CN110001132B - Paper product molding equipment - Google Patents

Abstract

The invention provides paper product molding equipment, which comprises a main machine body, wherein a power gear cavity is arranged in the main machine body, a power mechanism is arranged in the power gear cavity, a working groove is formed in the main machine body at the bottom of the power gear cavity, the working groove penetrates through the left side and the right side of the main machine body, the upper end wall and the lower end wall of the working groove are symmetrically provided with left roller cavities, a feeding mechanism is arranged in the left roller cavity, a top gluing cavity is arranged in the main machine body on the right side of the left roller cavity, the paper product molding equipment is designed, compared with the traditional equipment, the paper product molding equipment realizes the integration of coating, laminating, printing and cutting, simplifies the working process, improves the working efficiency, saves the cost, has a single transmission structure, is not easy to break down, and is convenient to maintain.

Description

Paper product molding equipment

Technical Field

The invention relates to the technical field of paper cup manufacturing, in particular to paper product molding equipment.

Background

The paper cup material is generally composed of base paper and a Polyethylene (PE) film laminated on the surface of the base paper. The paper cup material has the advantages of light texture, leakage resistance, attractive printing, convenience in processing and the like, the paper cup is a common drink appliance in life and can be used for containing various drinks such as tea, fruit juice, coffee and the like, and the paper cup is widely used in daily life and office due to the characteristics of light sanitation and the like;

the paper cup needs to pass through many processes in process of production, and traditional manufacturing process in earlier stage is usually the rubber coating earlier, and the peritoneum after the rubber coating, then shifts to next process and prints, prints and cuts after accomplishing, and this kind of process needs the change equipment to operate in production, has consequently reduced production efficiency.

Therefore, compared with the traditional equipment, the paper product molding equipment provided by the invention realizes the integration of gluing, laminating, printing and cutting, simplifies the working process, improves the working efficiency, saves the cost, has a single transmission structure, is not easy to break down, and is convenient to maintain.

Disclosure of Invention

The invention aims to provide paper product molding equipment which can overcome the defects in the prior art and improve the working efficiency.

The paper product molding equipment comprises a main machine body, wherein a power gear cavity is formed in the main machine body, a power mechanism is arranged in the power gear cavity, a working groove is formed in the main machine body at the bottom of the power gear cavity and penetrates through the left side and the right side of the main machine body, left roller cavities are symmetrically formed in the upper end wall and the lower end wall of the working groove, a feeding mechanism is arranged in the left roller cavity, a top gluing cavity is formed in the main machine body on the right side of the left roller cavity, a first roller gluing mechanism is arranged in the top gluing cavity, a smearing plate cavity is formed in the right end wall of the top gluing cavity, a middle roller cavity is formed in the main machine body at the bottom of the smearing plate cavity, a feeding mechanism is arranged in the middle roller cavity, a bottom gluing cavity is formed in the main machine body on the right side of the middle roller cavity, the bottom is glued the intracavity and is equipped with second gyro wheel rubber coating mechanism, the bottom is glued the chamber right side the host computer body has been seted up the bottom tectorial membrane chamber, bottom tectorial membrane chamber top leans on left position department the host computer body has been seted up the top tectorial membrane chamber, the top tectorial membrane chamber with the bottom tectorial membrane intracavity all is equipped with tectorial membrane mechanism, bottom tectorial membrane chamber right side host computer body in seted up for the right side gyro wheel chamber of working groove slant symmetry, right side gyro wheel intracavity is equipped with gyro wheel mechanism, top tectorial membrane chamber right side host computer body in seted up the middle part cavity that is located right side gyro wheel chamber top of telling, middle part cavity right side host computer body in seted up the crank chamber, crank chamber bottom host computer body in seted up the printing chamber, printing intracavity is equipped with prints cutting mechanism, print the chamber right side gyro wheel chamber, The bottom film coating cavity, the top film coating cavity, the bottom glue cavity and the middle roller cavity are communicated with the working groove, annular cavities are formed in the front end faces of the bottom film coating cavity and the top film coating cavity and are arranged in an annular mode, and a push-pull sliding cavity is formed in the main machine body on the front side of the annular cavity.

Beneficially, the power mechanism and the feeding mechanism comprise a power motor fixedly embedded in the top wall of the power gear cavity, a power rotating shaft which is arranged in an up-down extending manner is rotatably arranged between the left roller cavity and the power gear cavity, the top end of the power rotating shaft extends into the power gear cavity and is in power connection with the bottom end of the power motor, power rotating shaft top teeth are fixedly arranged on the outer wall of the power rotating shaft in the power gear cavity in a circumferential direction, a power rotating shaft bottom teeth are fixedly arranged at the bottom end of the power rotating shaft extending section which extends into the left roller cavity at the bottom, power rotating shaft middle teeth are fixedly arranged on the outer wall of the power rotating shaft in the left roller cavity at the top in a circumferential direction, left rollers are rotatably arranged on the rear walls of the left roller cavity in an up-down symmetrical manner, left roller end teeth are fixedly arranged on the front side end faces of the left rollers, the left side roller end teeth positioned at the top are meshed with the middle teeth of the power rotating shaft, and the left side roller end teeth positioned at the bottom are meshed with the bottom teeth of the power rotating shaft.

