CN210911325U

CN210911325U - Frame forming machine

Info

Publication number: CN210911325U
Application number: CN201921549189.4U
Authority: CN
Inventors: 胡纯军
Original assignee: Guangdong Zhongke Tiangong Intelligent Technology Co ltd
Current assignee: Zhongke Tiangong Guangdong Intelligent Technology Co ltd
Priority date: 2019-09-18
Filing date: 2019-09-18
Publication date: 2020-07-03
Anticipated expiration: 2029-09-18

Abstract

The utility model provides a surround frame make-up machine, through setting up two first book ears, wrap the terminal surface of top hawk, guarantee that end-to-end connection department hawk does not expose, simultaneously, adopt a folded surface paper cladding top hawk's surface, terminal surface and inner face, this surface paper need not wrap the corner position of two folding hawks, therefore can design to be isometric with the top hawk, can not appear overlength or too short problem, can overcome the thickness problem that the same bread is covered and lead to many facial tissues again, the product appearance is more pleasing to the eye; the two first folding lugs are covered by the single folding paper, so that glue is not easy to open, and eyelet nails do not need to be punched; the bubble removing mechanism is designed for facilitating full-face bubble pressing, and the edge shoveling function of the last facial tissue forming is realized incidentally; the utility model discloses the frame that encloses that obtains, the uniformity is better, and degree of automation is high, is fit for large-scale production and uses.

Description

Frame forming machine

Technical Field

The utility model relates to a carton former field especially relates to an enclose frame make-up machine.

Background

The heaven and earth box is widely applied to the specific subdivision fields of wine boxes, cigarette boxes, product packaging boxes, toilet paper boxes, gift boxes and the like as a common paper box.

The top and bottom box generally comprises a top cover and a bottom box, in order to prevent the top cover from being misplaced after covering the bottom box, a surrounding frame needs to be arranged in the bottom box, and after covering the top cover, the surrounding frame extends into the top cover, so that the top cover is positioned, and the misplacement of the top cover is prevented.

The forming process for the enclosure frame generally comprises the following steps: firstly, providing an unfolded four-fold ash plate and four-fold paper; then, overlapping and sticking the unfolded four-fold gray board and the four-fold paper, wherein part of the paper extends out of the gray board to form a folded lug; and then bending the four-folding ash plate and the four-folding paper, connecting the four-folding ash plate and the four-folding paper end to form a frame, and bending the folding lugs and then coating the folding lugs on the side edges of the ash plate to complete the forming. By adopting the enclosure frame of the process, no surface paper is coated at the head-tail joint of the four-folded gray board, the gray board is exposed to influence the appearance of a product, and the head-tail joint is easy to scatter or scrape.

In order to solve the above problems, the prior art further optimizes and improves the forming process of the enclosure frame, as shown in fig. 1, including the following steps: firstly, providing an unfolded four-folding ash plate (a) and a five-folding paper (b); then, folding four of the unfolded four-folding ash plate (a) and five-folding paper (b) and then pasting, wherein the four-folding paper (b) partially extends out of the ash plate (a) to form folding lugs, and the rest one-folding paper (b) extends out of the ash plate (a); then the four-folding ash plate (a) and the four-folding paper (b) are bent and then connected end to form a frame; and finally, bending the rest folding paper (b) and then coating the bending paper on the side face of the ash plate (a), and bending all folding lugs and then coating the bending lugs on the side edge of the ash plate (a) to finish the forming.

The enclosure frame adopting the process has the following problems:

(1) the side face of the enclosure frame is coated with the two-fold paper (b), so that the side face is thick, and the two-fold overlapped paper (b) is difficult to ensure complete tidiness when being coated, so that the appearance of the side face is not attractive enough;

(2) the thickness of the gray plate (a) is thick, the surface paper (b) covers the gray plate (a) on the outer side, the lengths of the surface paper (b) corresponding to the four bending parts are not determined well, the problem that the surface paper (b) is too long or too short easily occurs in actual operation, the consistency is poor, in order to ensure the appearance of a product, the surface paper (b) which is grown needs to be cut off, the labor is consumed, and the surface paper (b) which is too short cannot be extended and is exposed outside, so that the appearance of the product is influenced.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model provides an enclose frame make-up machine can guarantee that end to end junction hawk does not expose, can overcome the thickness problem that same face covers many facial tissues and lead to again.

