CN216511725U - Full-automatic laser printing equipment - Google Patents

Abstract

The utility model provides full-automatic laser printing equipment which comprises an unwinding device, a tension adjusting mechanism, a mesh belt conveying device, a vacuumizing device, a laser printing chamber, a laser printing machine and a winding device, wherein the unwinding device and the winding device are arranged on the same side of the mesh belt conveying device, the installation position of a winding roller in the winding device is positioned below the oblique front of the installation position of the unwinding roller in the unwinding device, the tension adjusting mechanism is arranged behind the unwinding device, the mesh belt conveying device is horizontally arranged behind the tension adjusting mechanism along the transverse direction, the vacuumizing device is arranged below the mesh belt conveying device, the laser printing chamber is arranged above the rear end of the mesh belt conveying device, and the laser printing machine is arranged above the laser printing chamber and is arranged right opposite to the laser printing chamber downwards. This equipment not only can reduce the horizontal ground that takes up of whole equipment through the structural design to unwinding device and coiling mechanism, only needs an operating personnel just can accomplish moreover and unreel and the rolling, uses manpower sparingly.

Description

Full-automatic laser printing equipment

Technical Field

The utility model relates to the technical field of printing equipment, in particular to full-automatic laser printing equipment.

Background

The laser printing technology utilizes the high energy density characteristic of laser to irradiate the surface of the fabric to produce the effects of 3D (three-dimensional) patterns, figures, images, flowers, icons, characters and the like which cannot fade, and replaces the printing and dyeing and printing process with heavy pollution, so that the added value of products is improved in the fabric production process, and the development of the garment textile industry is promoted.

The publication numbers are: CN 210363003U's chinese patent application discloses a cloth laser printing machine, comprising: the cloth winding/unwinding device comprises a winding/unwinding roller arranged on a winding/unwinding rack, a plurality of winding/unwinding guide rollers arranged behind the winding/unwinding roller, a tension adjusting roller arranged between the winding/unwinding guide rollers, a winding/unwinding tension adjusting mechanism arranged on one side of the tension adjusting roller and used for adjusting the tension of the tension adjusting roller, and a central deviation rectifying mechanism arranged on one side of the tension adjusting roller; the vacuumizing conveying device is arranged between the two symmetrically arranged cloth winding/unwinding devices; and the laser printing device is arranged above the vacuumizing conveying device. The cloth laser printing machine is flexible in production and high in automation degree, can reduce and eliminate longitudinal tension of cloth in the moving process, is suitable for various types of cloth to perform accurate laser printing in a tension-free state or a micro-tension state, and improves printing accuracy and efficiency. However, the following problems are mainly found in the practical use process: (1) because the two symmetrically-installed cloth winding/unwinding devices are respectively positioned at the front side and the rear side of the vacuumizing conveying device, the transverse occupied area of the whole equipment is large, and the equipment is not beneficial to factory installation with smaller plant length; (2) unreeling and rolling need two operating personnel independently to accomplish, extravagant manpower.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects of the prior art, the utility model provides the full-automatic laser printing equipment, through the structural design of the unwinding device and the winding device, the transverse floor occupation of the whole equipment can be reduced, the unwinding and the winding can be completed by only one operator, and the labor is saved.

In order to realize the technical scheme, the utility model provides full-automatic laser printing equipment, which comprises: unwinding device, tension adjustment mechanism, guipure conveyor, evacuating device, laser stamp room, laser printing machine and coiling mechanism, unwinding device and coiling mechanism place in guipure conveyor's the same one side, and the mounted position of wind-up roll is located the oblique preceding below of the wind-up roll mounted position of unwinding device in the coiling mechanism, and tension adjustment mechanism installs the rear at unwinding device, guipure conveyor along horizontal installation at tension adjustment mechanism's rear, evacuating device installs the below at guipure conveyor, laser stamp room sets up in guipure conveyor rear end top, laser printing machine installs in laser stamp room top and just sets up to laser stamp room downwards, guipure conveyor's below is provided with a plurality of deflector rolls.