Beneficially, the first roller glue spreading mechanism and the second roller glue spreading mechanism comprise a middle roller rotatably arranged in the middle roller cavity, a bottom rotating shaft extending leftwards and rightwards is rotatably arranged between the bottom glue cavity and the left roller cavity positioned at the bottom, a left extending section of the bottom rotating shaft extends into the left roller cavity positioned at the bottom, a left tooth of the bottom rotating shaft meshed with an end tooth of the left roller positioned at the bottom is fixedly arranged at the tail end of the bottom rotating shaft, the middle part of the bottom rotating shaft penetrates through the middle roller cavity and is in power fit connection with the front end face of the middle roller through a bevel gear designed in the same way as the end tooth of the left roller, a right extending section of the bottom rotating shaft extends into the bottom glue cavity, a right tooth of the bottom rotating shaft is fixedly arranged at the tail end of the right extending section of the bottom rotating shaft, a glue spreading rotating wheel is rotatably arranged on the rear wall of the bottom glue cavity, a glue spreading bevel gear meshed with the right tooth of the bottom rotating shaft, food-grade glue is arranged in the bottom glue cavity;

wherein the second roller mechanism comprises a top gluing rotating wheel rotatably arranged on the rear wall of the top gluing cavity, rotating wheel grooves which are uniformly distributed are formed in the circumferential outer wall of the top gluing rotating wheel, a top glue containing cavity is formed in the main body at the top of the top gluing cavity, glue is contained in the top glue containing cavity, the top glue containing cavity is separated from the top gluing cavity through a fixed baffle plate, the fixed baffle plate is fixed on the rear wall of the top gluing cavity, a jacking sliding block is arranged in the fixed baffle plate in a sliding manner and penetrates through the fixed baffle plate, a gluing through groove is formed in the jacking sliding block, fixed blocks are fixedly arranged on the left side end face and the right side end face of the jacking sliding block in the top gluing cavity, jacking springs are elastically connected between the fixed blocks and the fixed baffle plate, and the bottom ends of the jacking sliding blocks are in abutting fit with the rotating wheel grooves, when the top gluing rotating wheel is driven to rotate by the paperboard in the working groove at the bottom, the rotating wheel groove pushes the jacking sliding block to move upwards so that glue in the top glue containing cavity flows into the rotating wheel groove along the gluing through groove and is then smeared on the surface of the paperboard in the working groove, the top wall of the smearing plate cavity is hinged with a smearing plate which is obliquely arranged, the bottom end of the smearing plate is pushed against the paperboard, a smearing plate spring is elastically connected between the right end face of the smearing plate and the top end wall of the smearing plate cavity, and the smearing plate can evenly smear the glue smeared on the paperboard by the top gluing rotating wheel.

Beneficially, the film coating mechanism comprises a push-pull plate arranged in the push-pull sliding cavity in a sliding manner, a screw motor is fixedly embedded in the main body at the top of the annular cavity, a screw in threaded fit with the push-pull plate is in power connection with the right side of the screw motor, film coating shaft conical tooth cavities are symmetrically arranged in the push-pull plate up and down, a film coating motor is fixedly embedded between the film coating shaft conical tooth cavities symmetrically arranged up and down, a film coating power shaft extending downwards is in power connection with the bottom end of the film coating motor, the bottom end of the film coating power shaft extends into the film coating shaft conical tooth cavities, film coating shaft conical teeth are fixedly arranged at the tail ends of the film coating power shaft, a turning shaft extending left and right is rotatably arranged on the left end wall of the film coating shaft conical tooth cavities, a right extending section of the turning shaft extends into the film coating shaft conical tooth cavities, auxiliary bevel gears meshed with the film coating shaft conical teeth are fixedly arranged at the tail ends of the turning shaft, rotatory piece middle part with the left side extension section fixed connection of trip shaft, set up in the rotatory piece for the slide chamber that the trip shaft longitudinal symmetry set up, the slide intracavity slides and is equipped with the slide, the slide top with elastic connection has the slide spring between the roof in slide chamber, the slide recess has been seted up to the bottom of slide, it is equipped with the winding up roller pivot to rotate between the left and right sides end wall of slide recess, winding up roller pivot right side is stretched out the slide is outer and its end has set firmly locking mechanical system, locking mechanical system can with the winding up roller pivot is fixed to make it can only rotate, works as when the epaxial film of winding up roller runs out locking mechanical system will the winding up roller pivot is taken out to change the film.

Beneficially, the roller mechanism and the printing and cutting mechanism include a right rolling wheel rotatably disposed on a rear wall of the right roller cavity, a right rolling wheel end tooth is fixedly disposed on a front end face of the right rolling wheel, the top portion of the right roller cavity is provided with the same right rolling wheel and the right rolling wheel end tooth, the bottom portion of the right roller cavity is rotatably provided with a right bottom rotating shaft extending obliquely up and down and passing through the right rolling wheel end tooth, the right bottom rotating shaft and a right bottom rotating shaft bevel tooth circumferentially and fixedly disposed on an outer wall of the right bottom rotating shaft are in power connection, the middle cavity is rotatably provided with a right top rotating shaft extending up and down between the right roller cavity and the top portion of the right roller cavity, a right top rotating shaft top tooth is fixedly disposed at a top end of the right top rotating shaft, and a bottom end of the right top rotating shaft is fixedly disposed on a bottom portion of the right rolling wheel cavity and meshed with the right rolling wheel end tooth disposed on the top portion of the right roller cavity The power gear cavity is provided with a power gear cavity, a middle cavity is arranged in the power gear cavity, a top rotating shaft is rotatably arranged between the power gear cavity and the middle cavity and extends leftwards and rightwards, a left extending section of the top rotating shaft extends into the power gear cavity, the tail end of the top rotating shaft is fixedly provided with a top rotating shaft left tooth meshed with the power rotating shaft top tooth, and a top rotating shaft right tooth meshed with the right top rotating shaft top tooth is circumferentially and fixedly arranged on the outer wall of the top rotating shaft in the middle cavity;