The technical scheme of the utility model is realized like this:

on one hand, the utility model provides an enclosing frame forming machine, which comprises a frame (1), a turntable (2) and a plurality of forming molds (3), wherein the forming molds (3) are uniformly arranged on the turntable (2), a plurality of stations are uniformly arranged on the periphery of the turntable (2), an enclosing frame mechanism (4), an upper paper mechanism (5), a bubble removing mechanism (6) and a demoulding mechanism (7) are respectively arranged at the plurality of stations,

the enclosure frame incoming material comprises a four-folding ash plate (H), three-folding surface paper (M) and one-folding surface paper (M), the three-folding surface paper (M) is adhered to the back of the three-folding ash plate (H), two first folding lugs (M1) are formed by extending the three-folding ash plate (H) along two sides of the length direction, a second folding lug (M2) is formed by extending the three-folding ash plate (H) along one side of the width direction, and the end face and the inner face of the three-folding ash plate (H) are wrapped by the second folding lug (M2) after being bent;

the frame enclosing mechanism (4) receives the incoming materials of the frame enclosing, the four-folded gray boards (H) are respectively coated on four sides of the forming die (3) and are connected end to form a frame, and the two first folding lugs (M1) are bent and then coated on the surface of the top gray board (H);

the upper paper mechanism (5) is used for providing a folding paper (M), gluing the surface of the folding paper (M) and sticking the surface of the folding paper to the surface of the top ash plate (H), and the folding paper (M) partially extends out of the top ash plate (H);

the bubble removing mechanism (6) is used for bending the part of the folded paper (M) extending out of the top ash plate (H) and the two first folding lugs (M1) and then coating the bent part on the end face and the inner face of the top ash plate (H), and uniformly applying pressure to four faces of the enclosure frame to remove bubbles;

and the demolding mechanism (7) is used for demolding the enclosure frame from the molding die (3).

On the basis of the technical scheme, the automatic edge turning device preferably further comprises an edge turning mechanism (8), wherein the edge turning mechanism (8) comprises a conveyor belt (81), a pressing component (82) and a turning component (83), wherein,

the conveying belt (81) conveys surrounding frame incoming materials of the three-folding face paper (M) adhered to the back of the three-folding ash plate (H);

the pressing component (82) presses the incoming materials of the enclosure frame, and the overturning component (83) wraps the end face and the inner face of the three-folding ash plate (H) after bending the second folding lug (M2).

On the basis of the above technical solution, preferably, the four-folding ash plate (H) includes a first ash folding plate (H1), a second ash folding plate (H2), a third ash folding plate (H3) and a fourth ash folding plate (H4) which are continuous.

Further preferably, the width of the second ash folding plate (H2) is smaller than that of the fourth ash folding plate (H4), the first ash folding plate (H1) and the third ash folding plate (H3) are respectively provided with a continuous inclined section (H11) and a continuous horizontal section (H12), and the second folding lug (M2) comprises five discontinuous portions, which respectively correspond to the inclined section (H11) and the horizontal section (H12) of the first ash folding plate (H1), the second ash folding plate (H2) and the inclined section (H11) and the horizontal section (H12) of the third ash folding plate (H3).

Further preferably, the frame enclosing mechanism (4) comprises a jacking assembly (41), two side overturning mechanisms (42), two conveyor belts (43) and a first shovel folding lug assembly (44), wherein,

the two conveyor belts (43) are arranged in parallel and horizontally convey the incoming materials of the enclosure frame;

the jacking assembly (41) is vertically arranged and is opposite to the gap between the two conveyor belts (43), and jacks up the second ash folding plate (H2) and clamps the second ash folding plate with the bottom of the forming die (3);

the two side edge turnover mechanisms (42) are respectively arranged at two sides of the jacking assembly (41) and are opposite to a gap between the two conveyor belts (43), the two side edge turnover mechanisms (42) respectively turn over and coat the first ash folding plate (H1) and the third ash folding plate (H3) on two side surfaces of the forming die (3), and the fourth ash folding plate (H4) turns over and coats the top surface of the forming die (3);

and the first shovel folding lug assembly (44) is used for folding the two first folding lugs (M1) and then coating the surfaces of the fourth ash folding plates (H4).