In the technical scheme, during actual operation, a cloth roll to be printed is placed on an unwinding roller of an unwinding device, the cloth to be printed is uniformly unwound through rotation of the unwinding roller, cloth is pulled to a mesh belt conveying device after tension is adjusted by a tension adjusting mechanism, the cloth to be printed is adsorbed on a conveying mesh belt of the mesh belt conveying device under the vacuumizing action of a vacuumizing device and moves backwards to a laser printing chamber along with the conveying mesh belt, laser printing operation is completed in the laser printing chamber under the action of a laser printing machine, and then the cloth to be printed is guided forwards to a winding roller of a winding device through a plurality of guide rollers arranged below the mesh belt conveying device to be wound. Because unwinding device and coiling mechanism place in guipure conveyor's the same one side, and the mounted position of wind-up roll is located the oblique front lower side of the unwinding roller mounted position in the unwinding device among the coiling mechanism, can realize that the homonymy of cloth unreels and the rolling, only needs a staff just can accomplish the rolling and unreel the task, can reduce the horizontal ground that takes up of whole equipment moreover, does benefit to the less mill's installation of factory building length.

Preferably, the unreeling tensioning roller is arranged below the unreeling roller on the unreeling device in an inclined mode, can be used for tensioning unreeled cloth, and realizes stable unreeling.

Preferably, be provided with the tension on the tension adjustment mechanism and adjust the pendulum rod, the both ends of tension adjustment pendulum rod all are provided with the deflector roll, unreel the tensioning roller and lie in unreeling between roller and the tension adjustment pendulum rod, realize the tension regulation to unreeling cloth through the cooperation of unreeling between tensioning roller and the tension adjustment pendulum rod to improve laser printing's quality.

Preferably, the mesh belt conveying device comprises a conveying mesh belt driving roller, a conveying mesh belt and a conveying mesh belt driven roller, wherein the conveying mesh belt driving roller and the conveying mesh belt driven roller are horizontally arranged at intervals, the conveying mesh belt is installed between the conveying mesh belt driving roller and the conveying mesh belt driven roller, and during actual work, the conveying mesh belt driving roller drives the conveying mesh belt to stably and annularly run.

Preferably, the surface of the conveying mesh belt is uniformly provided with meshes, and the bottom of the upper layer of conveying mesh belt is attached to a vacuumizing device, so that the cloth is stably adsorbed on the conveying mesh belt through the vacuumizing device.

Preferably, a water tank is arranged in the vacuumizing device, an air draft cover is arranged on the front side face of the laser printing chamber, and the air draft cover is connected with the water tank through an air draft pipe. In the actual printing process, pollutants such as harmful gas, smoke dust and the like can be generated and are collected by the exhaust hood and then conveyed to the water tank for treatment, so that the pollutants are prevented from being diffused.

Preferably, a guide roller is arranged behind the driven roller of the conveying mesh belt obliquely, a plurality of guide rollers distributed at intervals are arranged in front of the guide roller, and a cloth guide roller is arranged below the front side of the mesh belt conveying device and used for guiding cloth subjected to laser printing to be transmitted to the winding device.

Preferably, the winding tensioning roller is installed to the oblique back below of wind-up roll on the coiling mechanism, the rolling roller of rectifying is installed to the oblique back top of winding tensioning roller to improve the rolling quality.

Preferably, a PLC control panel is installed on the outer side face of the laser printing chamber and used for controlling the overall operation parameters of the equipment.

The full-automatic laser printing equipment provided by the utility model has the beneficial effects that: this full-automatic laser printing equipment not only can reduce the horizontal ground that accounts for of whole equipment through the structural design to unwinding device and coiling mechanism, only needs an operating personnel just can accomplish moreover and unreel and the rolling, uses manpower sparingly. During actual operation, cloth rolls needing to be printed are placed on an unwinding roller of an unwinding device, the cloth needing to be printed is discharged at a constant speed through rotation of the unwinding roller, cloth is pulled to a mesh belt conveying device after tension is adjusted through a tension adjusting mechanism, the cloth needing to be printed by laser is adsorbed on a conveying mesh belt of the mesh belt conveying device under the vacuumizing action of a vacuumizing device and moves backwards to a laser printing chamber along with the conveying mesh belt, laser printing operation is completed in the laser printing chamber under the action of a laser printing machine, and then the cloth needing to be printed by laser is guided forwards to a winding roller of a winding device through a plurality of guide rollers arranged below the mesh belt conveying device to be wound. Because unwinding device and coiling mechanism place in guipure conveyor's the same one side, and the mounted position of wind-up roll is located the oblique front lower side of the unwinding roller mounted position in the unwinding device among the coiling mechanism, can realize that the homonymy of cloth unreels and the rolling, only needs a staff just can accomplish the rolling and unreel the task, can reduce the horizontal ground that takes up of whole equipment moreover, does benefit to the less mill's installation of factory building length.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic side perspective structure of the present invention.

Fig. 3 is a top view of the present invention.

