CN114751013B

CN114751013B - Automatic-based seam beautifying agent preparation system

Info

Publication number: CN114751013B
Application number: CN202210284860.7A
Authority: CN
Inventors: 杨洪涛; 王磊; 朱会娟; 张长权; 李创军; 黄佐
Original assignee: Hunan Handsome Adhesive Industry Co Ltd
Current assignee: Hunan Handsome Adhesive Industry Co Ltd
Priority date: 2022-03-22
Filing date: 2022-03-22
Publication date: 2024-05-28
Anticipated expiration: 2042-03-22
Also published as: CN114751013A

Abstract

The invention provides an automatic seam beautifying agent preparation system which comprises a rubber bottle box, wherein an inclined bottle guide surface is arranged at the bottom of the rubber bottle box, a rubber bottle lifting belt is arranged in the rubber bottle box at the lower end of the bottle guide surface, a rubber bottle sorting assembly is arranged at the output end of the rubber bottle lifting belt, a bottle guide plate is arranged at the output end of the rubber bottle sorting assembly, an outlet of the bottle guide plate is connected with a filling machine, a sealing machine is connected at the outlet of the filling machine, a rubber bottle conveying belt is arranged at the outlet of the sealing machine, a workbench is arranged at the output end of the rubber bottle conveying belt, a rubber bottle guide unit is arranged on the workbench, and a bottle cap discharging unit is arranged above the rubber bottle guide unit in the output direction of the rubber bottle conveying belt. The structure is reasonable after the scheme is adopted, the using effect is good, and an effective production line can be formed by matching the structure with an external system.

Description

Automatic-based seam beautifying agent preparation system

Technical Field

The invention relates to the technical field of glue, in particular to an automatic-based joint beautifying agent preparation system.

Background

The seam beautifying agent is an upgrade product of the seam pointing agent, the decorative practicability of the seam beautifying agent is obviously superior to that of a color seam filling agent, and the problems of unattractive tile seams, dirty black and the like are solved. The joint beautifying agent can be directly added into the gaps of the tiles after the tiles are bonded. The filling material is suitable for filling gaps of more than 2mm, is more convenient to construct than ordinary, and is an upgrading product of the caulking agent. The joint compound has luster after construction, rich, natural and fine colors such as gold, silver, beaded colors and the like, and the chromaticity of white and black is obviously higher than that of white cement and color joint compound, so that a better overall effect is brought to the wall surface, and the decorative property is greatly stronger than that of the white cement and the color joint compound. And after solidification, the surface is smooth like porcelain, can be scrubbed together with the ceramic tile, has the characteristics of permeation resistance and water resistance, and can realize that the gaps of the ceramic tile are never blackened. After the seam-beautifying agent is prepared, the glue filling and packaging are needed through a glue filling machine, the directions of the glue bottles are required to be consistent before the glue bottles enter the glue filling machine, the glue bottles are conventionally placed in a glue bottle box in a layered mode after the glue bottle directions are unified manually, the glue bottles are then transported and filled, and after a filling melting port is formed, the glue bottles are required to be discharged into a packaging box for sealing through the manual operation, so that the mode has high labor intensity, low efficiency and incapability of forming an effective automatic production line.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provides an automatic-based seam beautifying agent preparation system with reasonable structure and good use effect.

In order to achieve the above purpose, the technical scheme provided by the invention is as follows: the automatic seam beautifying agent preparation system comprises a glue bottle box, wherein an inclined glue bottle guiding surface is arranged at the bottom of the glue bottle box, a glue bottle lifting belt is arranged in the glue bottle box at the lower end of the glue bottle guiding surface, a glue bottle sorting assembly is arranged at the output end of the glue bottle lifting belt, a glue bottle guiding plate is arranged at the output end of the glue bottle sorting assembly, an outlet of the glue bottle guiding plate is connected with a filling machine, a sealing machine is connected at the outlet of the filling machine, a glue bottle conveying belt is arranged at the outlet of the sealing machine, a workbench is arranged at the output end of the glue bottle conveying belt, a glue bottle guiding unit is arranged on the workbench, and a bottle cap discharging unit is arranged above the glue bottle guiding unit in the output direction of the glue bottle conveying belt; a cap screwing unit is arranged above the rubber bottle guiding unit in the output direction of the cap discharging unit, an inclined bottle discharging guide groove is arranged on a workbench in the output direction of the cap screwing unit, a rubber forming conveying belt is arranged below the bottle discharging guide groove, and a rubber bottle stacking unit is arranged at the output end of the rubber forming conveying belt; the box supporting frame is arranged on the ground in the output direction of the glue bottle stacking unit, and the box packing unit is arranged on the box supporting frame.