Further preferably, the upper paper mechanism (5) comprises a gluing mechanism (51) and a surface paper mechanism (52), wherein,

the gluing mechanism (51) comprises a roller (511), and the surface of the roller (511) is coated with glue;

the facial tissue pasting mechanism (52) grabs a facial tissue (M) and pastes the bottom of the facial tissue (M) on the surfaces of the fourth ash folding plate (H4) and the first folding lug (M1) after the bottom of the facial tissue (M) passes through the surface of the roller (511), and the facial tissue is tightly pressed.

Still more preferably, the upper paper mechanism (5) further comprises a facial paper groove (53), a facial paper transfer mechanism (54) and a facial paper shaping mechanism (55), wherein,

a sheet slot (53) for continuously supplying a folding sheet (M);

a surface paper transfer mechanism (54) for taking out a piece of folded surface paper (M) from the surface paper slot (53) and supplying the same to a surface paper shaping mechanism (55);

the facial tissue shaping mechanism (55) is used for arranging a folded facial tissue (M) to a specified position and angle;

and a facial tissue attaching mechanism (52) for grasping a facial tissue (M) from the facial tissue shaping mechanism (55).

Further preferably, the bubble removing mechanism (6) comprises a second tucker lug component (61), a transfer die (62), a demoulding component (63) and a pressure maintaining component (64), wherein,

the second shovel folding lug assembly (61) is used for bending the part of a piece of folding paper (M) extending out of the fourth ash folding plate (H4) and the two first folding lugs (M1) and then wrapping the part of the piece of folding paper and the part of the two first folding lugs on the end face of the fourth ash folding plate (H4);

the length and width of the outer end surface of the transfer die (62) are matched with the length and width of the inner end surface of the surrounding frame;

the demolding assembly (63) is used for demolding the enclosure frame from the forming mold (3) and nesting the enclosure frame on the outer side surface of the transfer mold (62), and the part of the transfer mold (62), extending out of the fourth ash folding plate (H4) relative to a piece of folding paper (M), and the part of the transfer mold and two first folding lugs (M1) are bent and then wrapped on the inner surface of the fourth ash folding plate (H4);

and the pressure maintaining assembly (64) is used for uniformly applying pressure to four surfaces of the surrounding frame on the transfer die (62) to remove bubbles, and removing the surrounding frame on the transfer die (62) out of the mould and nesting the surrounding frame on the forming die (3) again.

Further preferably, the forming mold (3) comprises a mold frame (31) and a mold locking assembly (32), wherein,

the length and width of the outer end surface of the mould frame (31) are matched with the length and width of the inner end surface of the surrounding frame;

and the mold locking assembly (32) locks and limits the surrounding frame on the mold frame (31) in the direction away from the center of the turntable (2) when the mold frame (31) rotates between adjacent stations, and unlocks the surrounding frame on the mold frame (31) in the direction away from the center of the turntable (2) when the mold frame (31) rotates to each station.

In a second aspect, the utility model provides a forming process of an enclosure frame, which comprises the following steps,

s1, providing a frame incoming material, wherein the frame incoming material comprises a four-folding ash plate (H) and a three-folding tissue (M), the three-folding tissue (M) is adhered to the back of the three-folding ash plate (H), two first folding lugs (M1) are formed by extending the three-folding ash plate (H) along two sides of the length direction, a second folding lug (M2) is formed by extending the three-folding ash plate (H) along one side of the width direction of the three-folding tissue (M), and the end face and the inner face of the three-folding ash plate (H) are wrapped by the second folding lug (M2) after being bent;

