CN113172994B - Pressing type packaging bag embossing equipment - Google Patents

Abstract

The invention discloses a pressing type packaging bag embossing device which comprises a framework, a centering roller component and an embossing component, wherein the framework is a conveyor belt base, one end of the framework is provided with a driving roller, and the driving roller is connected with a driving motor fixed in the framework; the framework is provided with a plurality of centering roller components in a uniformly-arranged manner in a manner of extending towards the other end in the direction close to the driving roller, the rear section of each centering roller component is provided with a plurality of flat rollers in a uniformly-arranged manner, and transmission belts are wound in the driving roller, the centering roller components and the flat rollers; and a stamping box body is fixed on the flat rolling shaft distribution section, and a plurality of stamping assemblies with the axial direction vertical to the advancing direction of the conveying belt are arranged in the stamping box body. Compared with the prior art, the transverse surface of the conveying belt can be in different radians, and the placed packaging bag can float at high frequency for a short time so as to overcome the action of friction force and be maintained at the center of the conveying belt under the action of gravity.

Description

Pressing type packaging bag embossing equipment

Technical Field

The invention relates to the technical field of embossing equipment, in particular to pressing type packaging bag embossing equipment.

Background

The roller imprinting mainly realizes functions of gluing, imprinting, ultraviolet curing, demolding and the like through rotation of the roller and pressure between the roller and the conveyor belt. The coating thickness and the stamping pressure of the stamping glue are controlled by controlling the rotating speed of the roller and the pressure between the roller and the bottom plate of the conveying belt, the whole stamping process is a continuous process, the stamping efficiency can be greatly improved, the stamping cost is reduced, and the method is a better choice for stamping the packaging bag.

Among the prior art, through artifical or mechanical equipment with the wrapping bag tiling in the conveyer belt top, convey the rolling device below to carry out the impression by the compression roller to the wrapping bag, but, because the wrapping bag is lamellar object, current drive belt centering device can't exert an effect to it, need artifically place it in the middle of being positive, otherwise the impression position can squint, and because the wrapping bag is lighter, influence the pleasing to the eye degree of impression effect, place and receive the easy aversion of air current disturbance in the plane conveyer belt, thereby produce the defective work, increased manufacturing cost.

Therefore, it is necessary to provide a pressing type bag pressing apparatus to solve the problems of the background art.

Disclosure of Invention

In order to achieve the purpose, the invention provides the following technical scheme: a pressing type packaging bag pressing and printing device comprises a framework, a centering roller component and a pressing and printing component, wherein the framework is a conveyor belt base, one end of the framework is provided with a driving roller, and the driving roller is connected with a driving motor fixed in the framework;

the framework is provided with a plurality of centering roller assemblies in a manner of extending uniformly to the other end in the direction close to the driving roller, the rear sections of the centering roller assemblies are provided with a plurality of flat rollers in a manner of uniformly arranging, the driving roller, the centering roller assemblies and the flat rollers are wound with transmission belts, the transverse surfaces of the transmission belts in the distribution sections of the centering roller assemblies are arc-shaped, and the transverse surfaces of the transmission belts in the distribution sections of the flat rollers are straight lines;

the flat rolling shaft distribution section is fixedly provided with a coining box body, the side surface of the coining box body is fixedly connected with the framework, the side surface of the coining box body on the transmission belt is separated from the transmission belt by a certain distance, and a plurality of coining assemblies which are vertical to the advancing direction of the transmission belt in the axial direction are arranged in the coining box body.

Further, preferably, the centering roller assembly comprises a base and a central roller, the base is a beam perpendicular to the advancing direction of the conveying belt, two ends of the beam are fixedly connected with the side surface of the framework, two bearing seats are symmetrically fixed in the middle of the base, and the central roller is rotatably arranged between the bearing seats;

one sides of the two bearing seats, which are far away from the central roller, are respectively provided with a roller rotating plate, and the two roller rotating plates are symmetrically provided with rotatable side rollers.

Further, preferably, the bearing seat is rotatably connected with the side plate of the roller through a connecting hinge;

and the rotating shaft of the central rolling shaft is connected with the rotating shafts of the side rolling shafts at two sides of the central rolling shaft through universal joints respectively.

Further, preferably, an arc-shaped guide rail which takes the connecting hinge as a circle center is fixed at each of two ends of the base, and a sliding hinge is slidably arranged in the arc-shaped guide rail;

the sliding hinges on the same side of each centering roller component are fixedly connected to an adjusting plate together, a kidney-shaped groove perpendicular to the extending direction of each side roller is formed in the position, corresponding to each side roller, of each adjusting plate, and a rotating shaft at one end, far away from the central roller, of each side roller is connected to the kidney-shaped groove in a penetrating mode in a sliding mode.