the utility model discloses a printing machine, including printing chamber, crank chamber, printing mechanism, wherein, the internal rotation of crank chamber is equipped with the crank pivot, the left side end of crank pivot with the terminal fixed connection in right side of top pivot, the cover has the axle sleeve on the crooked outer wall of crank pivot, the outer wall of axle sleeve is last to set firmly the connecting rod that sets up downwards, crank chamber with it is equipped with the catch bar to print to slide between the chamber, the bottom of connecting rod with the top of catch bar is articulated, it is equipped with printing mechanism to print the intracavity slip, printing mechanism's.

In the following, the applicant will use the paper product molding apparatus described above with reference to the drawings, first, in the initial state, the push-pull plate is located at the maximum at the rear side of the push-pull slide cavity, so that the upper rotating block is located in the top film coating cavity and the lower rotating block is located in the bottom film coating cavity;

when the device is used, firstly, a paperboard is placed into a working groove, a power motor is started on the left side, the power motor drives a power rotating shaft to rotate, the power rotating shaft drives a power rotating shaft middle tooth to rotate, the power rotating shaft middle tooth drives a left roller end tooth to rotate, and further drives a left roller to rotate, so that the paperboard is rolled rightwards by the left roller, the paperboard drives a top gluing rotating wheel to rotate through the bottom of a top gluing rotating wheel, so that a rotating wheel groove is pressed against a top pressing sliding block, the top pressing sliding block moves upwards, and further the gluing through groove is communicated with a top glue containing cavity, at the moment, glue in the top glue containing cavity enters the rotating wheel groove through the gluing through groove, meanwhile, the top gluing rotating wheel rotates to enable the glue to be glued on the paperboard, meanwhile, the gluing plate is pressed on the paperboard to enable the glue on the top end of the paperboard to be evenly spread, coating food-grade glue on the bottom end of a paper board by a gluing rotating wheel, enabling the paper board to drive a film winding roller on a winding roller rotating shaft to rotate through the bottom of a top film coating cavity to coat the film, enabling a film coating mechanism in the bottom film coating cavity to coat the film on the bottom end of a paper cup, starting a screw motor to rotate a screw and further enabling a push-pull plate to move rightwards if the film is used up, so as to enable a rotating block to be pulled forwards into an annular cavity, starting the film coating motor at the moment, enabling the film coating motor to rotate and further enabling a film coating power shaft to rotate, enabling the film coating power shaft to drive a turnover shaft to rotate, further enabling the rotating block to rotate, enabling the winding roller rotating shaft at the bottom to rotate to the top and then pushing back the rotating block, continuing film coating operation, enabling a top rotating shaft top tooth to rotate, further enabling a top rotating shaft right tooth to rotate, tooth roll wheel rotation to the top right side at the bottom of the right side top pivot makes the cardboard in the work groove continue to roll into to the right side, and the top pivot drives the crank pivot simultaneously and rotates, makes the catch bar promote downwards, and the catch bar drives printing mechanism and promotes downwards, and printing mechanism drives the cutter and cuts into the arc with the cardboard downwards, and printing mechanism prints the pattern on the cardboard simultaneously.

In conclusion, the power mechanism and the feeding mechanism of the device can roll the paper board rightwards by the left roller, the first roller gluing mechanism and the second roller gluing mechanism can glue on the paper board, meanwhile, the coating plate is pressed against the paper board to evenly coat the glue on the top end of the paper board, the film coating mechanism can rotate by the film roller on the roller rotating shaft to coat the paper board, the film coating mechanism in the film coating cavity at the bottom covers the film on the bottom end of the paper cup, if the film is used up, the screw motor is started to rotate the screw, the push-pull plate moves rightwards, so that the rotating block is pulled forwards into the annular cavity, the film coating motor is started, the film coating motor rotates to rotate the film coating power shaft, the film coating power shaft drives the turnover shaft to rotate, the rotating block rotates to rotate the roller rotating shaft at the bottom to the top, and then the rotating block is pushed back, continuing the tectorial membrane work, gyro wheel mechanism with print cutting mechanism and can print the pattern with the cardboard, cut into the plane pattern of paper cup with the cardboard simultaneously after printing the completion, this device has realized the rubber coating tectorial membrane for traditional equipment and has printed and cut the integration, simplifies work flow, and transmission structure is more single moreover, is difficult for breaking down, is convenient for maintain.

Drawings

In order to more clearly illustrate the embodiments of the 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, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a schematic view of the overall construction of a paper product molding apparatus of the present invention;

FIG. 2 is a schematic view of the present invention in the direction of A-A in FIG. 1;

fig. 3 is an enlarged structural view of B in fig. 1 according to the present invention.

Detailed Description

All of the features disclosed in this specification, or all of the steps in any method or process so disclosed, may be combined in any combination, except combinations of features and/or steps that are mutually exclusive.

