CN219236488U - Curved glass UV nano-transfer stamping machine - Google Patents

Abstract

The utility model discloses an arc-bending glass UV nano transfer stamping press, which consists of a glass bearing device, an equipment main body moving device, a press roller device, a UV light fixing device, an ion static removing device and a film fixing device, wherein the glass bearing device is used for positioning glass; the precise screw rod motion of the servo motor is adopted, the stamping, arc bending carrier, precise alignment and precise pneumatic constant tension control mode are transferred, and meanwhile, the glass conveying device is fixed with one end of the film, so that the film and the glass are ensured to be completely synchronous. The arc-bending glass UV nano transfer stamping machine is reasonable in design, simple in structure, high in glass size compatibility, low in processing cost, short in manufacturing period, high in structural reduction degree and easy to operate.

Description

Curved glass UV nano-transfer stamping machine

Technical Field

The utility model belongs to the technical field of transfer stamping machines, and particularly relates to an arc-bending glass UV nano transfer stamping machine.

Background

At present, printing of some precise structural textures and highlight patterns on the surface of curved toughened glass cannot be achieved, and the precise structural textures and highlight patterns on the intermediate carrier film are printed on the surface of the curved toughened glass by adopting corresponding pressure transfer, so that it is necessary to design an arc curved glass UV nano transfer printing press to solve the problems.

Therefore, the arc-bending glass UV nano transfer stamping machine is capable of being compatible with glass of different sizes, ensuring complete synchronization of a film and the glass, simple in structure, high in glass size compatibility, low in processing cost and short in manufacturing period, and solves the problems.

Disclosure of Invention

The utility model aims to provide an arc-bending glass UV nano-transfer stamping machine so as to solve the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: an arced glass UV nano-transfer printer comprising:

the device comprises a device main body movement device, a device main body movement device and a control device, wherein the device main body movement device comprises a main body frame, a precise ball screw arranged on the main body frame, a plurality of precise linear slide rails connected with the precise ball screw in a transmission way through screw nuts and a profile frame fixedly arranged at the top of the main body frame;

the glass bearing device is arranged above the equipment main body moving device, and a precise ball screw on the equipment main body moving device acts to drive the glass bearing device to move left and right;

the press roll device is arranged above the glass bearing device and is used for guiding the movement of the film;

the UV light fixing device is arranged on the right side of the compression roller device and is used for curing the UV glue on the film;

the ion static eliminating device is arranged on the right side of the UV light fixing device and is used for eliminating static;

the film fixing device is arranged above the compression roller device and is used for positioning the film.

The glass bearing device comprises a glass supporting plate, a front guide device, a rear guide device, a supporting plate height adjusting device, a precise screw rod adjusting device, a front guide sliding rail, a rear guide sliding rail, a rotating direction adjusting device and a ratchet wrench, wherein the front guide device and the rear guide device are arranged on the left side and the right side of the glass supporting plate, the supporting plate height adjusting device is used for adjusting the height of the glass supporting plate, the precise screw rod adjusting device is arranged at the top of the precise linear sliding rail, the front guide sliding rail and the rear guide sliding rail are connected through screw rod transmission on the screw rod nut and the precise screw rod adjusting device, the rotating direction adjusting device is arranged on the front guide sliding rail and the rear guide sliding rail and is used for adjusting the rotating direction of the glass supporting plate, and the ratchet wrench is arranged on the front guide sliding rail and the rear guide sliding rail and is used for locking the position of the glass supporting plate.

The device main body movement device drives the glass bearing device and the film to act by a first servo.

The compression roller device comprises a compression roller, a compression roller height adjusting device for adjusting the height of the compression roller and a guide roller which is arranged above the compression roller and used for fixing film guide.

The film fixing device comprises a fixed end film clamping device and a movable end film clamping device which are used for being matched with and fixing films, film movement guiding devices arranged on two sides of the movable end film clamping device, and a precise pneumatic device for driving the film movement guiding devices to act. The movable end membrane clamping device ensures the constant tension of the membrane to act through the membrane movement guiding devices at the two sides by the precise pneumatic device.

The utility model has the technical effects and advantages that: the arc-bending glass UV nano transfer stamping press comprises a glass bearing device, an equipment main body moving device, a press roll device, a UV light fixing device, an ion static removing device and a film fixing device, wherein the glass bearing device is used for positioning glass;

the arc-bending glass is placed on a glass supporting plate of a glass bearing device, the height of the glass supporting plate is adjusted by a supporting plate height adjusting device to match with UV nano transfer imprinting of various arc-bending glasses, a device main body moving device drives the glass bearing device to horizontally move left and right so as to drive the arc-bending glass to horizontally move left and right, a precise screw rod adjusting device drives a front and back guide sliding rail to longitudinally move, a rotating direction adjusting device is driven to longitudinally move, the rotating direction adjusting device is used for the glass supporting plate, and accordingly the whole glass bearing device and the device main body moving device are matched to drive the arc-bending glass to adjust front, back, left and right and rotating directions so as to align with a nano structure on a film, and after the position is adjusted, the position is locked by a ratchet wrench;

