing carton handbag, including lifting unit, along lifting unit gliding lateral shifting subassembly from top to bottom, along the printer head that lateral shifting subassembly slided, support the base assembly in the lifting unit bottom and set up three kinds of tools of dismantling on the base assembly, lifting unit includes two mounting panels 1, two parallel arrangement backup pads 2 between two mounting panels 1 and set up the first linear motion device between two backup pads 2, the lateral shifting subassembly includes along the connecting plate 3 of first linear motion device up-and-down motion and set up the second linear motion device on connecting plate 3, the printer head includes along the fixed plate 4 of second linear motion device seesaw and set up the printer head 5 of beating in fixed plate 4 one side.

Specifically, the first linear motion device comprises a first motor 6 arranged above the mounting plate 1 above, a vertically arranged first screw rod 8 connected with a shaft of the first motor 6 through a coupling 7, a lifting slider 9 sleeved on the first screw rod 8 and in threaded connection with the first screw rod, and two first guide rails 10 arranged on the support plate 2 and defining the sliding track of the lifting slider 9, wherein the lifting slider 9 is buckled on the first guide rails 10; the upper part and the lower part of the supporting plate 2 provided with the first guide rail 10 are both provided with an anti-collision switch 11, and the upper side and the lower side of the lifting slide block 9 are provided with anti-collision sheets 12 corresponding to the positions of the anti-collision switches 11.

The second linear motion device comprises a second motor 13 fixed on one side of the connecting plate 3, a second screw rod 14 connected with a shaft of the second motor 13, a nut seat 15 sleeved on the second screw rod 14 and in threaded connection with the second screw rod, and a second guide rail 16 arranged on the other side of the connecting plate 3; the second guide rail 16 is provided with a sliding block connected with the fixed plate 4, the fixed plate 4 slides along the second guide rail 16 and is connected with the nut seat 15 through an adapter plate 17, a zero position sensor 18 is arranged below a second screw rod 14, close to the second motor 13, on the connecting plate 3, and a detection sheet 19 matched with the zero position sensor 18 is arranged below the nut seat 15.

The lifting assembly and the transverse moving assembly are both provided with drag chains 20; the base assembly comprises a frame body 21, and a power supply, a control main board and a motor driver which are arranged in the frame body, wherein the lifting assembly and the transverse moving assembly are connected with the power supply, the control main board and the motor driver; the top of the first motor 6 is provided with a handle 22 connected with a motor shaft; a ruler 23 is vertically arranged on the side face of the corner of the lifting assembly, and a pointer 24 is arranged below the connecting plate 3 at the position of the ruler 23; the detachable jig comprises a transverse jig 25, a longitudinal jig 26 and a small-section jig 27, wherein the supports of the transverse jig 25 and the longitudinal jig 26 are perpendicular to each other, but the directions of the bearing platforms 28 of the transverse jig 25 and the longitudinal jig 26 are the same.

When the stamping machine is used specifically, the three groups of detachable transverse jigs 25, longitudinal jigs 26 and small-section jigs 27 are arranged, so that the stamping machine can meet the printing requirements of products with large-size specifications or customized specifications more conveniently, and before printing, the transverse jigs 25, the longitudinal jigs 26 or the small-section jigs 27 are selected and fixed on the frame body 21 according to the specific sizes of the products.

The combination of the lifting assembly, the transverse moving assembly, the printer head, the base assembly and the detachable jig forms a plateless stamping machine structure which controls the printer head to move in the Z-axis and X-axis directions by a first linear motion device and a second linear motion device, wherein the first lead screw 8, the second lead screw 14, the first guide rail 10 and the second guide rail 16 ensure the accuracy of the movement in the Z-axis and X-axis directions and provide a foundation for the precise printing of the stamping machine;

through the arrangement of the first motor 6 and the handle 22, the first screw rod 8 in the lifting assembly can be driven by the first motor 6 and can also be manually adjusted by rotating the handle 22, when a product to be subjected to gold stamping printing is placed on a jig to adjust the height of the printing head 5, the first motor 6 is controlled by the electric button to adjust the printing head 5 to a safety distance slightly far above the product, then the height of the printing head 5 is adjusted to a proper printing height by manually rotating the handle 22, and the printing head 5 is prevented from being in close contact or colliding with the printed product under the control of the electric button of the printing head 5 and the first motor, so that the printing effect is influenced and even the printing head 5 is damaged; and then the second motor 13 is started, the zero position sensor 18 detects the zero point of printing, resetting is carried out, printing is started, and then horizontal printing is carried out on the product.