Any feature disclosed in this specification (including any accompanying claims, abstract and drawings), may be replaced by alternative features serving equivalent or similar purposes, unless expressly stated otherwise. That is, unless expressly stated otherwise, each feature is only an example of a generic series of equivalent or similar features.

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to fig. 1 to 3 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 embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention. As shown in fig. 1 to 3, the paper product mold pressing device of the present invention includes a main machine body 100, a power gear cavity 180 is formed in the main machine body 100, a power mechanism is disposed in the power gear cavity 180, a working groove 119 is formed in the main machine body 100 at the bottom of the power gear cavity 180, the working groove 119 penetrates through the left and right sides of the main machine body 100, left roller cavities 130 are symmetrically formed in the upper and lower end walls of the working groove 119, a feeding mechanism is disposed in the left roller cavity 130, a top glue coating cavity 148 is formed in the main machine body 100 at the right side of the left roller cavity 130, a first roller glue coating mechanism is disposed in the top glue coating cavity 148, a coating plate cavity 152 is formed in the right end wall of the top glue coating cavity 148, a middle roller cavity 137 is formed in the main machine body 100 at the bottom of the coating plate cavity 152, the middle roller cavity 137 is internally provided with a feeding mechanism, the right side of the middle roller cavity 137 is internally provided with a bottom rubber cavity 128 in the main machine body 100, the bottom rubber cavity 128 is internally provided with a second roller rubber coating mechanism, the right side of the bottom rubber cavity 128 is internally provided with a bottom film coating cavity 127 in the main machine body 100, the top of the bottom film coating cavity 127 is close to the left position, the main machine body 100 is internally provided with a top film coating cavity 141, the top film coating cavity 141 and the bottom film coating cavity 127 are internally provided with film coating mechanisms, the right side roller cavity 120 which is obliquely symmetrical relative to the working groove 119 is arranged in the main machine body 100 on the right side of the bottom film coating cavity 127, the right side roller cavity 120 is internally provided with a roller mechanism, the top film coating cavity 141 is right side of the main machine body 100 is internally provided with a middle cavity 108 which is positioned at the top of the right side roller cavity 120, the right side of the middle cavity 108 is internally provided, a printing cavity 118 is formed in the main machine body 100 at the bottom of the crank cavity 111, a printing cutting mechanism is arranged in the printing cavity 118, the right roller cavity 120, the bottom film coating cavity 127, the top film coating cavity 141, the bottom glue cavity 128 and the middle roller cavity 137 are all communicated with the working groove 119, annular cavities 153 are formed in the front end faces of the bottom film coating cavity 127 and the top film coating cavity 141, the annular cavities 153 are arranged in an annular shape, and a push-pull sliding cavity 157 is formed in the main machine body 100 on the front side of the annular cavities 153.

Beneficially, the power mechanism and the feeding mechanism comprise a power motor 102 fixedly embedded in the top wall of the power gear cavity 180, a power rotating shaft 133 extending up and down is rotatably arranged between the left roller cavity 130 and the power gear cavity 180, the top end of the power rotating shaft 133 extends into the power gear cavity 180 and is in power connection with the bottom end of the power motor 102, power rotating shaft top teeth 101 are circumferentially and fixedly arranged on the outer wall of the power rotating shaft 133 located in the power gear cavity 180, an extending section of the bottom of the power rotating shaft 133 extends into the left roller cavity 130 located at the bottom, and power rotating shaft bottom teeth 181 are fixedly arranged at the tail end of the power rotating shaft, power rotating shaft middle teeth 132 are circumferentially and fixedly arranged on the outer wall of the power rotating shaft 133 located in the left roller cavity 130 at the top, and left rollers 131 are rotatably arranged on the rear walls of the left roller cavity 130 which are symmetrical up and down, the front side end face of the left side roller 131 is fixedly provided with left side roller end teeth 134, the left side roller end teeth 134 located at the top are meshed with the power rotating shaft middle teeth 132, and the left side roller end teeth 134 located at the bottom are meshed with the power rotating shaft bottom teeth 181.

Beneficially, the first and second roller glue spreading mechanisms include a middle roller 182 rotatably disposed in the middle roller cavity 137, a bottom rotating shaft 136 extending left and right is rotatably disposed between the bottom glue cavity 128 and the left roller cavity 130 at the bottom, a left extending section of the bottom rotating shaft 136 extends into the left roller cavity 130 at the bottom, and a bottom rotating shaft left tooth 135 engaged with the left roller end tooth 134 at the bottom is fixedly disposed at a tail end of the bottom rotating shaft 136, a middle portion of the bottom rotating shaft 136 penetrates through the middle roller cavity 137 and is in dynamic fit connection with a front end surface of the middle roller 182 through a bevel gear having the same design as the left roller end tooth 134, a right extending section of the bottom rotating shaft 136 extends into the bottom glue cavity 128 and a bottom rotating shaft right tooth 138 is fixedly disposed at a tail end of the bottom rotating shaft 136, a glue spreading rotating wheel 190 is rotatably disposed on a rear wall of the bottom glue cavity 128, a gluing bevel gear 191 meshed with the bottom rotating shaft right gear 138 is fixedly arranged on the front side end face of the gluing rotating wheel 190, and food-grade glue is arranged in the bottom glue cavity 128;