In the figure: 100. an unwinding device; 101. unwinding rollers; 102. unwinding a tension roller; 200. a tension adjusting mechanism; 201. a tension adjusting swing rod; 300. a mesh belt conveying device; 301. a conveying mesh belt driving roller; 302. a conveying mesh belt; 303. a conveying mesh belt driven roller; 304. a delivery roller; 305. a guide roller; 306. a cloth guide roller; 400. a vacuum pumping device; 401. a water tank; 500. an exhaust pipe; 600. an air draft cover; 700. a laser printing chamber; 710. a PLC control panel; 800. a laser printing machine; 900. a winding device; 901. winding deviation rectifying rollers; 902. a tension roller is wound; 903. and (7) winding the roller.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying 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. All other embodiments obtained by a person skilled in the art without making any inventive step are within the scope of the present invention.

Example (b): a full-automatic laser printing device.

Referring to fig. 1 to 3, a full-automatic laser embossing apparatus includes: unwinding device 100, tension adjustment mechanism 200, guipure conveyor 300, evacuating device 400, exhaust column 500, exhaust hood 600, laser stamp room 700, laser stamp machine 800 and coiling mechanism 900, unwinding device 100 and coiling mechanism 900 are placed in guipure conveyor 100's the same one side, and the mounted position of wind-up roll 903 is located unwinding device 100 in the coiling mechanism 900 oblique front lower place of unwinding roller 101 mounted position, it is provided with unreeling tensioning roller 102 to lie in unwinding device 101 on 100 oblique below, can be used for the cloth that the tensioning unreeled, realizes stably unreeling, and tension adjustment mechanism 200 installs the rear at unwinding device 100, be provided with tension adjustment pendulum rod 201 on tension adjustment mechanism 200, tension adjustment pendulum rod 201's both ends all are provided with the deflector roll, and unreeling tensioning roller 102 lies in between unwinding roller 101 and the tension adjustment pendulum rod 201, realizes the tension adjustment to unreeling cloth through the cooperation between unreeling tensioning roller 102 and the tension adjustment pendulum rod 201 To improve the quality of laser printing;

the mesh belt conveying device 300 is horizontally arranged behind the tension adjusting mechanism 200 along the transverse direction, the mesh belt conveying device 300 comprises a conveying mesh belt driving roller 301, a conveying mesh belt 302 and a conveying mesh belt driven roller 303, wherein the conveying mesh belt driving roller 301 and the conveying mesh belt driven roller 303 are horizontally arranged at intervals, the conveying mesh belt 302 is arranged between the conveying mesh belt driving roller 301 and the conveying mesh belt driven roller 303, and during actual work, the conveying mesh belt driving roller 301 drives the conveying mesh belt 302 to stably and circularly run; a leading-out roller 304 is arranged obliquely behind the driven roller 303 of the conveying mesh belt, a plurality of guide rollers 305 distributed at intervals are arranged in front of the leading-out roller 304, and a cloth guide roller 306 is arranged below the front side of the mesh belt conveying device 300 and used for guiding the cloth subjected to laser printing to be transmitted to the direction of a winding device 900;

the vacuumizing device 400 is arranged below the mesh belt conveying device 300, meshes are uniformly formed in the surface of the conveying mesh belt 302, and the bottom of the upper conveying mesh belt 302 is attached to the vacuumizing device 400 so that cloth can be stably adsorbed on the conveying mesh belt 302 through the vacuumizing device 400;

the laser printing chamber 700 is arranged above the rear end of the mesh belt conveying device 300, the laser printing machine 800 is arranged above the laser printing chamber 700 and is downwards opposite to the laser printing chamber 700, the vacuumizing device 400 is internally provided with a water tank 401, the front side surface of the laser printing chamber 700 is provided with an air draft cover 600, and the air draft cover 600 is connected with the water tank 401 through an air draft pipe 500. In the actual printing process, pollutants such as harmful gas, smoke dust and the like are generated and are collected by the air draft cover 600 and then conveyed to the water tank 401 for treatment, so that the pollutants are prevented from being diffused; a PLC control panel 710 is installed on the outer side surface of the laser printing chamber 700 and used for controlling the whole operation parameters of the equipment;

a winding tension roller 902 is installed below the inclined rear part of the winding roller 903 on the winding device 900, and a winding deviation correcting roller 901 is installed above the inclined rear part of the winding tension roller 902 so as to improve the winding quality.