The bottle cap discharging unit comprises a vibrating tray, a spiral lifting discharging plate is arranged in the vibrating tray, a discharging inner baffle is arranged on the inner side of the discharging plate, a gravity groove formed by concave downwards is arranged at the output end of the discharging plate, a material returning groove is arranged on the discharging inner baffle at the gravity groove, two limit guide rods are arranged above the output end of the gravity groove, two cover supporting guide rods are connected to the discharging plate at the outlet of the gravity groove, an anti-stacking guide rod is arranged above the gravity groove, and one end of the anti-stacking guide rod is connected with the inner cavity wall of the vibrating tray outside the discharging plate; the other end of the anti-overlapping guide rod extends above the material returning groove, the cover supporting guide rod and the limiting guide rod are parallel to form a bottle cover conveying channel, and a cover outlet barrel is arranged at the outlet of the bottle cover conveying channel; one end top of the cover outlet barrel is connected with the output end of the cover supporting guide rod, the end part of the output end of the limiting guide rod is connected to the bottom of the cover outlet barrel below the cover supporting guide rod, the top of the cover outlet barrel is provided with a cover tip guide groove, the top of the cover outlet barrel of the output end of the cover tip guide groove extends outwards to form a baffle hinge, the bottom of the baffle hinge is movably hinged with two limiting plates, and the two limiting plates are respectively positioned at two sides of the cover tip guide groove; the top of the limiting plate is movably hinged to the top of the inner cavity wall of the cover outlet cylinder through a limiting pin shaft, a V-shaped clamp spring is sleeved on the limiting pin shaft, one fork arm of the V-shaped clamp spring is in contact with the top of the inner cavity wall of the cover outlet cylinder, the other fork arm of the V-shaped clamp spring is in contact with the surface of the limiting plate, and the bottom of the installed limiting plate is inclined downwards to form a gear.

The glue bottle stacking unit comprises a glue pushing cylinder and a box feeding guide rail, wherein the glue pushing cylinder is arranged on one side of the output end of the glue forming conveyer belt, a power frame is arranged on the other side of the output end of the glue forming conveyer belt, a bottle supporting component is arranged on the power frame, a glue bottle pushing plate is arranged on a piston rod of the glue pushing cylinder, the glue bottle pushing plate faces to the direction of a bottle pushing groove, and a glue baffle is vertically fixed at the end part of the output end of the glue forming conveyer belt; the bottle supporting assembly comprises two rotating wheel plates, the centers of the two rotating wheel plates are connected through a synchronizing shaft, and the end parts of the synchronizing shaft are sleeved in bearing seats on the power frame; the bottle supporting assemblies with the number of more than 4 groups are arranged on the opposite sides of the two rotating wheel plates, and are uniformly distributed between the two rotating wheel plates in a ring shape by taking the synchronous shaft as the center; the bottle supporting device comprises a rotary wheel plate, a glue-forming conveying belt, a bottle supporting plate and a bottle supporting plate, wherein the glue-forming conveying belt is arranged outside the bottle-pushing groove; two bottle supporting rails are fixed on the power frame in the output direction of the rotating wheel plates, one end of each bottle supporting rail extends between the lower parts of the two rotating wheel plates, a bottle supporting sliding plate is movably mounted on each bottle supporting rail, a push plate cylinder is mounted at one end of each bottle supporting rail, a piston rod of the push plate cylinder is connected with the bottom of each bottle supporting sliding plate, limit partition plates with the number larger than 2 are vertically inserted at the top of each bottle supporting sliding plate, and a glue bottle stacking area is reserved between every two adjacent limit partition plates.

The spiral cover unit comprises a spiral cover lifting cylinder arranged above the rubber bottle conveying belt, a spiral cover seat is arranged at the bottom of the spiral cover lifting cylinder, a spiral cover motor is arranged in the spiral cover seat, a transmission shaft of the spiral cover motor is downwards connected with a spiral cover head, a bottle guide pressing plate is arranged below the spiral cover head, a vertical upwards limiting guide post is arranged at the top of the bottle guide pressing plate, the top of the limiting guide post upwards penetrates through the spiral cover seat to be meshed with a guide post limiting nut, a guide post spring is sleeved on the limiting guide post, the bottom of the guide post spring is in contact with the top of the bottle guide pressing plate, and the top of the guide post spring is in contact with the bottom of the spiral cover seat; the bottle guide pressing plate right below the bottle cap rotating head is provided with a bottle body positioning groove penetrating up and down, and the bottom of the bottle cap rotating head outside the bottle body positioning groove is provided with a centering ring with a small upper part and a big lower part.