Further, preferably, the sliding hinge is connected with the base through a servo telescopic rod, a cylinder body of the servo telescopic rod is hinged with the base, and the tail end of a piston rod of the servo telescopic rod is hinged with the sliding hinge.

Preferably, a rotating shaft of each side roller penetrates through the adjusting plate through a kidney-shaped groove, and the rotating shafts are connected to the same vibrating plate in a rotatable mode on one face, far away from the side rollers, of each side roller, the vibrating plate can move in the width direction of the adjusting plate, and the vibrating plate is connected with the side face of the adjusting plate through a plurality of supporting springs;

and the support spring enables the adjusting plate to be positioned above the kidney-shaped groove in a natural state.

Preferably, a plurality of cams are rotatably connected in the adjusting plate on one side of the adjusting plate, which is far away from the supporting spring, a rotating shaft of each cam penetrates through the adjusting plate, a side plate motor is fixed on one side of the adjusting plate, which is far away from the cam, and an output shaft of each side plate motor is connected with the rotating shaft of each cam through a bevel gear set;

and, when the supporting spring is in a natural state, the base circle of the cam is attached to the vibration plate.

Further, preferably, the stamping assembly comprises stamping side plates and stamping rollers, the stamping side plates are fixed on two sides of the stamping box body in pairs, a plurality of E-shaped clamping grooves are formed in the stamping side plates, and a coating box is connected in the clamping grooves at the same height between each pair of stamping side plates;

the coating box is a cover body with an opening at the lower part, a stamping roller is rotatably arranged in the coating box, the stamping roller is attached to a transmission belt below the stamping roller, the linear speed of the stamping roller is the same, and the coating box can continuously add coating above the stamping roller.

Further, preferably, an exhaust fan is arranged above the stamping box body.

Further, as the optimization, the side of the coining box body is provided with an air inlet grid.

Compared with the prior art, the invention has the beneficial effects that:

according to the invention, the sliding hinge is pulled to slide in the arc-shaped guide rail through the extension and retraction of the servo telescopic rod, so that the adjusting plate fixed with the sliding hinge drives each side rolling shaft to rotate around the connecting hinge, and the transverse surfaces of the transmission belts wound on the adjusting plate are in different radians, so that the packaging bags with different sizes are automatically centered in the arc surface under the action of gravity.

In the invention, the side plate motor drives the cam to rotate, so that the cam repeatedly presses the vibrating plate downwards, and the supporting spring provides reverse elastic force to enable the vibrating plate to vibrate along the direction of the kidney-shaped groove, so that the side roller rotatably connected with the vibrating plate vibrates, and the packaging bag placed on the conveying belt floats at short time and high frequency, thereby overcoming the action of friction force and maintaining the position at the center of the conveying belt under the action of gravity.

According to the invention, the packaging bag can be subjected to multiple imprinting or imprinting of contents with different colors by sequentially passing through the plurality of imprinting assemblies, so that the cost of multi-color imprinting is reduced, and the imprinted contents in the packaging bag are richer and more attractive.

Drawings

FIG. 1 is a schematic structural view of a pressing type bag embossing apparatus;

FIG. 2 is a schematic view of a centering roller assembly of the pressing type bag embossing apparatus;

FIG. 3 is a schematic view of an embossing assembly of the pressing type bag embossing apparatus;

in the figure: 1. a frame; 2. a drive roller; 3. a drive motor; 4. a transfer belt; 5. a centering roller assembly; 6. stamping the box body; 7. an imprinting assembly; 8. an air draft device; 9. an air inlet grille; 10. a flat roller; 51. a base; 52. a bearing seat; 53. a central roller; 54. a side roller; 55. a connecting hinge; 56. a universal joint; 57. an arc-shaped guide rail; 58. an adjustment plate; 59. a kidney-shaped groove; 510. a sliding hinge; 511. a vibrating plate; 512. a support spring; 513. a cam; 514. a bevel gear set; 515. a side plate motor; 516. a servo telescopic rod; 517. rolling a roller and rotating a plate; 71. stamping a side plate; 72. a paint tank; 73. and (4) a stamping roller.