This full-automatic laser printing equipment not only can reduce the horizontal ground that takes up of whole equipment through the structural design to unwinding device 100 and coiling mechanism 900, only needs an operating personnel to accomplish moreover and unreels and the rolling, uses manpower sparingly. In actual operation, a cloth roll to be printed is placed on the unwinding roller 101 of the unwinding device 100, the cloth to be printed is discharged at a constant speed through rotation of the unwinding roller 101, the cloth is pulled to the mesh belt conveying device 300 after tension is adjusted by the tension adjusting mechanism 200, the cloth to be printed is adsorbed on the conveying mesh belt 302 of the mesh belt conveying device 300 under the vacuumizing action of the vacuumizing device 400 and moves backwards to the laser printing chamber 700 along with the conveying mesh belt 302, the laser printing operation is completed in the laser printing chamber 700 under the action of the laser printing machine 800, and then the cloth to be printed is guided forwards to the winding roller 903 of the winding device 900 to be wound through the plurality of guide-out rollers 304, the guide roller 305 and the cloth guide roller 306 which are installed below the mesh belt conveying device 300. Because unwinding device 100 and coiling mechanism 900 are placed in the same one side of guipure conveyor 300, and the mounted position of wind-up roll 903 is located the oblique front lower side of unwinding roll 101 mounted position in unwinding device 100 in coiling mechanism 900, can realize that the homonymy of cloth unreels and the rolling, only need a staff just can accomplish the rolling and unreel the task, can reduce transversely taking up ground of whole equipment moreover, do benefit to the less mill's installation of factory building length.

The above description is only for the preferred embodiment of the present invention, but the present invention should not be limited to the embodiment and the disclosure of the drawings, and therefore, all equivalent or modifications that do not depart from the spirit of the present invention are intended to fall within the scope of the present invention.

Claims (9)

1. The utility model provides a full-automatic laser printing equipment, includes unwinding device, tension adjustment mechanism, guipure conveyor, evacuating device, laser printing room, laser printing machine and coiling mechanism, its characterized in that: unwinding device and coiling mechanism place in guipure conveyor's the same one side, and the mounted position of wind-up roll is located the oblique preceding below of the unwinding roller mounted position in the unwinding device in the coiling mechanism, tension adjustment mechanism installs the rear at unwinding device, guipure conveyor installs the rear at tension adjustment mechanism along horizontal level, evacuating device installs the below at guipure conveyor, laser stamp room sets up in guipure conveyor rear end top, laser stamp machine is installed in laser stamp room top and is just setting up laser stamp room downwards, guipure conveyor's below is provided with a plurality of deflector rolls.

2. The full-automatic laser printing apparatus according to claim 1, wherein: an unwinding tensioning roller is arranged on the unwinding device and is positioned below the unwinding roller in an inclined mode.

3. The full-automatic laser printing apparatus according to claim 2, wherein: the tension adjusting mechanism is provided with a tension adjusting swing rod, guide rollers are arranged at two ends of the tension adjusting swing rod, and the unreeling tension roller is located between the unreeling roller and the tension adjusting swing rod.

4. The full-automatic laser printing apparatus according to claim 3, wherein: the mesh belt conveying device comprises a conveying mesh belt driving roller, a conveying mesh belt and a conveying mesh belt driven roller, wherein the conveying mesh belt driving roller and the conveying mesh belt driven roller are horizontally arranged at intervals, and the conveying mesh belt is arranged between the conveying mesh belt driving roller and the conveying mesh belt driven roller.

5. The full-automatic laser printing apparatus according to claim 4, wherein: the surface of the conveying mesh belt is uniformly provided with meshes, and the bottom of the upper conveying mesh belt is attached to a vacuumizing device.

6. The full-automatic laser printing apparatus according to claim 5, wherein: the vacuum extractor is characterized in that a water tank is arranged in the vacuum extractor, an air draft cover is arranged on the front side face of the laser printing chamber, and the air draft cover is connected with the water tank through an air draft pipe.

7. The full-automatic laser printing apparatus according to claim 6, wherein: the inclined rear part of the driven roller of the conveying mesh belt is provided with a guide-out roller, the front part of the guide-out roller is provided with a plurality of guide rollers distributed at intervals, and a cloth guide roller is arranged below the front side of the mesh belt conveying device.

8. The full-automatic laser printing apparatus according to claim 7, wherein: the winding device is characterized in that a winding tension roller is installed below the inclined rear portion of the winding roller on the winding device, and a winding deviation correcting roller is installed above the inclined rear portion of the winding tension roller.

9. The full-automatic laser printing apparatus according to claim 8, wherein: and a PLC control panel is installed on the outer side surface of the laser printing chamber.

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