The rubber bottle guiding unit comprises a bottle guiding turntable, wherein the bottle guiding turntable is arranged on a workbench, a turntable motor is arranged in the workbench, a transmission shaft of the turntable motor is upwards connected with the bottom of the bottle guiding turntable, bottle guiding grooves with the number larger than 4 are uniformly distributed at the edge of the bottle guiding turntable, annular limiting rings are arranged on the workbench at the outer side of the bottle guiding turntable, a bottle inlet opening is formed in one side of each limiting ring, and limiting rings at the bottle inlet opening are connected with rubber bottle baffle plates at two sides of a rubber bottle conveying belt.

The boxing unit comprises a box conveying guide rail arranged above the box supporting frame, a box conveying sliding seat is movably arranged on the box conveying guide rail, the box conveying sliding seat is driven to operate by a corresponding box conveying motor, a box conveying cylinder which is vertically downwards arranged on the box conveying sliding seat, a box sucking plate is arranged at the bottom of the box conveying cylinder, a box sucking air nozzle is arranged at the bottom of the box sucking plate, a box supporting roller is arranged at the top of the box supporting frame, the box supporting roller is driven to operate by a corresponding carrier roller motor, a box bottom air nozzle is arranged at a box supporting roller gap at the input end of the box supporting frame, a bottle pushing fixed plate is vertically arranged at the other end of a bottle supporting rail which is opposite to the box supporting frame, a boxing cylinder is horizontally arranged on the bottle pushing fixed plate, a bottle pushing synchronous plate is arranged on a piston rod of the bottle pushing cylinder, a plurality of bottle pushing supporting rods are connected to the bottle pushing synchronous plate, and a push plate is arranged on the bottle pushing supporting rods, and the box is opposite to the box supporting frame; the output end of the box supporting frame is obliquely provided with a box turning guide plate, and the bottom of the lower end of the box turning guide plate is provided with a box sealing frame.

The glue bottle sorting assembly comprises a glue bottle discharging conveyor belt and a glue bottle discharging baffle plate, wherein one end of a glue bottle lifting belt is positioned in a glue bottle box, the other end of the glue bottle lifting belt obliquely upwards extends out of a glue bottle box forming output end, and bottle lifting guide plates are uniformly distributed on a bearing surface of the glue bottle lifting belt; a bottle outlet nozzle is arranged at one side of the output end of the rubber bottle lifting belt, a bottle discharging conveyer belt is arranged at the other side of the output end of the rubber bottle lifting belt, a bottle discharging baffle is arranged at the outer side of the input end of the bottle discharging conveyer belt, a plurality of vertical partition plates are arranged on the bearing surface of the bottle discharging conveyer belt, A rubber bottle separation area is formed between the adjacent vertical separation plates, a bottle discharging tuyere is arranged on one side of the output end of the bottle discharging conveyor belt, a bottle guide plate is arranged on the other side of the bottle discharging conveyor belt opposite to the bottle discharging tuyere, and a bottle returning unit is arranged below the bottle discharging conveyor belt.

According to the scheme, the glue bottles to be filled are placed in the glue bottle box, the glue bottles are subjected to end separation selection through the glue bottle sorting assembly, the sorted glue bottles enter the filling machine for filling, the sealing machine is used for sealing after the filling is finished, the sealing machine, the filling machine and the like are all conventional equipment in the market, after sealing, the bottle caps are buckled on the glue bottles through the glue bottle guiding unit and the bottle cap discharging unit, the bottle caps are screwed through the cap screwing unit, the bottle caps are driven by the bottle outlet guide groove to fall onto the glue forming conveyor belt after screwing, the glue forming conveyor belt is driven to be sent to the glue bottle stacking unit for stacking, and the glue bottles are packaged through the boxing unit after stacking.

Drawings

Fig. 1 is a schematic diagram of the overall structure of the present invention.

Fig. 2 is a schematic structural diagram of a plastic bottle sorting assembly according to the present invention.

Fig. 3 is a schematic diagram of a bottle cap discharging unit structure of the present invention.

Fig. 4 is a schematic structural view of a laminated plastic bottle unit according to the present invention.

Fig. 5 is a schematic diagram of the structure of the boxing unit in accordance with the present invention.

Fig. 6 is a schematic view of the limiting plate hinge of the present invention.

Fig. 7 is a schematic view of the structure of the cap screwing unit of the present invention.

Fig. 8 is a schematic diagram of the installation of the glue bottle pushing plate of the invention.

Fig. 9 is a schematic view of a bottle supporting assembly according to the present invention.

Fig. 10 is a schematic diagram of the installation of the boxing push plate of the present invention.

