CN112497842A - Carton tectorial membrane cuts uses pressing equipment - Google Patents

Abstract

The invention discloses a pressing device for cutting a paper box film, which structurally comprises a rotating device, a fixed plate, a support frame, a winding rod and a control panel, wherein the rotating device is embedded in the inner side surface of the fixed plate, the control panel is arranged at the inclined position of the right side of the fixed plate, the winding rod is parallel to the rotating device, the support frame is welded at the lower end of the fixed plate, a film is coated in a rotating structure in a guide mechanism, a friction ball is driven to rotate outside a rotating shaft, so that the film is coated on a circular shaft in a coating mechanism, then the action force of buffering the bending plate coated on the outer side of a smooth ring is exerted, the coating force of the film is enhanced through the buffering effect, the slipping phenomenon during cutting is avoided, the film is prevented from being deviated, when the film stops moving, the action force on the rotating ring is reduced, so that a ball body in a rubber ring is separated, thereby avoiding the rotating ring from continuously rotating under the inertia force of the film.

Description

Carton tectorial membrane cuts uses pressing equipment

Technical Field

The invention relates to the field of laminating equipment for a paper box, in particular to pressing equipment for laminating and cutting the paper box.

Background

The carton film is covered and pasted on the surface of a carton through hot pressing, the effects of protecting and increasing gloss are achieved, the film is rolled while being cut, the fixed knife edge cuts the film through the tensile force generated by rotation on the film, but the film is easy to shake under the linear cutting force due to poor attaching force in the cutting process, so that the cutting deviation is caused, the flatness of the film is influenced, the film covering roller is easy to generate inertia force when the machine is stopped, the film covering roller drives the film to rotate continuously, the film covering is in a relaxed state, the cutting force of the film covering is easy to reduce, the acting force of the knife edge on the film covering deviates from the linear state, and the film covering is damaged.

Disclosure of Invention

The invention is realized by the following technical scheme: the utility model provides a carton tectorial membrane cuts uses suppression equipment, its structure includes rotary device, fixed plate, support frame, coiling pole, control panel, rotary device inlays admittedly at the fixed plate medial surface, control panel installs in fixed plate right side slope department, the coiling pole is on a parallel with rotary device, the support frame welding is at the fixed plate lower extreme, rotary device is equipped with die pressing axle, loose axle, guiding mechanism, cut-out paper piece, roller mechanism, die pressing axle and loose axle clearance fit, cut-out paper piece inlays admittedly inside guiding mechanism, roller mechanism is located cut-out paper piece right side below, the loose axle is the straight line with guiding mechanism and intersects in roller mechanism, roller mechanism is located directly over the coiling pole, coiling pole left side is connected with the engine, installs in the inside lower extreme of fixed plate.

As a further improvement of the invention, the guide mechanism is provided with a rotating structure, a friction ball and a rotating shaft, the friction ball is attached to the outer side of the rotating shaft, the rotating structure and the rotating shaft are positioned on the same central axis, the rotating structure is positioned on the outer side of the friction ball, the rotating shaft is arranged in the fixing plate, the rotating shaft is embedded and fixed in the paper cutting sheet, and the outer side of the rotating structure is of a continuous bending structure.

As a further improvement of the invention, the rotating structure is provided with an optical slip ring, a sealing groove and a fitting mechanism, the sealing groove is embedded and fixed on the inner side of the fitting mechanism, the fitting mechanism is fitted on the outer side of the smooth ring, the sealing groove is positioned on the outer side of the smooth ring, the optical slip ring is in clearance fit with the friction ball, and the fitting mechanism is of an integral continuous bending structure and has a good stress effect.

As a further improvement of the invention, the laminating mechanism is provided with a bending plate, a rubber plate, a sponge block and a circular shaft, the sponge block is embedded and fixed on the outer side of the bending plate, the circular shaft is arranged inside the outer side of the rubber plate, the sponge block is in clearance fit with the rubber plate, the bending plate is laminated on the outer side of the smooth ring, and the circular shaft is made of rubber materials of which the outer sides are not polished, so that the laminating mechanism has a good laminating effect.

As a further improvement of the invention, the roller mechanism is provided with a rotating ring, a fixed shaft, a rubber ring and a reset structure, the rubber ring is attached to the outer side of the fixed shaft, the rotating ring and the rubber ring are in clearance fit, the reset structure is installed on the outer side of the rotating ring, the rotating ring and the fixed shaft are located on the same central axis, the fixed shaft is embedded and fixed inside the fixed plate, the rubber rings are connected with each other, the roller mechanism has the effect of being not easy to disperse, and the inner side of the rubber ring is provided with a smooth spherical body.