s2, respectively coating the four-fold gray board (H) on four sides of the forming die (3) and connecting the four-fold gray board and the four-fold gray board end to form a frame, and coating the surface of the top gray board (H) after bending the two first folding lugs (M1);

s3, providing a folding paper (M), gluing the surface of the folding paper (M) and sticking the folding paper to the surface of the top ash plate (H), wherein the folding paper (M) partially extends out of the top ash plate (H);

s4, bending the part of the folding paper (M) extending out of the top ash plate (H) and the two first folding lugs (M1) and then wrapping the part of the folding paper and the part of the first folding lugs on the end face and the inner face of the top ash plate (H), and uniformly applying pressure to the four faces of the enclosing frame to remove bubbles;

and S5, releasing the enclosure frame from the forming die (3).

More preferably, the step S4 specifically includes,

the part of the folded paper (M) extending out of the ash plate (H) and the two first folding lugs (M1) are folded and then coated on the end face of the ash plate (H);

the enclosure frame is released from the forming die (3) and is nested on the outer side surface of the transfer die (62), and the part of the transfer die (62), extending out of the ash plate (H), of the folded paper (M) and the two first folding lugs (M1) are folded and then coated on the inner surface of the ash plate (H);

The utility model discloses an enclose frame make-up machine and enclose frame forming process has following beneficial effect for prior art:

(1) the end faces of the top ash plates are coated by arranging the two first folding lugs, so that the ash plates at the head-tail joints are not exposed, and meanwhile, the surfaces, the end faces and the inner faces of the top ash plates are coated by the folding paper, so that the paper does not need to coat the corner parts of the two folding ash plates, the paper can be designed to be as long as the top ash plates, the problem of overlong or overlong cannot occur, the problem of thickness caused by coating multiple pieces of paper on the same bread can be solved, and the appearance of the product is more attractive;

(2) the two first folding lugs are covered by the single folding paper, so that glue is not easy to open, and eyelet nails do not need to be punched;

(3) the width of the second ash folding plate is smaller than that of the fourth ash folding plate, the first ash folding plate and the third ash folding plate are respectively provided with a continuous inclined section and a continuous horizontal section, and the top of the formed enclosure frame is low in front and high in back, so that the canopy can be prevented from being scraped with the enclosure frame in the process of turning over, opening and closing;

(4) the bubble removing mechanism is designed for facilitating full-face bubble pressing, and the edge shoveling function of the last facial tissue forming is realized incidentally;

(5) the utility model discloses the frame that encloses that obtains, the uniformity is better, and degree of automation is high, is fit for large-scale production and uses.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a prior art diagram of a frame forming process;

FIG. 2 is a perspective view of the enclosure frame of the present invention;

FIG. 3 is a view of the forming process of the enclosure frame of the present invention;

fig. 4 is a perspective view of the enclosure frame forming machine of the present invention;

FIG. 5 is a perspective view of the turn-up mechanism of the present invention;

fig. 6 is a perspective view of a mold clamping assembly part of the present invention;

FIG. 7 is a perspective view of the frame enclosing mechanism of the present invention;

FIG. 8 is a perspective view of the frame enclosing mechanism of the present invention;

FIG. 9 is a perspective view of the upper paper mechanism portion of the present invention;

fig. 10 is a perspective view of the bubble removing mechanism of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely below with reference to the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work all belong to the protection scope of the present invention.

As shown in fig. 2, the utility model discloses an enclose frame supplied materials includes four folding ash board H, seventy percent discount facial tissue M and a folding facial tissue M, and three folding facial tissue M pastes at the back of wherein three folding ash board H, and stretches out three folding ash board H along length direction both sides and form two first ears M1 of folding, and three folding facial tissue M stretches out three folding ash board H along width direction one side and forms second ear M2. The four-folding ash plate H comprises a first ash folding plate H1, a second ash folding plate H2, a third ash folding plate H3 and a fourth ash folding plate H4 which are continuous.