wherein, the second roller mechanism comprises a top gluing rotating wheel 149 rotatably arranged on the rear wall of the top gluing cavity 148, the circumferential outer wall of the top gluing rotating wheel 149 is provided with uniformly distributed rotating wheel grooves 201, the main machine body 100 at the top of the top gluing cavity 148 is internally provided with a top glue containing cavity 300, glue is contained in the top glue containing cavity 300, the top glue containing cavity 300 and the top gluing cavity are separated by a fixed baffle 143, the fixed baffle 143 is fixed on the rear wall of the top gluing cavity 148, a jacking sliding block 144 is arranged in the fixed baffle 143 in a sliding manner, the jacking sliding block 144 penetrates through the fixed baffle 143, a gluing through groove 145 is arranged in the jacking sliding block 144, fixed blocks 147 are fixedly arranged on the left side end surface and the right side end surface of the jacking sliding block 144 in the top gluing cavity 148, and a jacking spring 146 is elastically connected between the fixed block 147 and the fixed baffle 143, the bottom end of the jacking sliding block 144 is in abutting fit with the rotating wheel groove 201, when the top gluing rotating wheel 149 is driven to rotate by a paperboard in the working groove 119 at the bottom, the rotating wheel groove 201 jacks the jacking sliding block 144 to move upwards, so that glue in the top glue containing cavity 300 flows into the rotating wheel groove 201 along the gluing through groove 145 and is then smeared on the surface of the paperboard in the working groove 119, an obliquely arranged smearing plate 151 is hinged to the top wall of the smearing plate cavity 152, the bottom end of the smearing plate 151 is jacked against the paperboard, a smearing plate spring 150 is elastically connected between the right end face of the smearing plate 151 and the top end wall of the smearing plate cavity 152, and the smearing plate 151 can evenly smear the glue smeared on the paperboard by the top gluing rotating wheel 149.

Beneficially, the film covering mechanism includes a push-pull plate 155 slidably disposed in the push-pull sliding cavity 157, a screw motor 154 is fixedly embedded in the main body 100 at the top of the annular cavity 153, a screw 156 in threaded fit with the push-pull plate 155 is dynamically connected to the right side of the screw motor 154, film covering shaft bevel cavities 161 are disposed in the push-pull plate 155 and are vertically symmetrical, a film covering motor 158 is fixedly embedded between the film covering shaft bevel cavities 161 which are vertically symmetrical, a film covering power shaft 159 is dynamically connected to the bottom end of the film covering motor 158 and extends downward, a film covering shaft bevel gear 160 is fixedly disposed at the bottom end of the film covering power shaft 159 and extends into the film covering shaft bevel cavity 161, a flip shaft 163 extending left and right is rotatably disposed at the left end wall of the film covering shaft bevel cavity 161, a right extending section of the flip shaft 163 extends into the film covering shaft bevel cavity 161 and an auxiliary bevel gear engaged with the film covering shaft bevel gear 160 is fixedly disposed at the bottom end of the flip shaft 159, the bottom film coating cavity 127 and the top film coating cavity 141 can be both provided with a rotating block 171 in a sliding manner, the middle part of the rotating block 171 is fixedly connected with the left extending section of the turning shaft 163, the rotating block 171 is internally provided with a sliding plate cavity 170 which is vertically and symmetrically arranged relative to the turning shaft 163, a sliding plate 168 is arranged in the sliding plate cavity 170 in a sliding manner, a sliding plate spring 169 is elastically connected between the top end of the sliding plate 168 and the top wall of the sliding plate cavity 170, the bottom end of the sliding plate 168 is provided with a sliding plate groove 205, a winding roller rotating shaft 167 is rotatably arranged between the left side end wall and the right side end wall of the sliding plate groove 205, the right side of the winding roller rotating shaft 167 extends out of the sliding plate 168, the tail end of the winding roller rotating shaft 167 is fixedly provided with a locking mechanism 165, the winding roller rotating shaft 167 can be fixed to rotate only, and when the film on the winding roller rotating, thereby replacing the film.

Advantageously, the roller mechanism and the printing and cutting mechanism include a right rolling wheel 121 rotatably disposed on the rear wall of the right roller cavity 120, a right rolling wheel end tooth 122 is fixedly disposed on the front side end surface of the right rolling wheel 121, the same right rolling wheel 121 and right rolling wheel end tooth 122 are disposed in the top right roller cavity 120, a right bottom rotating shaft 123 extending obliquely up and down is rotatably disposed on the bottom wall of the bottom right roller cavity 120, and passes through the upper and lower same right rolling wheel end tooth 122, the right bottom rotating shaft 123 and a right bottom rotating shaft conical tooth 124 circumferentially disposed on the outer wall of the right bottom rotating shaft 123 are in power connection, a right top rotating shaft 125 extending up and down is rotatably disposed between the middle cavity 108 and the top right roller cavity 120, and a right top rotating shaft top tooth 109 is disposed at the top end of the right top rotating shaft 125, the bottom end of the right top rotating shaft 125 is fixedly provided with right top rotating shaft bottom teeth 126 meshed with the right rolling wheel end teeth 122 positioned at the top, a top rotating shaft 104 which extends leftwards and rightwards is rotatably arranged between the power gear cavity 180 and the middle cavity 108, the left extending section of the top rotating shaft 104 extends into the power gear cavity 180, the tail end of the top rotating shaft extends into the power gear cavity 180, and the outer wall of the top rotating shaft 104 positioned in the middle cavity 108 is circumferentially and fixedly provided with top rotating shaft left teeth 103 meshed with the power rotating shaft top teeth 101, and top rotating shaft right teeth 110 meshed with the right top rotating shaft top teeth 109;