the device main body moving device can sequentially convey the arc-bending glass matched with the film to the lower parts of the press roller device, the UV light fixing device and the ion static removing device, the press roller on the press roller device is used for impressing the nano structure on the film of the arc-bending glass, the height of the press roller is adjusted by the press roller height adjusting device, the device can adapt to the impressing of the glass with different sizes, and the UV light fixing device and the ion static removing device are respectively used for carrying out UV glue solidification and static removing after the impressing of the UV nano film;

the precise screw rod motion of the servo motor is adopted, the stamping, arc bending carrier, precise alignment and precise pneumatic constant tension control mode are transferred, and meanwhile, the glass conveying device is fixed with one end of the film, so that the film and the glass are ensured to be completely synchronous. The arc-bending glass UV nano transfer stamping machine is reasonable in design, simple in structure, high in glass size compatibility, low in processing cost, short in manufacturing period, high in structural reduction degree and easy to operate.

Drawings

Fig. 1 is a schematic structural view of the present utility model.

In the figure: 1. a glass carrying device; 2. a device body movement apparatus; 3. a press roll device; 4. UV light fixing device; 5. an ion static electricity removing device; 6. a membrane fixing device; 101. a glass support plate; 102. a front guide; 103. a rear guide; 104. a support plate height adjusting device; 105. a rotation direction adjusting device; 106. a precise screw rod adjusting device; 107. front and rear guide rails; 108. a ratchet wrench; 201. a main body frame; 202. a precision ball screw; 203. a precise linear slide rail; 204. a profile frame; 301. a press roller; 302. a guide roller; 303. a press roller height adjusting device; 601. a fixed end membrane clamping device; 602. a movable end membrane clamping device; 603. a precision pneumatic device; 604. a film movement guide; 605. and (3) a film.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

The utility model provides an arc bending glass UV nano-transfer stamping machine shown in figure 1, which comprises:

the device comprises a device main body movement device 2, wherein the device main body movement device 2 comprises a main body frame 201, a precise ball screw 202 arranged on the main body frame 201, a plurality of precise linear slide rails 203 in transmission connection with the precise ball screw 202 through screw nuts and a profile frame 204 fixedly arranged on the top of the main body frame 201;

the glass bearing device 1 is arranged above the equipment main body movement device 2, and the precise ball screw 202 on the equipment main body movement device 2 acts to drive the glass bearing device 1 to move left and right;

a press roll device 3, wherein the press roll device 3 is arranged above the glass bearing device 1, and the press roll device 3 is used for guiding the movement of the film 605;

a UV light curing device 4, wherein the UV light curing device 4 is arranged on the right side of the press roller device 3, and the UV light curing device 4 is used for curing the UV glue on the film 605;

the ion static eliminating device 5 is arranged on the right side of the UV light fixing device 4, and the ion static eliminating device 5 is used for eliminating static;

a film fixing device 6, wherein the film fixing device 6 is arranged above the press roller device 3, and the film fixing device 6 is used for positioning the film 605.

The glass bearing device 1 comprises a glass supporting plate 101, a front guide device 102 and a rear guide device 103 which are arranged on the left side and the right side of the glass supporting plate 101, a supporting plate height adjusting device 104 which is used for adjusting the height of the glass supporting plate 101, a precise screw rod adjusting device 106 which is arranged on the top of a precise linear sliding rail 203, a front guide sliding rail 107 and a rear guide sliding rail 107 which are connected with the screw rod on the precise screw rod adjusting device 106 through screw rod transmission of screw rod nuts, a rotating direction adjusting device 105 which is arranged on the front guide sliding rail 107 and is used for adjusting the rotating direction of the glass supporting plate 101, and a ratchet wrench 108 which is arranged on the front guide sliding rail 107 and the rear guide sliding rail 107 and is used for locking the position of the glass supporting plate 101.

The device body moving device 2 drives the glass bearing device 1 and the film 605 to act by a first servo.

The arc-bending glass is placed on a glass supporting plate 101 of a glass bearing device 1, the height of the glass supporting plate 101 is adjusted by a supporting plate height adjusting device 104 to match with UV nano transfer imprinting of various arc-bending glasses, a device main body moving device 2 drives the glass bearing device 1 to horizontally move left and right so as to drive the arc-bending glass to horizontally move left and right, a precise screw rod adjusting device 106 drives a front and back guide sliding rail 107 to longitudinally move, a rotating direction adjusting device 105 is driven to longitudinally move, the rotating direction adjusting device 105 is used for the glass supporting plate 101, and accordingly the whole glass bearing device 1 and the device main body moving device 2 are matched to drive the arc-bending glass to adjust front, back, left and right and rotating directions, so that the arc-bending glass is aligned with a nano structure on a film 605, and after the position is adjusted, the position is locked by a ratchet wrench 108;

the roll apparatus 3 includes a roll 301, a roll height adjusting device 303 for adjusting the height of the roll 301, and a guide roll 302 provided above the roll 301 for guiding the fixing film 605.