As shown in fig. 3, the forming process of the enclosure frame of the present invention comprises the following steps,

s1, adhering the three-folded facial tissue M to the back of the three-folded ash plate H, extending the three-folded ash plate H along two sides of the length direction to form two first folding lugs M1, extending the three-folded facial tissue M along one side of the width direction to form a second folding lug M2, and wrapping the end face and the inner face of the three-folded ash plate H after the second folding lug M2 is bent;

s2, respectively coating the four-fold gray board H on four sides of the forming die 3, connecting the four-fold gray board H end to form a frame, and coating the surface of the top gray board H after bending the two first folding lugs M1;

s3, providing a folding paper M, gluing the surface of the folding paper M and sticking the folding paper M to the surface of the top gray board H, wherein the folding paper M partially extends out of the top gray board H;

s4, bending the part of the folding paper M extending out of the top ash plate H and the two first folding lugs M1 to cover the end face and the inner face of the top ash plate H, and uniformly pressing four faces of the enclosure frame to remove bubbles;

and S5, releasing the enclosure frame from the forming die 3.

The connecting corners of the fourth ash folding plate H4, the first ash folding plate H1 and the third ash folding plate H3 are coated by two first folding lugs M1, so that the ash plates are prevented from being exposed, the connection is more stable, and glue is prevented from being broken; the surface, the end face and the inner face of the fourth ash folding plate H4 are coated by a piece of folding paper M, the folding paper M does not need to coat the fourth ash folding plate H4, the first ash folding plate H1 and the third ash folding plate H3 are connected with corners, and therefore the folding paper M can be designed to be as long as the fourth ash folding plate H4, the problem of overlong or overlong is solved, the problem of thickness caused by coating multiple pieces of facial tissues on the same bread can be solved, and the appearance of the product is more attractive.

Specifically, to some high-grade day ground boxes, still include the connecting paper, its both ends are connected sky lid and ground box respectively, and the sky lid accessible connecting paper rotates around ground box to the realization is opened and is closed. The heaven and earth box adopting the structure has the advantages that the height of the surrounding frame close to the opening side is lower than that of the leaving opening side, so that the rotation closing process of the heaven cover can be prevented from being blocked by the surrounding frame close to the opening side. Specifically, second ash folding plate H2 width is less than fourth ash folding plate H4, be provided with continuous inclined section H11 and horizontal segment H12 on first ash folding plate H1 and the third ash folding plate H3 respectively, second tab M2 includes the discontinuous part of five sections, corresponds respectively inclined section H11 and horizontal segment H12 of first ash folding plate H1, second ash folding plate H2, the inclined section H11 and the horizontal segment H12 of third ash folding plate H3. Thus, the five discontinuous second tabs M2 are respectively bent and then wrapped on the end surfaces and the inner surfaces of the inclined section H11 and the horizontal section H12 of the first ash folding plate H1, the inclined section H11 and the horizontal section H12 of the second ash folding plate H2 and the third ash folding plate H3. The top of the finally formed enclosure frame is low in front and high in back, so that the canopy can be prevented from being scraped with the enclosure frame in the process of turning open/closing.

As shown in fig. 4, the utility model discloses an enclose frame make-up machine, it includes frame 1, carousel 2, a plurality of forming die 3, encloses frame mechanism 4, upper paper mechanism 5, removes bubble mechanism 6, demoulding mechanism 7 and flanging mechanism 8.

Wherein, the frame 1 provides a horizontal supporting table surface.

The forming die 3 is uniformly arranged on the rotary table 2, a plurality of stations are uniformly arranged on the periphery of the rotary table 2, the frame enclosing mechanism 4, the upper paper mechanism 5, the bubble removing mechanism 6 and the demolding mechanism 7 are respectively arranged at the stations of the plurality of stations, and the rotary table 2 drives the forming die 3 to rotate to different stations, so that corresponding operations are executed at different stations. The utility model discloses be provided with four stations, of course, also can set up three or five and above stations. Specific station quantity can be in the utility model discloses the direction of technology is down, and it is certain to merge a station or split into a plurality of stations to different operating device.