a crank rotating shaft 113 is rotatably arranged in the crank cavity 111, the left end of the crank rotating shaft 113 is fixedly connected with the right end of the top rotating shaft 104, a shaft sleeve 112 is sleeved on the curved outer wall of the crank rotating shaft 113, a connecting rod 114 which is arranged downwards is fixedly arranged on the outer wall of the shaft sleeve 112, a push rod 115 is arranged between the crank cavity 111 and the printing cavity 118 in a sliding mode, the bottom end of the connecting rod 114 is hinged to the top end of the push rod 115, a printing mechanism 116 is arranged in the printing cavity 118 in a sliding mode, and cutters 117 are fixedly arranged at the left end and the right end of the printing mechanism 116.

In the following, the applicant will use the paper molding apparatus described above with reference to fig. 1 to 3, first, in the initial state, the push-pull plate 155 is located at the maximum on the rear side of the push-pull slide chamber 157, so that the upper rotating block 171 is located in the top film coating chamber 141 and the lower rotating block 171 is located in the bottom film coating chamber 127;

when the device is used, firstly, a paperboard is placed into the working groove 119, the power motor 102 is started on the left side, the power motor 102 drives the power rotating shaft 133 to rotate, the power rotating shaft 133 drives the power rotating shaft middle tooth 132 to rotate, the power rotating shaft middle tooth 132 drives the left roller end tooth 134 to rotate, so that the left roller 131 rotates, the paperboard is rolled rightwards by the left roller 131, the paperboard drives the top gluing roller 149 to rotate through the bottom of the top gluing roller 149, so that the roller groove 201 presses the top pressing slide block 144 to move upwards, so that the gluing through groove 145 is communicated with the top glue containing cavity 300, glue in the top glue containing cavity 300 enters the roller groove 201 through the gluing through groove 145, the top gluing roller 149 rotates to glue the paperboard, the gluing plate 151 presses on the paperboard to evenly spread the glue on the top end of the paperboard, and the left roller 131 on the bottom rotates to drive the bottom rotating shaft 136 to rotate, then the gluing rotating wheel 190 is rotated, the gluing rotating wheel 190 is used for coating food-grade glue on the bottom end of the paper board, the paper board drives the film winding roller on the winding roller rotating shaft 167 to rotate through the bottom of the top film coating cavity 141 to coat the film, meanwhile, the film coating mechanism in the bottom film coating cavity 127 coats the film on the bottom end of the paper cup, if the film is used up, the screw motor 154 is started to rotate the screw 156, the push-pull plate 155 is further moved rightwards, the rotating block 171 is pulled forwards into the annular cavity 153, at the moment, the film coating motor 158 is started, the film coating motor 158 rotates to further rotate the film coating power shaft 159, the film coating power shaft 159 drives the turning shaft 163 to rotate, further the rotating block 171 rotates, the bottom winding roller rotating shaft 167 rotates to the top, then the rotating block 171 is pushed back, the film coating work is continued, the top tooth 101 of the power rotating shaft rotates, the left tooth 103 of the top rotating shaft is driven to, the top rotating shaft right tooth 110 rotates to drive the right top rotating shaft 125 to rotate, so that the right top rotating shaft bottom tooth 126 rotates, the right top rotating shaft bottom tooth 126 rotates to the top right rolling wheel 121, the paper board in the working groove 119 continues to roll to the right side, meanwhile, the top rotating shaft 104 drives the crank rotating shaft 113 to rotate, the push rod 115 pushes downwards, the push rod 115 drives the printing mechanism 116 to push downwards, the printing mechanism 116 drives the cutter 117 to cut the paper board into an arc shape downwards, and meanwhile, the printing mechanism 116 prints patterns on the paper board.

The beneficial effects of the invention are as follows:

the power mechanism and the feeding mechanism can roll the paper board rightwards by the left roller;

the first roller gluing mechanism and the second roller gluing mechanism can rotate through the top gluing rotating wheel, so that the groove of the rotating wheel is pressed against the jacking sliding block, the jacking sliding block moves upwards, the gluing through groove is communicated with the glue containing cavity at the top, glue in the glue containing cavity at the top enters the groove of the rotating wheel through the gluing through groove, the gluing rotating wheel at the top rotates to enable the glue to be adhered to a paperboard, meanwhile, the smearing plate is pressed against the paperboard to enable the glue on the top end of the paperboard to be smeared uniformly, the left side roller at the bottom rotates to drive the rotating shaft at the bottom to rotate, and further, the gluing rotating wheel rotates, and the bottom end of the paperboard is smeared with food-grade glue;

the film coating mechanism can rotate through a film winding roller on a winding roller rotating shaft to coat a film on a paperboard, meanwhile, a film coating mechanism in a film coating cavity at the bottom coats the bottom end of the paper cup, if the film is used up, a screw motor is started to rotate a screw, and further a push-pull plate moves rightwards, so that a rotating block is pulled forwards into an annular cavity, at the moment, the film coating motor is started, the film coating motor rotates to further rotate a film coating power shaft, the film coating power shaft drives a turnover shaft to rotate, further the rotating block rotates, the winding roller rotating shaft at the bottom rotates to the top and then pushes the rotating block back, and film coating work is continued;

the roller mechanism and the printing and cutting mechanism can print patterns on the paper board, and the paper board is cut into plane patterns of paper cups after printing.