The equipment main body moving device 2 can sequentially convey the curved glass matched with the film 605 to the lower parts of the press roller device 3, the UV light fixing device 4 and the ion static removing device 5, the press roller 301 on the press roller device 3 is used for embossing the nano structure on the film 605 of the curved glass, the height of the press roller 301 is adjusted by the press roller height adjusting device 303, the equipment main body moving device can adapt to glass embossing with different sizes, and after the UV nano film embossing, the UV glue is solidified and static removed by the UV light fixing device 4 and the ion static removing device 5 respectively;

the film fixing device 6 comprises a fixed end film clamping device 601 and a movable end film clamping device 602 which are used for fixing the film 605 in a matching way, film movement guiding devices 604 arranged on two sides of the movable end film clamping device 602, and a precise pneumatic device 603 for driving the film movement guiding devices 604 to act. The movable end membrane clamping device 602 ensures the constant tension of the membrane to act through the membrane movement guiding devices 604 at the two sides by the precise pneumatic device 603;

the film fixing device 6 is used for conveying and tension adjustment of the film 605, and the film 605 is convenient to position and convey.

The arc-bending glass UV nano transfer stamping press consists of a glass bearing device 1, an equipment main body moving device 2, a press roller device 3, a UV light fixing device 4, an ion static eliminating device 5 and a film fixing device 6, wherein the glass bearing device 1 is used for positioning glass, the equipment main body moving device 2 drives the glass bearing device 1 and the film 605 to act by a first servo, the press roller device 3 is used for stamping a nano structure on the film 605 of the arc-bending glass, and UV glue solidification and static elimination are respectively carried out through the UV light fixing device 4 and the ion static eliminating device 5 after the UV nano film stamping;

the precise screw rod motion of the servo motor is adopted, the stamping, arc bending carrier, precise alignment and precise pneumatic constant tension control mode are transferred, and meanwhile, the glass conveying device is fixed with one end of the film, so that the film and the glass are ensured to be completely synchronous. The arc-bending glass UV nano transfer stamping machine is reasonable in design, simple in structure, high in glass size compatibility, low in processing cost, short in manufacturing period, high in structural reduction degree and easy to operate.

Finally, it should be noted that: the foregoing description is only illustrative of the preferred embodiments of the present utility model, and although the present utility model has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements or changes may be made without departing from the spirit and principles of the present utility model.

Claims (5)

1. An arc bending glass UV nano transfer stamping machine is characterized in that: comprising the following steps:

the device comprises a device main body movement device (2), wherein the device main body movement device (2) comprises a main body frame (201), a precise ball screw (202) arranged on the main body frame (201), a plurality of precise linear slide rails (203) which are in transmission connection with the precise ball screw (202) through screw nuts and a profile frame (204) fixedly arranged at the top of the main body frame (201);

the glass bearing device (1), the glass bearing device (1) is arranged above the equipment main body movement device (2), and a precise ball screw (202) on the equipment main body movement device (2) acts to drive the glass bearing device (1) to move left and right;

the press roll device (3) is arranged above the glass bearing device (1), and the press roll device (3) is used for guiding the movement of the film (605);

the UV light fixing device (4) is arranged on the right side of the press roll device (3), and the UV light fixing device (4) is used for curing UV glue on the film (605);

the ion static eliminating device (5) is arranged on the right side of the UV light fixing device (4), and the ion static eliminating device (5) is used for eliminating static;

and the film fixing device (6) is arranged above the press roll device (3), and the film fixing device (6) is used for positioning the film (605).

2. The arced glass UV nano-transfer stamper of claim 1, wherein: the glass bearing device (1) comprises a glass supporting plate (101), a front guide device (102) and a rear guide device (103) which are arranged on the left side and the right side of the glass supporting plate (101), a supporting plate height adjusting device (104) for adjusting the height of the glass supporting plate (101), a precise screw rod adjusting device (106) arranged at the top of a precise linear sliding rail (203), a front guide sliding rail (107) and a rear guide sliding rail (107) which are connected with the screw rod on the precise screw rod adjusting device (106) through screw rod nuts in a transmission manner, a rotating direction adjusting device (105) which is arranged on the front guide sliding rail (107) and used for adjusting the rotating direction of the glass supporting plate (101) and a ratchet wrench (108) which is arranged on the front guide sliding rail (107) and the rear guide sliding rail and used for locking the position of the glass supporting plate (101).

3. The arced glass UV nano-transfer stamper of claim 1, wherein: the device main body movement device (2) drives the glass bearing device (1) and the film (605) to act by a first servo.

4. A curved glass UV nano-transfer stamping press as defined in claim 3, wherein: the press roller device (3) comprises a press roller (301), a press roller height adjusting device (303) for adjusting the height of the press roller (301) and a guide roller (302) which is arranged above the press roller (301) and used for guiding the fixed film (605).

5. The curved glass UV nano-transfer printer of claim 4, wherein: the film fixing device (6) comprises a fixed end film clamping device (601) and a movable end film clamping device (602) which are used for being matched with a fixed film (605), film movement guiding devices (604) arranged on two sides of the movable end film clamping device (602) and a precise pneumatic device (603) for driving the film movement guiding devices (604) to act.

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