As shown in fig. 5, the turn-up mechanism 8 includes a conveyor belt 81, a pressing assembly 82, and a reversing assembly 83, wherein,

the conveyer belt 81 conveys the surrounding frame incoming material of the triple-folding face paper M adhered to the back of the triple-folding ash plate H. Specifically, the pressing component 82 can be realized by using a linear module combined pressing plate, when the frame incoming material is conveyed to the turning station, the conveying belt 81 stops conveying, and the linear module drives the pressing plate to press down, so that the frame incoming material is pressed on the conveying belt 81.

The pressing component 82 presses the incoming materials of the enclosure frame, and the overturning component 83 folds the second tab M2 and then coats the end face and the inner face of the three-folded ash board H. Specifically, compress tightly two sharp modules of subassembly 82 accessible and a returning face plate and realize, the side shape and the four folding ash board H length direction shape of returning face plate are unanimous, move to second tab M2 below through a sharp module drive returning face plate, and upward movement buckles second tab M2 again, with its cladding at three folding ash board H terminal surface, another sharp module drive returning face plate translation of rethread is with second tab M2 cladding three folding ash board H inner faces after further buckling.

As shown in fig. 6 in conjunction with fig. 7, the molding die 3 includes a die frame 31 and a clamping assembly 32, wherein,

the length and width of the outer end surface of the mold frame 31 are matched with the length and width of the inner end surface of the surrounding frame, so that the surrounding frame can be conveniently embedded or separated.

The mold locking assembly 32 locks and limits the surrounding frame on the mold frame 31 in the direction away from the center of the turntable 2 when the mold frame 31 rotates between the adjacent stations, and unlocks the surrounding frame on the mold frame 31 in the direction away from the center of the turntable 2 when the mold frame 31 rotates to each station. Specifically, as shown in fig. 7, it comprises two "L" shaped baffles, two first rollers, a slide rod, and a wedge block, spacing subassembly, the second gyro wheel, cushion and reset assembly, the litter is fixed with forming die, two "L" shape baffle one end and litter sliding connection, the orthographic projection selectivity of the other end on forming die terminal surface extends outside forming die terminal surface, two first gyro wheels respectively with two "L" shape baffle rotatable coupling, wedge one end is provided with two wedges and respectively with two first gyro wheels roll connection through two wedges, the wedge other end and second gyro wheel rotatable coupling, spacing subassembly is injectd the wedge and is removed along the direction of perpendicular to forming die terminal surface, reset assembly makes the wedge reset in the direction of perpendicular to forming die terminal surface, the cushion is fixed in the frame, the cushion is provided with two wedges towards the one side symmetry at carousel center and through two wedges selectivity with second gyro wheel roll connection. Specifically, the limiting assembly can be realized by matching a slide rod with a bearing seat, and the resetting assembly can be a spring. Thus, when the mold frame 31 rotates to each station, the second roller rotates along the cushion block to generate a pulling force towards the center of the turntable 2 for the wedge-shaped block, and the two L-shaped baffles contract along with the wedge-shaped block, so that the enclosure frame on the mold frame 31 is unlocked; on the contrary, when the mold frame 31 rotates to a position between adjacent stations, the second roller rotates along the cushion block to generate a force far away from the center of the turntable 2 on the wedge-shaped block by the reset component, and the two L-shaped baffles extend out along with the wedge-shaped block, so that the surrounding frame on the mold frame 31 is locked, and the falling of the surrounding frame is prevented.

And the frame enclosing mechanism 4 is used for receiving the frame incoming materials, respectively coating the four-folded ash plates H on four sides of the forming die 3, connecting the four-folded ash plates H end to form a frame, and coating the four-folded ash plates H4 on the surface of the fourth ash plate H4 after bending the two first folding lugs M1. Specifically, as shown in fig. 7, the frame enclosing mechanism 4 includes a jacking assembly 41, two side turning mechanisms 42, two conveyor belts 43 and a first folding lug assembly 44, wherein,

the two conveyor belts 43 are arranged in parallel and horizontally convey the incoming material of the enclosure.