Detailed Description

Referring to fig. 1, in an embodiment of the present invention, a pressing type packaging bag pressing device includes a frame 1, a centering roller assembly 5, and a pressing assembly 7, where the frame 1 is a base of a conveyor belt, and one end of the frame is provided with a driving roller 2, and the driving roller 2 is connected to a driving motor 3 fixed in the frame 1;

the packaging bag conveying mechanism is characterized in that a plurality of centering roller assemblies 5 are uniformly arranged in a manner that the framework 1 extends towards the other end of the framework in a direction close to the driving roller assembly 2, a plurality of flat rollers 10 are uniformly arranged at the rear section of the centering roller assemblies 5, a conveying belt 4 is wound in the driving roller assembly 2, the centering roller assembly 5 and the flat rollers 10, the transverse plane of the conveying belt 4 in the distribution section of the centering roller assemblies 5 is arc-shaped, the transverse plane of the conveying belt in the distribution section of the flat rollers 10 is straight, and the driving roller assembly 2 drives the conveying belt 4 to move from the centering roller assemblies 5 to the flat rollers 10, so that packaging bags placed on the conveying belt 4 can be adjusted to be bilaterally symmetrical positions in the centering roller assemblies 5 and then enter the flat rollers 10 to be laid;

the packaging bag packaging machine is characterized in that a stamping box body 6 is fixed on the distribution section of the flat rolling shaft 10, the side surface of the stamping box body 6 is fixedly connected with the framework 1, the side surface of the stamping box body 6 on the transmission belt 4 is separated from the transmission belt 4 by a certain distance, a plurality of stamping assemblies 7 with the axial direction perpendicular to the advancing direction of the transmission belt 4 are arranged in the stamping box body 6, a packaging bag is paved in the flat rolling shaft 10 and enters the stamping box body 6, and the packaging bag is stamped by the plurality of stamping assemblies 7 in the packaging bag in sequence.

Referring to fig. 2, in the present embodiment, the centering roller assembly 5 includes a base 51 and a central roller 53, the base 51 is a beam perpendicular to the advancing direction of the conveying belt 4, two ends of the beam are fixedly connected to the side surface of the frame 1, two bearing seats 52 are symmetrically fixed in the middle of the base 51, and the central roller 53 is rotatably disposed between the bearing seats 52;

the two bearing blocks 52 are respectively provided with a roller rotating plate 517 on one side away from the central roller 53, and the two roller rotating plates 517 are symmetrically provided with rotatable side rollers 54.

In this embodiment, the bearing seat 52 is rotatably connected to the roller side plate 517 via a connecting hinge 55;

the rotating shaft of the central roller 53 is connected with the rotating shafts of the side rollers 54 at two sides of the central roller through universal joints 56;

that is, the hinge 55 is connected to enable the axial direction of the central roller 53 to rotate at a certain angle with the axial direction of the side rollers 54, and the universal joint 56 is connected to enable the central roller 53 and the side rollers 54 at both sides thereof to rotate synchronously at any angle, so that the transverse surfaces of the transmission belts 4 wound thereon are in different radians to adapt to the centering of the packaging bags with different sizes.

In this embodiment, an arc-shaped guide rail 57 taking the connection hinge 55 as a circle center is fixed at each of two ends of the base 51, and a sliding hinge 510 is slidably arranged in the arc-shaped guide rail 57;

the sliding hinges 510 on the same side of each centering roller assembly 5 are fixedly connected to an adjusting plate 58, a waist-shaped groove 59 perpendicular to the extending direction of each side roller 54 is formed in the adjusting plate 58 corresponding to the position of each side roller 54, and a rotating shaft at one end of each side roller 54 far away from the center roller 53 can slide and is penetratingly connected to the waist-shaped groove 59.

In this embodiment, the sliding hinge 510 is connected to the base 51 through a servo telescopic rod 516, a cylinder of the servo telescopic rod 516 is hinged to the base 51, and a tail end of a piston rod of the servo telescopic rod 516 is hinged to the sliding hinge 510;

by the expansion and contraction of the servo telescopic rod 516, the sliding hinge 510 can be pulled to slide in the arc-shaped guide rail 57, so that the adjusting plate 58 fixed with the sliding hinge drives each side roller 54 to rotate around the connecting hinge 55.

In this embodiment, the rotation shaft of each side roller 54 penetrates the adjustment plate 58 through the kidney-shaped groove 59, and is connected to the same vibration plate 511 together rotatably on the side away from the side roller 54, the vibration plate 511 can move in the width direction of the adjustment plate 58, and the vibration plate 511 is connected to the side of the adjustment plate 58 through a plurality of support springs 512;

the support spring 512 naturally positions the adjustment plate 58 above the kidney groove 59.