The resetting structure is further improved by comprising a semicircular groove, an attaching plate and a cylindrical hole, wherein the semicircular groove is positioned on the inner side of the attaching plate, the cylindrical hole penetrates through the interior of the attaching plate, the cylindrical hole is connected with the semicircular groove, the attaching plate is attached to the outer side of the rotating ring, the interior of the attaching plate is of an arc groove-shaped structure, and the outer side of the attaching plate is made of rubber.

Advantageous effects

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

1. tectorial membrane laminating is in rotating-structure in guiding mechanism, and it is rotatory in the axis of rotation outside to drive the friction ball for the tectorial membrane is to the laminating of the circular shaft in the laminating mechanism, and the effort that makes the tectorial membrane remove carries out the atress through the sponge piece and crooked in the rubber slab outside, cushions the effort to the laminating in the crooked board in the smooth ring outside then, and the laminating power of effect reinforcing tectorial membrane through the buffering avoids producing the phenomenon of skidding when the cutting, avoids the tectorial membrane to produce the skew.

2. The rotating ring extrudees the rubber ring when the tectorial membrane removes to the spheroid of the inside side of rubber ring slides in the fixed axle outside, thereby drives the rotating ring and rotates, when the tectorial membrane stop movement, reduces the effort to the rotating ring, thereby the inside spheroid of rubber ring breaks away from with the contact of the fixed axle outside, thereby the rubber ring produces frictional resistance to the fixed axle, thereby avoids the rotating ring to continue to rotate under the tectorial membrane inertial force.

Drawings

FIG. 1 is a schematic structural diagram of a pressing device for cutting a covering film of a carton according to the present invention.

Fig. 2 is a schematic side view of a rotating device according to the present invention.

Fig. 3 is a schematic side view of a guiding mechanism according to the present invention.

Fig. 4 is a partial h enlarged structural diagram of a rotation structure according to the present invention.

Fig. 5 is a partial enlarged structural diagram of a bonding mechanism according to the present invention.

Fig. 6 is a schematic side view of a roller mechanism according to the present invention.

Fig. 7 is a schematic perspective view of a reposition structure according to the present invention.

In the figure: the paper cutting machine comprises a rotating device-1, a fixing plate-2, a support frame-3, a winding rod-4, a control panel-5, a film pressing shaft-11, a movable shaft-12, a guide mechanism-13, a paper cutting sheet-14, a roller mechanism-15, a rotating structure-13 a, a friction ball-13 b, a rotating shaft-13 c, a smooth ring-a 1, a sealing groove-a 2, a gluing mechanism-a 3, a bending plate-a 31, a rubber plate-a 32, a sponge block-a 33, a circular shaft-a 34, a rotating ring-w 1, a fixing shaft-w 2, a rubber ring-w 3, a resetting structure-w 4, a semicircular groove-w 41, a gluing plate-w 42 and a cylindrical hole-w 43.

Detailed Description

The technology of the present invention is further described with reference to the accompanying drawings:

example 1:

as shown in fig. 1-5:

the invention relates to a pressing device for cutting a paper box film, which structurally comprises a rotating device 1, a fixed plate 2, a supporting frame 3, a winding rod 4 and a control panel 5, wherein the rotating device 1 is embedded and fixed on the inner side surface of the fixed plate 2, the control panel 5 is arranged at the inclined position of the right side of the fixed plate 2, the winding rod 4 is parallel to the rotating device 1, the supporting frame 3 is welded at the lower end of the fixed plate 2, the rotating device 1 is provided with a film pressing shaft 11, a movable shaft 12, a guide mechanism 13, a paper cutting sheet 14 and a roller mechanism 15, the film pressing shaft 11 is in clearance fit with the movable shaft 12, the paper cutting sheet 14 is embedded and fixed in the guide mechanism 13, the roller mechanism 15 is positioned at the lower right side of the paper cutting sheet 14, the movable shaft 12 and the guide mechanism 13 are linearly intersected with the roller mechanism 15, the roller mechanism 15 is positioned right above the winding rod 4, install in the inside lower extreme of fixed plate 2, drive winding rod 4 and rotate the rolling to make the tectorial membrane cut at the rolling in-process.