As shown in fig. 8, the jacking assembly 41 is vertically arranged and faces the gap between the two conveyor belts 43, and jacks up the second ash folding plate H2 and clamps the second ash folding plate H2 with the bottom of the forming die 3. Specifically, the jacking assembly 41 can be realized by matching an air cylinder with the horizontal plate, and the air cylinder drives the horizontal plate to ascend or descend.

The two side turnover mechanisms 42 are respectively disposed on two sides of the jacking assembly 41 and directly face the gap between the two conveyor belts 43, the two side turnover mechanisms 42 respectively turn over and coat the first ash folding plate H1 and the third ash folding plate H3 on two side surfaces of the forming mold 3, and the fourth ash folding plate H4 turns over and coats the top surface of the forming mold 3. Specifically, side tilting mechanism 42 includes returning face plate, articulated seat, sharp module and connecting rod, the returning face plate is connected with articulated seat and connecting rod hinge respectively, and the fourth sharp module sets up on articulated seat and is connected with the connecting rod hinge. The connecting rod is driven by the linear module to further drive the turnover plate to rotate, so that the first ash folding plate H1 or the third ash folding plate H3 can be turned over.

The first shovel folding lug assembly 44 is formed by bending the two first folding lugs M1 and then coating the surfaces of the fourth ash folding plates H4. Specifically, the first tucker tab assemblies 44 may be provided in two groups (only one group is shown in the figure), and the two first tucker tabs M1 are respectively flattened from left to right and from right to left. Specifically, first shovel ear of book subassembly 44 can adopt two sharp modules of a shovel board cooperation to realize, and a straight line module drive shovel board moves to first ear of book M1 side, and another straight line module drive shovel board linear motion is flattened first ear of book M1.

And the upper paper mechanism 5 provides a folding paper M, the surface of the folding paper M is coated with glue and is stuck to the surface of the top gray plate H, and the part of the folding paper M extends out of the top gray plate H. Specifically, as shown in fig. 9, the upper paper mechanism 5 includes a gluing mechanism 51, a facial paper pasting mechanism 52, a facial paper slot 53, a facial paper transferring mechanism 54 and a facial paper shaping mechanism 55, wherein,

and a sheet slot 53 for continuously supplying a folding sheet M. Specifically, a folded piece of facial tissue M is placed in the facial tissue slot 53, and the topmost sheet is taken out each time.

The face paper transfer mechanism 54 takes out one piece of folded face paper M from the face paper slot 53 and supplies it to the face paper shaping mechanism 55. Specifically, the facial tissue transfer mechanism 54 can be realized by matching two linear modules with suckers, and the two linear modules drive the suckers to lift and translate, so that the facial tissue M can be taken and placed.

The face paper shaping mechanism 55 arranges the folded face paper M at a predetermined position and angle. Specifically, a horizontal groove can be arranged for accommodating the folded paper M, and flat push cylinders are arranged on two sides of the horizontal groove for arranging the folded paper M.

The gluing mechanism 51 comprises a roller 511, and the surface of the roller 511 is coated with glue. Specifically, a glue tank and a two-stage roller can be arranged, and glue is scraped from the glue tank through the one-stage roller and is transferred to the two-stage roller.

The laminated paper mechanism 52 grabs the folded paper M from the paper shaping mechanism 55, cuts the bottom of the folded paper M across the surface of the roller 511, sticks the folded paper M to the surfaces of the fourth folding board H4 and the first folding tab M1, and compresses the folded paper M. Specifically, the facial tissue mechanism 52 can be realized by matching two linear modules with a sucker, and the two linear modules drive the sucker to lift and translate, so that the facial tissue M is taken and placed.

Except for the bubble mechanism 6, the part of the folding paper M extending out of the top ash plate H and the two first folding lugs M1 are folded and then coated on the end surface and the inner surface of the top ash plate H, and the four surfaces of the enclosure frame are uniformly pressed to remove bubbles. Specifically, as shown in fig. 10, the bubble removing mechanism 6 includes a second tucker lug assembly 61, a transfer die 62, a demoulding assembly 63 and a pressure maintaining assembly 64, wherein,

the second shoveling and folding lug assembly 61 folds the part of the folding paper M extending out of the fourth folding plate H4 and the two first folding lugs M1 and then wraps the end face of the fourth folding plate H4. Specifically, the second folding lug assembly 61 can be implemented by matching a cylinder with a vertical shovel plate.