In this embodiment, a plurality of cams 513 are rotatably connected to the adjusting plate 58 on the side of the adjusting plate 58 away from the supporting spring 512, the rotating shaft of the cam 513 passes through the adjusting plate 58, a side plate motor 515 is fixed to the side of the adjusting plate 58 away from the cam 513, and the output shaft of the side plate motor 515 is connected to the rotating shaft of the cam 513 through a bevel gear set 514;

when the supporting spring 512 is in a natural state, the base circle of the cam 513 is attached to the vibration plate 511;

the cam 513 is driven to rotate by the side plate motor 515, so that the cam 513 repeatedly presses the vibration plate 511 downwards, and the support spring 512 provides reverse elastic force, so that the vibration plate 511 vibrates along the direction of the kidney-shaped groove 59, thereby vibrating the side roller 54 rotatably connected with the vibration plate, and floating the packaging bag placed on the conveying belt 4 with short-time and high-frequency to overcome the effect of friction force, and maintaining the position at the center of the conveying belt 4 under the effect of gravity, so as to play a centering role.

Referring to fig. 3, in the present embodiment, the stamping assembly 7 includes stamping side plates 71 and stamping rollers 73, the stamping side plates 71 are fixed on two sides of the stamping box 6 in pairs, a plurality of "E" shaped slots are formed in the stamping side plates 71, and a coating box 72 is connected in the slot at the same height between each pair of stamping side plates 71;

the paint tank 72 is a cover body with an opening at the lower part, a platen roller 73 is rotatably arranged in the paint tank, the platen roller 73 is attached to the conveying belt 4 below the platen roller 73, the linear speed of the platen roller 73 is the same, and the paint tank 72 can continuously add paint above the platen roller 73.

In this embodiment, an exhaust fan is arranged above the imprinting box body 6.

And an air inlet grille 9 is arranged on the side surface of the coining box body 6.

In specific implementation, according to the size of the packaging bag to be stamped, the sliding hinge 510 is pulled to slide in the arc-shaped guide rail 57 through the extension and contraction of the servo telescopic rod 516, so that the adjusting plate 58 fixed with the sliding hinge drives each side roller 54 to rotate around the connecting hinge 55, and the transverse surfaces of the transmission belts 4 wound on the side rollers are in different radians to adapt to centering of the packaging bags with different sizes;

the driving roller 2 drives the transmission belt 4 to move from the centering roller assembly 5 to the flat roller 10, so that the packaging bags placed on the transmission belt 4 can be adjusted to be in bilateral symmetry in the centering roller assembly 5 and then enter the flat roller 10 to be paved;

wherein, the cam 513 is driven to rotate by the side plate motor 515, so that the cam 513 repeatedly presses the vibration plate 511 downwards, and the support spring 512 provides reverse elastic force, so that the vibration plate 511 generates vibration along the direction of the kidney-shaped groove 59, thereby vibrating the side roller 54 rotatably connected with the vibration plate, and enabling the packaging bag placed on the transmission belt 4 to float with short time and high frequency, so as to overcome the action of friction force, and maintain the position at the center of the transmission belt 4 under the action of gravity, so as to play a centering role;

the packaging bag is paved and leveled in the flat rolling shaft 10 and enters the impressing box body 6, and the multiple impressing assemblies 7 in the packaging bag are used for impressing in sequence;

the coating box 72 can continuously add coating of contents to be stamped above the stamping roller 73 and stamp the coating into a packaging bag below the stamping roller 73 by the stamping roller 73, and the packaging bag can be subjected to multiple stamping or stamping of contents with different colors sequentially through the plurality of stamping assemblies 7, so that the stamped contents in the packaging bag are richer and more attractive;

and, updraft ventilator 8 continuously takes away the toxic gas that the interior coating of impression box 6 distributed.

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 are equivalent to or changed within the technical scope of the present invention.