The above-mentioned embodiments are merely preferred embodiments of the present invention, and not intended to limit the scope of the present invention, so that equivalent changes or modifications made by the structure, features and principles of the present invention should be included in the claims of the present invention.

Claims (10)

1. A novel digital plateless gilding press for packing boxes and hand bags comprises a lifting component, a transverse moving component sliding up and down along the lifting component, a printer head sliding along the transverse moving component, a base assembly supported at the bottom end of the lifting component and three detachable jigs arranged on the base assembly, it is characterized in that the lifting component comprises two mounting plates (1), two supporting plates (2) which are arranged between the two mounting plates (1) in parallel and a first linear motion device which is arranged between the two supporting plates (2), the transverse moving assembly comprises a connecting plate (3) moving up and down along a first linear motion device and a second linear motion device arranged on the connecting plate (3), the printer head comprises a fixing plate (4) moving back and forth along the second linear motion device and a printing head (5) arranged on one side of the fixing plate (4).

2. The novel packaging box handbag digital plateless stamping machine as recited in claim 1, characterized in that the first linear motion device comprises a first motor (6) arranged above the upper mounting plate (1), a vertically arranged first screw rod (8) connected with the shaft of the first motor (6) through a coupling (7), a lifting slider (9) sleeved on the first screw rod (8) and in threaded connection with the first screw rod, and two first guide rails (10) arranged on the support plate (2) and defining the sliding track of the lifting slider (9), wherein the lifting slider (9) is buckled on the first guide rails (10).

3. The novel packaging box handbag digital plateless stamping machine as claimed in claim 2, wherein anti-collision switches (11) are arranged above and below the supporting plate (2) provided with the first guide rail (10), and anti-collision pieces (12) corresponding to the positions of the anti-collision switches (11) are arranged on the upper and lower sides of the lifting slider (9).

4. The novel digital plateless gilding press for packing boxes and hand bags according to claim 2, characterized in that a handle (22) connected with a motor shaft is arranged at the top of the first motor (6).

5. The novel packaging box handbag digital plateless stamping machine as recited in claim 1, characterized in that the second linear motion device comprises a second motor (13) fixed on one side of the connecting plate (3), a second screw rod (14) connected with a shaft of the second motor (13), a nut seat (15) sleeved on the second screw rod (14) and in threaded connection with the second screw rod, and a second guide rail (16) arranged on the other side of the connecting plate (3).

6. The novel packaging box handbag digital plateless stamping machine as claimed in claim 5, wherein a slider connected with the fixing plate (4) is arranged on the second guide rail (16), the fixing plate (4) slides along the second guide rail (16) and is connected with the nut seat (15) through an adapter plate (17), a zero position sensor (18) is arranged below a second screw rod (14) on the connecting plate (3) close to the second motor (13), and a detection piece (19) matched with the zero position sensor (18) is arranged below the nut seat (15).

7. The digital plateless gilding press for novel packing boxes and hand bags according to claim 1, characterized in that a drag chain (20) is arranged in each of the lifting component and the lateral moving component.

8. The novel digital plateless gilding press for packing boxes and hand bags according to claim 1, characterized in that the base assembly comprises a frame body (21), and a power supply, a control mainboard and a motor driver which are arranged inside the frame body, wherein the lifting assembly and the transverse moving assembly are connected with the power supply, the control mainboard and the motor driver.

9. The novel packaging box handbag digital plateless stamping machine as recited in claim 1, characterized in that a scale (23) is vertically arranged on the side of the corner of the lifting assembly, and a pointer (24) is arranged below the connecting plate (3) at the scale (23).

10. The novel packaging box handbag digital plateless stamping machine as recited in claim 1, characterized in that the detachable jig comprises a transverse jig (25), a longitudinal jig (26) and a small section jig (27), the supports of the transverse jig (25) and the longitudinal jig (26) are perpendicular but the direction of the bearing platform (28) is the same.

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