And the length and width of the outer end surface of the transfer die 62 are matched with the length and width of the inner end surface of the enclosure frame.

The demolding assembly 63 is used for demolding the enclosure frame from the forming mold 3 and nesting the enclosure frame on the outer side surface of the transfer mold 62, and the part of the transfer mold 62, extending out of the fourth ash folding plate H4, of the folding paper M and the part of the folding paper M, which is folded together with the two first folding lugs M1, are wrapped on the inner surface of the fourth ash folding plate H4. Specifically, the demolding assembly 63 may be implemented by matching an air cylinder with a U-shaped shovel plate, the air cylinder drives the U-shaped shovel plate to translate, the enclosure frame is released from the mold frame 31 and enters the transfer mold 62, and in the process, a portion of the folding paper M extending out of the fourth folding plate H4 and the two first folding tabs M1 are limited by the transfer mold 62 and then are folded and then wrapped on the inner surface of the fourth folding plate H4.

And the pressure maintaining assembly 64 is used for uniformly applying pressure to four sides of the surrounding frame on the transfer die 62 to remove bubbles, and releasing the surrounding frame on the transfer die 62 to be nested on the die frame 31 again. Specifically, the pressure maintaining assembly 64 may employ four pressure plates and four air cylinders to apply pressure to four sides of the enclosure frame for bubble removal. Meanwhile, the surrounding frame on the transfer die 62 can be removed and re-nested on the die frame 31 by matching a cylinder with a U-shaped shovel plate, and the partial technology is the same as that of the demolding assembly 63, and is not described again.

Finally, the demolding mechanism 7 detaches the enclosure frame from the molding die 3. The demolding mechanism 7 can adopt a cylinder to match a U-shaped shovel plate to remove the enclosure frame from the forming mold 3, and the technical implementation of the part is the same as that of the demolding assembly 63, which is not described herein again.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The utility model provides an enclose frame make-up machine, its includes frame (1), carousel (2) and a plurality of forming die (3), and forming die (3) evenly set up on carousel (2), and carousel (2) periphery evenly is provided with a plurality of station, its characterized in that: the plurality of stations are respectively provided with a frame enclosing mechanism (4), an upper paper feeding mechanism (5), a bubble removing mechanism (6) and a demoulding mechanism (7), wherein,

2. The frame forming machine of claim 1, wherein: the device also comprises a flanging mechanism (8), wherein the flanging mechanism (8) comprises a conveyor belt (81), a pressing component (82) and a turning component (83), wherein,

3. The frame forming machine of claim 1, wherein: the four-folding ash plate (H) comprises a first ash folding plate (H1), a second ash folding plate (H2), a third ash folding plate (H3) and a fourth ash folding plate (H4) which are continuous.

4. The frame forming machine of claim 3, wherein: the frame enclosing mechanism (4) comprises a jacking component (41), two side edge turnover mechanisms (42), two conveyor belts (43) and a first shovel folding lug component (44), wherein,

5. The frame forming machine of claim 3, wherein: the paper feeding mechanism (5) comprises a gluing mechanism (51) and a facial tissue pasting mechanism (52), wherein,

6. The frame forming machine of claim 5, wherein: the upper paper mechanism (5) also comprises a facial paper groove (53), a facial paper transfer mechanism (54) and a facial paper shaping mechanism (55),

a sheet slot (53) for continuously supplying a folding sheet (M);

7. The frame forming machine of claim 3, wherein: the bubble removing mechanism (6) comprises a second tucker lug component (61), a transfer die (62), a demoulding component (63) and a pressure maintaining component (64), wherein,

8. The frame forming machine of claim 1, wherein: the forming die (3) comprises a die frame (31) and a die locking component (32), wherein,