Claims (6)

1. A pressing type packaging bag pressing and printing device comprises a framework (1), a centering roller assembly (5) and a pressing and printing assembly (7), and is characterized in that the framework (1) is a conveyor belt base, a driving roller (2) is arranged at one end of the framework, and the driving roller (2) is connected with a driving motor (3) fixed in the framework (1);

the frame (1) is provided with a plurality of centering roller assemblies (5) in a manner of extending uniformly to the other end in a direction close to the driving roller (2), the rear sections of the centering roller assemblies (5) are provided with a plurality of flat rollers (10) in a manner of uniformly arranging, a transmission belt (4) is wound in the driving roller (2), the centering roller assemblies (5) and the flat rollers (10), the transverse plane of the transmission belt (4) in the distribution section of the centering roller assemblies (5) is arc-shaped, and the transverse plane of the transmission belt in the distribution section of the flat rollers (10) is straight;

a stamping box body (6) is fixed on the distribution section of the flat rolling shaft (10), the side surface of the stamping box body (6) is fixedly connected with the framework (1), the side surface of the stamping box body (6) on the transmission belt (4) is separated from the transmission belt (4) by a certain distance, and a plurality of stamping assemblies (7) which are axially vertical to the advancing direction of the transmission belt (4) are arranged in the stamping box body (6);

the centering roller assembly (5) comprises a base (51) and a central roller (53), the base (51) is a beam perpendicular to the advancing direction of the transmission belt (4), two ends of the beam are fixedly connected with the side face of the framework (1), two bearing seats (52) are symmetrically fixed in the middle of the base (51), and the central roller (53) is rotatably arranged between the bearing seats (52);

one sides of the two bearing blocks (52) far away from the central roller (53) are respectively provided with a roller rotating plate (517), and the two roller rotating plates (517) are symmetrically provided with rotatable side rollers (54);

an arc-shaped guide rail (57) taking the connecting hinge (55) as a circle center is fixed at each of the two ends of the base (51), and a sliding hinge (510) is slidably arranged in the arc-shaped guide rail (57);

the sliding hinges (510) on the same side of each centering roller assembly (5) are fixedly connected to an adjusting plate (58) together, a kidney-shaped groove (59) perpendicular to the extending direction of each side roller (54) is formed in the position, corresponding to each side roller (54), of each adjusting plate (58), and a rotating shaft of one end, far away from the central roller (53), of each side roller (54) can slide and is connected to the kidney-shaped groove (59) in a penetrating mode;

the rotating shaft of each side roller (54) penetrates through the adjusting plate (58) through a kidney-shaped groove (59), and one surface of each side roller (54) far away from the adjusting plate is connected to the same vibrating plate (511) in a rotating mode, the vibrating plates (511) can move in the width direction of the adjusting plate (58), and the vibrating plates (511) are connected with the side faces of the adjusting plate (58) through a plurality of supporting springs (512);

the support spring (512) enables the adjusting plate (58) to be positioned above the kidney-shaped groove (59) in a natural state;

a plurality of cams (513) are rotatably connected in the adjusting plate (58) on one side of the adjusting plate (58) far away from the supporting spring (512), a rotating shaft of each cam (513) penetrates through the adjusting plate (58), a side plate motor (515) is fixed on one side of the adjusting plate (58) far away from the cam (513), and an output shaft of the side plate motor (515) is connected with the rotating shaft of the cam (513) through a bevel gear set (514);

when the support spring (512) is in a natural state, the base circle of the cam (513) is fitted to the vibration plate (511).

2. A press-in type envelope embossing apparatus as claimed in claim 1, wherein said bearing housing (52) is rotatably connected to said roller platen (517) by a connecting hinge (55);

the rotating shaft of the central roller (53) is connected with the rotating shafts of the side rollers (54) at two sides of the central roller through a universal joint (56).

3. The pressing type packaging bag embossing equipment as claimed in claim 1, characterized in that the sliding hinge (510) is connected with the base (51) through a servo telescopic rod (516), the cylinder of the servo telescopic rod (516) is hinged with the base (51), and the end of the piston rod of the servo telescopic rod is hinged with the sliding hinge (510).

4. The pressing type packaging bag embossing equipment as claimed in claim 1, characterized in that the embossing assembly (7) comprises embossing side plates (71) and embossing rollers (73), the embossing side plates (71) are fixed on two sides of the embossing box body (6) in pairs, a plurality of E-shaped clamping grooves are formed in the embossing side plates (71), and a coating box (72) is connected in the clamping groove at the same height between each pair of embossing side plates (71);

the coating box (72) is a cover body with an opening at the lower part, a stamping roller (73) is rotatably arranged in the coating box, the stamping roller (73) is attached to the conveying belt (4) below the stamping roller (73), the linear speed of the stamping roller is the same, and the coating box (72) can continuously add coating above the stamping roller (73).

5. A press-type bag embossing apparatus as claimed in claim 1, characterized in that a suction fan is provided above said embossing box (6).

6. A press-in type envelope embossing apparatus as claimed in claim 1, characterized in that the side of the embossing box (6) is provided with an air-inlet grille (9).

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