Wherein, guiding mechanism 13 is equipped with rotating-structure 13a, friction ball 13b, axis of rotation 13c, the laminating of friction ball 13b is in the axis of rotation 13c outside, rotating-structure 13a is located same center axis with axis of rotation 13c, rotating-structure 13a is located the friction ball 13b outside, axis of rotation 13c is installed inside fixed plate 2, axis of rotation 13c inlays admittedly inside cut-to-size piece 14, the rotating-structure 13a outside is continuous bending structure, and the tectorial membrane laminating rotates in the rotating-structure 13a outside, drives friction ball 13b and axis of rotation 13c simultaneously and rubs.

Wherein, revolution mechanic 13a is equipped with light sliding ring a1, seal groove a2, laminating mechanism a3, seal groove a2 inlays admittedly at laminating mechanism a3 inboard, laminating mechanism a3 laminates in smooth ring a1 outside, seal groove a2 is located the light sliding ring a1 outside, light sliding ring a1 and friction ball 13b clearance fit, laminating mechanism a3 is whole continuous bending structure, has good atress effect to the power that the tectorial membrane removed drives light sliding ring a1 and rotates in the friction ball 13b outside.

Wherein, laminating mechanism a3 is equipped with crooked board a31, rubber slab a32, sponge piece a33, circular axle a34, sponge piece a33 inlays in crooked board a31 outside, circular axle a34 is installed inside rubber slab a32 outside, sponge piece a33 and rubber slab a32 clearance fit, crooked board a31 laminating is in smooth ring a1 outside, circular axle a34 is the rubber material that the outside was not polished, has good laminating effect, avoids the tectorial membrane to produce the phenomenon of skidding.

The embodiment has the following specific use modes and functions:

in the invention, a control panel 5 controls a winding rod 4 arranged in a fixed plate 2 to rotate so as to wind a coating, the coating is pressed through a film pressing shaft 11 and a movable shaft 12, the coating is smooth, so that the coating is attached to the outer side of a guide mechanism 13 and is cut through a paper cutting piece 14, the movable shaft 12, the guide mechanism 13 and the paper cutting piece 14 are in a three-point and one-line mode to prevent the change of the moving direction of the coating when the coating is cut, the coating is attached to a rotating mechanism 13a in the guide mechanism 13, a friction ball 13b is driven to rotate on the outer side of a rotating shaft 13c, the coating is attached to a circular shaft 34 in an attaching mechanism a3, the acting force of the movement of the coating is stressed and bent on the outer side of a rubber plate 32 through a sponge block a33, then the acting force is buffered on a bent plate a31 attached to the outer side of a smooth ring a1, and the, avoid producing the phenomenon of skidding when the cutting, avoid the tectorial membrane to produce the skew.

Example 2:

as shown in fig. 6-7:

the roller mechanism 15 is provided with a rotating ring w1, a fixed shaft w2, a rubber ring w3 and a resetting structure w4, the rubber ring w3 is attached to the outer side of the fixed shaft w2, the rotating ring w1 is in clearance fit with the rubber ring w3, the resetting structure w4 is installed on the outer side of the rotating ring w1, the rotating ring w1 and the fixed shaft w2 are located on the same central axis, the fixed shaft w2 is embedded and fixed inside the fixed plate 2, the rubber rings w3 are connected with each other, a smooth ball is installed on the inner side of the rubber ring w3, when the rotating ring w1 presses the rubber ring w 24, the ball slides on the outer side of the fixed shaft w2 to drive the rotating ring w1 to rotate, when the tectorial membrane stops moving, acting force on the rotating ring w 9 is reduced, so that the ball inside the rubber ring w3 is separated from being in contact with the outer side of the fixed shaft w2, and the rubber ring w3 generates friction resistance on the fixed shaft w2, thereby preventing the rotating ring w1 from continuing to rotate under the inertial force of the coating.

The utility model discloses a reset structure w4 is equipped with semicircular groove w41, rigging board w42, cylindrical hole w43, semicircular groove w41 is located rigging board w42 inboard, cylindrical hole w43 runs through inside rigging board w42, cylindrical hole w43 is connected with semicircular groove w41, rigging board w42 laminating is in the rotating ring w1 outside, rigging board w42 is inside to be arc slot-shaped structure, the rigging board w42 outside is the rubber material for the tectorial membrane laminating is at rigging board w42 outside surface, and rigging board w42 produces deformation, makes rigging board w42 inside when deformation through cylinder w43 and produces atmospheric pressure, strengthens the laminating effect to the tectorial membrane, avoids the effort of tectorial membrane to rigging board w42 less after the stop work, prevents that the tectorial membrane from continuing to move under the inertial force.