In conclusion, the power mechanism and the feeding mechanism of the device can roll the paper board rightwards by the left roller, the first roller gluing mechanism and the second roller gluing mechanism can glue on the paper board, meanwhile, the coating plate is pressed against the paper board to evenly coat the glue on the top end of the paper board, the film coating mechanism can rotate by the film roller on the roller rotating shaft to coat the paper board, the film coating mechanism in the film coating cavity at the bottom covers the film on the bottom end of the paper cup, if the film is used up, the screw motor is started to rotate the screw, the push-pull plate moves rightwards, so that the rotating block is pulled forwards into the annular cavity, the film coating motor is started, the film coating motor rotates to rotate the film coating power shaft, the film coating power shaft drives the turnover shaft to rotate, the rotating block rotates to rotate the roller rotating shaft at the bottom to the top, and then the rotating block is pushed back, continuing the tectorial membrane work, gyro wheel mechanism with print cutting mechanism and can print the pattern with the cardboard, cut into the plane pattern of paper cup with the cardboard simultaneously after printing the completion, this device has realized the rubber coating tectorial membrane for traditional equipment and has printed and cut the integration, simplifies work flow, has improved work efficiency, has saved the cost, and transmission structure is more single moreover, is difficult for breaking down, is convenient for maintain.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (1)

1. The utility model provides a paper article molding equipment, includes the main frame body, its characterized in that: the main machine body is internally provided with a power gear cavity, the power gear cavity is internally provided with a power mechanism, the bottom of the power gear cavity is internally provided with a working groove, the working groove penetrates through the left side and the right side of the main machine body, the upper end wall and the lower end wall of the working groove are symmetrically provided with a left roller cavity, the left roller cavity is internally provided with a feeding mechanism, the right side of the left roller cavity is internally provided with a top gluing cavity, the top gluing cavity is internally provided with a first roller gluing mechanism, the right end wall of the top gluing cavity is provided with a painting plate cavity, the bottom of the painting plate cavity is internally provided with a middle roller cavity, the middle roller cavity is internally provided with a feeding mechanism, the right side of the middle roller cavity is internally provided with a bottom gluing cavity, the bottom gluing cavity is internally provided with a second roller gluing mechanism, the right side of the bottom gluing cavity is internally provided with a bottom film coating cavity, a top film coating cavity is formed in the main machine body close to the left position on the top of the bottom film coating cavity, film coating mechanisms are arranged in the top film coating cavity and the bottom film coating cavity, a right roller cavity which is obliquely symmetrical relative to the working groove is formed in the main machine body on the right side of the bottom film coating cavity, a roller mechanism is arranged in the right roller cavity, a middle cavity which is positioned at the top of the right roller cavity is formed in the main machine body on the right side of the top film coating cavity, a crank cavity is formed in the main machine body on the right side of the middle cavity, a printing cavity is formed in the main machine body at the bottom of the crank cavity, a printing cutting mechanism is arranged in the printing cavity, and the printing cavity, the right roller cavity, the bottom film coating cavity, the top film coating cavity, the bottom rubber cavity and the middle roller cavity are communicated with the working groove, annular cavities are formed in the front end faces of the bottom film coating cavity and the top film coating cavity and are arranged annularly, and a push-pull sliding cavity is formed in the main machine body on the front side of the annular cavities;

the power mechanism and the feeding mechanism comprise power motors fixedly embedded in the top walls of the power gear cavities, power rotating shafts which are arranged in an up-and-down extending mode are rotatably arranged between the left side roller cavities and the power gear cavities, the top ends of the power rotating shafts extend into the power gear cavities and are in power connection with the bottom ends of the power motors, power rotating shaft top teeth are fixedly arranged on the outer walls of the power rotating shafts in the power gear cavities in a circumferential direction, power rotating shaft bottom teeth are fixedly arranged at the tail ends of the power rotating shafts which extend into the left side roller cavities at the bottom, power rotating shaft middle teeth are fixedly arranged on the outer walls of the power rotating shafts in the left side roller cavities at the top in a circumferential direction, left side rollers are rotatably arranged on the rear walls of the left side roller cavities in an up-and-down symmetrical mode, left side roller end teeth are fixedly arranged on the front side end faces of the left side rollers, the end teeth of the left roller positioned at the top are meshed with the middle teeth of the power rotating shaft, and the end teeth of the left roller positioned at the bottom are meshed with the bottom teeth of the power rotating shaft;

the first roller gluing mechanism and the second roller gluing mechanism comprise a middle roller rotatably arranged in a middle roller cavity, a bottom rotating shaft which extends leftwards and rightwards is rotatably arranged between a bottom glue cavity and a left roller cavity positioned at the bottom, a left extending section of the bottom rotating shaft extends into the left roller cavity positioned at the bottom, the tail end of the bottom rotating shaft is fixedly provided with a left bottom rotating shaft tooth which is meshed with the left roller end tooth positioned at the bottom, the middle part of the bottom rotating shaft penetrates through the middle roller cavity and is in power fit connection with the front end face of the middle roller through a bevel gear which is designed in the same way as the left roller end tooth, a right bottom rotating shaft tooth is fixedly arranged at the tail end of the right extending section of the bottom rotating shaft, a gluing rotating wheel is rotatably arranged on the rear wall of the bottom glue cavity, and a gluing bevel gear which is meshed with the right bottom rotating shaft tooth is fixedly arranged on the front end face of the gluing rotating wheel, food-grade glue is arranged in the bottom glue cavity;

wherein the second roller mechanism comprises a top gluing rotating wheel rotatably arranged on the rear wall of the top gluing cavity, rotating wheel grooves which are uniformly distributed are formed in the circumferential outer wall of the top gluing rotating wheel, a top glue containing cavity is formed in the main body at the top of the top gluing cavity, glue is contained in the top glue containing cavity, the top glue containing cavity is separated from the top gluing cavity through a fixed baffle plate, the fixed baffle plate is fixed on the rear wall of the top gluing cavity, a jacking sliding block is arranged in the fixed baffle plate in a sliding manner and penetrates through the fixed baffle plate, a gluing through groove is formed in the jacking sliding block, fixed blocks are fixedly arranged on the left side end face and the right side end face of the jacking sliding block in the top gluing cavity, jacking springs are elastically connected between the fixed blocks and the fixed baffle plate, and the bottom ends of the jacking sliding blocks are in abutting fit with the rotating wheel grooves, when the top gluing rotating wheel is driven to rotate by a paperboard in the working groove at the bottom, the rotating wheel groove pushes the jacking sliding block to move upwards so that glue in the top glue containing cavity flows into the rotating wheel groove along the gluing through groove and is then smeared on the surface of the paperboard in the working groove, the top wall of the smearing plate cavity is hinged with a smearing plate which is obliquely arranged, the bottom end of the smearing plate pushes the paperboard, a smearing plate spring is elastically connected between the right end face of the smearing plate and the top end wall of the smearing plate cavity, and the smearing plate can evenly smear the glue smeared on the paperboard by the top gluing rotating wheel;

the film coating mechanism comprises a push-pull plate arranged in the push-pull sliding cavity in a sliding mode, a screw motor is fixedly embedded in the main body at the top of the annular cavity, a screw matched with the push-pull plate in a threaded mode is in power connection with the right side of the screw motor, film coating shaft conical tooth cavities symmetrically arranged up and down are formed in the push-pull plate, a film coating motor is fixedly embedded between the film coating shaft conical tooth cavities symmetrically arranged up and down, a film coating power shaft extending downwards is in power connection with the bottom end of the film coating motor, the bottom end of the film coating power shaft extends into the film coating shaft conical tooth cavities, film coating shaft conical teeth are fixedly arranged at the tail ends of the film coating power shaft, a turnover shaft extending leftwards and rightwards in a rotating mode is arranged on the left end wall of the film coating shaft conical tooth cavities, an auxiliary bevel gear meshed with the film coating shaft conical teeth is fixedly arranged at the tail ends of the film coating power shaft, and rotating blocks are arranged in, the middle part of the rotating block is fixedly connected with the left side extending section of the turnover shaft, a sliding plate cavity which is vertically and symmetrically arranged relative to the turnover shaft is arranged in the rotating block, a sliding plate is arranged in the sliding plate cavity in a sliding manner, a sliding plate spring is elastically connected between the top end of the sliding plate and the top wall of the sliding plate cavity, a sliding plate groove is arranged at the bottom end of the sliding plate, a winding roller rotating shaft is rotatably arranged between the left side end wall and the right side end wall of the sliding plate groove, the right side of the winding roller rotating shaft extends out of the sliding plate, a locking mechanism is fixedly arranged at the tail end of the winding roller rotating shaft, the winding roller rotating shaft can be fixed by the locking mechanism to only rotate, and when the film on the winding roller rotating shaft is;

the gyro wheel mechanism with it sets up including rotating to print cutting mechanism right side roll wheel on the wall behind the right side roller chamber, right side roll wheel end tooth has set firmly on the front side end face of right side roll wheel, the top right side roller intracavity be equipped with the same right side roll wheel with right side roll wheel end tooth is located the bottom rotate on the diapire in right side roller chamber and be equipped with the right side bottom pivot that extends from top to bottom, and from the upper and lower the same pass through between the right side roll wheel end tooth, right side bottom pivot and circumference set firmly right side bottom pivot awl tooth power connection on the pivot outer wall in right side bottom, middle part cavity with be located the top rotate between the right side roller chamber and be equipped with the right side top pivot top tooth that extends from top to bottom, the bottom of right side top pivot set firmly with be located the top the right side top that right side roll wheel end tooth meshing set up The power gear cavity is provided with a power gear cavity, the power gear cavity is provided with a middle cavity, the middle cavity is provided with a power gear cavity, the power gear cavity is provided with a power gear cavity, the middle cavity is provided with a power gear cavity, the power gear cavity is provided with a power;

the utility model discloses a printing machine, including printing chamber, crank chamber, printing mechanism, wherein, the internal rotation of crank chamber is equipped with the crank pivot, the left side end of crank pivot with the terminal fixed connection in right side of top pivot, the cover has the axle sleeve on the crooked outer wall of crank pivot, the outer wall of axle sleeve is last to set firmly the connecting rod that sets up downwards, crank chamber with it is equipped with the catch bar to print to slide between the chamber, the bottom of connecting rod with the top of catch bar is articulated, it is equipped with printing mechanism to print the intracavity slip, printing mechanism's.

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