The embodiment has the following specific use modes and functions:

in the invention, in the process of guiding the coating by the roller mechanism 15, the coating is jointed with the outer side of the laminating plate w42 in the resetting structure w4, and the laminating plate w42 is pressed under the action of downward guiding force of the coating, therefore, air pressure is generated in the laminating plate w42 when the laminating plate w42 deforms through the cylindrical hole w43, the laminating effect on the laminating film is enhanced, the phenomenon that the acting force of the laminating film on the laminating plate w42 is small after the laminating operation stops is avoided, when the laminating film moves, the rotating ring w1 extrudes the rubber ring w3, so that the ball body on the inner side surface of the rubber ring w3 slides outside the fixed shaft w2, thereby driving the rotating ring w1 to rotate, when the film coating stops moving, the force acting on the rotating ring w1 is reduced, so that the ball inside the rubber ring w3 is out of contact with the outside of the fixed shaft w2, therefore, the rubber ring w3 generates frictional resistance on the fixed shaft w2, and the rotating ring w1 is prevented from continuously rotating under the inertia force of the coating film.

The technical scheme of the invention is utilized, or a similar technical scheme is designed by a person skilled in the art based on the inspiration of the technical scheme of the invention, so that the technical effects are achieved, and the technical scheme and the method fall into the protection scope of the invention.

Claims (6)

1. The utility model provides a carton tectorial membrane cuts uses pressing equipment, its structure includes rotary device (1), fixed plate (2), support frame (3), receipts roll rod (4), control panel (5), rotary device (1) inlays admittedly at fixed plate (2) medial surface, control panel (5) are installed in fixed plate (2) right side slope department, receipts roll rod (4) are on a parallel with rotary device (1), support frame (3) welding is at fixed plate (2) lower extreme, its characterized in that:

rotating device (1) is equipped with and presses membrane axle (11), loose axle (12), guiding mechanism (13), cuts out paper piece (14), roller mechanism (15), press membrane axle (11) and loose axle (12) clearance fit, it is inside at guiding mechanism (13) to cut out paper piece (14) to inlay firmly, roller mechanism (15) are located and cut out paper piece (14) right side below, loose axle (12) are the straight line with guiding mechanism (13) and intersect in roller mechanism (15), roller mechanism (15) are located directly over receipts winding stem (4).

2. A carton laminating and cutting press apparatus according to claim 1, wherein: the guide mechanism (13) is provided with a rotating structure (13a), a friction ball (13b) and a rotating shaft (13c), the friction ball (13b) is attached to the outer side of the rotating shaft (13c), the rotating structure (13a) and the rotating shaft (13c) are located on the same central axis, the rotating structure (13a) is located on the outer side of the friction ball (13b), and the rotating shaft (13c) is installed inside the fixing plate (2).

3. A pressing apparatus for carton film covering cutting as claimed in claim 2, wherein: rotating-structure (13a) is equipped with smooth ring (a1), seal groove (a2), laminating mechanism (a3), seal groove (a2) are embedded and are fixed at laminating mechanism (a3) inboard, laminating mechanism (a3) is laminated in light sliding ring (a1) outside, seal groove (a2) is located light sliding ring (a1) outside, light sliding ring (a1) and friction ball (13b) clearance fit.

4. A carton laminating and cutting press apparatus according to claim 3, wherein: laminating mechanism (a3) is equipped with crooked board (a31), rubber slab (a32), sponge piece (a33), circular axle (a34), sponge piece (a33) are embedded and are fixed in crooked board (a31) the outside, circular axle (a34) are installed inside rubber slab (a32) outside, sponge piece (a33) and rubber slab (a32) clearance fit, crooked board (a31) laminating is in the light sliding ring (a1) outside.

5. A carton laminating and cutting press apparatus according to claim 1, wherein: roller mechanism (15) are equipped with swivel becket (w1), fixed axle (w2), rubber ring (w3), reduction structure (w4), rubber ring (w3) laminating is in fixed axle (w2) outside, swivel becket (w1) and rubber ring (w3) clearance fit, reduction structure (w4) are installed in swivel becket (w1) outside, swivel becket (w1) and fixed axle (w2) are located same central axis, fixed axle (w2) are embedded and are fixed inside fixed plate (2).

6. A pressing apparatus for carton film covering cutting as claimed in claim 5, wherein: reset structure (w4) is equipped with semicircular groove (w41), rigging board (w42), cylindricality hole (w43), semicircular groove (w41) are located rigging board (w42) inboard, cylindricality hole (w43) run through in rigging board (w42) inside, cylindricality hole (w43) are connected with semicircular groove (w41), rigging board (w42) laminating is in swivel becket (w1) outside.

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