Detailed Description

The invention is further described below with reference to all drawings, in which preferred embodiments of the invention are: referring to fig. 1 to 10, the automatic seam beautifying agent preparation system according to the present embodiment includes a glue bottle box 401, an inclined glue bottle guiding surface is provided at the bottom of the glue bottle box 401, a glue bottle lifting belt 402 is provided in the glue bottle box 401 at the lower end of the glue bottle guiding surface, a glue bottle sorting assembly is provided at the output end of the glue bottle lifting belt 402, a glue bottle guiding plate 407 is provided at the output end of the glue bottle sorting assembly, the outlet of the glue bottle guiding plate 407 is connected with a filling machine 602, a sealing machine 601 is connected at the outlet of the filling machine 602, a glue bottle conveying belt 206 is provided at the outlet of the sealing machine 601, a workbench 203 is provided at the output end of the glue bottle conveying belt 206, a glue bottle guiding unit is mounted on the workbench 203, and a bottle cap discharging unit is provided above the glue bottle guiding unit in the output direction of the glue bottle conveying belt 206; a cap screwing unit is arranged above the rubber bottle guiding unit in the output direction of the cap discharging unit, an inclined bottle discharging guide groove 207 is arranged on the workbench 203 in the output direction of the cap screwing unit, a rubber forming conveying belt 508 is arranged below the bottle discharging guide groove 207, and a rubber bottle stacking unit is arranged at the output end of the rubber forming conveying belt 508; a box bracket 516 is placed on the ground in the output direction of the glue bottle stacking unit, and a box filling unit is arranged on the box bracket 516.

The bottle cap discharging unit comprises a vibrating tray 101, a spirally ascending discharging plate 102 is arranged in the vibrating tray 101, a discharging inner baffle 103 is arranged on the inner side of the discharging plate 102, a gravity groove 105 formed by concave downward is arranged at the output end of the discharging plate 102, a return groove 108 is arranged on the discharging inner baffle 103 at the position of the gravity groove 105, two limit guide rods 104 are arranged above the output end of the gravity groove 105, two cover supporting guide rods 106 are connected to the discharging plate 102 at the position of the outlet of the gravity groove 105, an anti-stacking guide rod 107 is arranged above the gravity groove 105, and one end of the anti-stacking guide rod 107 is connected with the inner cavity wall of the vibrating tray 101 outside the discharging plate 102; the other end of the anti-overlapping guide rod 107 extends to the upper part of the returning groove 108, the cover supporting guide rod 106 and the limiting guide rod 104 are parallel to form a bottle cover conveying channel, and a cover outlet barrel 109 is arranged at the outlet of the bottle cover conveying channel; one end top of the cover outlet barrel 109 is connected with the output end of the cover supporting guide rod 106, the end part of the output end of the limiting guide rod 104 is connected with the bottom of the cover outlet barrel 109 below the cover supporting guide rod 106, the top of the cover outlet barrel 109 is provided with a cover tip guide groove 110, the top of the cover outlet barrel 109 at the output end of the cover tip guide groove 110 extends outwards to form a baffle hinge position, the bottom of the baffle hinge position is movably hinged with two limiting plates 112, and the two limiting plates 112 are respectively positioned at two sides of the cover tip guide groove 110; the top of the limiting plate 112 is movably hinged to the top of the inner cavity wall of the cover outlet barrel 109 through a limiting pin shaft, a V-shaped clamp spring 113 is sleeved on the limiting pin shaft, one fork arm of the V-shaped clamp spring 113 is abutted against the top of the inner cavity wall of the cover outlet barrel 109, the other fork arm of the V-shaped clamp spring 113 is abutted against the surface of the limiting plate 112, and the bottom of the installed limiting plate 112 is inclined downwards to form a gear.

The glue bottle stacking unit comprises a glue pushing cylinder 511 and a box feeding guide rail 514, wherein the glue pushing cylinder 511 is arranged on one side of the output end of the glue conveying belt 508, a power frame 501 is arranged on the other side of the output end of the glue conveying belt 508, a bottle supporting assembly is arranged on the power frame 501, a glue bottle pushing plate 512 is arranged on a piston rod of the glue pushing cylinder 511, the glue bottle pushing plate 512 faces the direction of a bottle pushing groove 507, and a glue baffle 513 is vertically fixed at the end part of the output end of the glue conveying belt 508; the bottle supporting assembly comprises two rotating wheel plates 502, wherein the centers of the two rotating wheel plates 502 are connected through a synchronizing shaft, and the end parts of the synchronizing shafts are sleeved in bearing seats on the power frame 501; the bottle supporting components with the number more than 4 groups are arranged on the opposite sides of the two rotating wheel plates 502, and are uniformly distributed between the two rotating wheel plates 502 in a ring shape by taking the synchronous shaft as the center; the rotary wheel plate 502 is provided with a penetrating bottle pushing groove 507, the glue forming conveyor belt 508 is positioned at the outer side of the bottle pushing groove 507, the bottle supporting component comprises two bottle supporting hinge rods 509 and bottle supporting plates 510, wherein the two bottle supporting hinge rods 509 are n-shaped, the n-shaped top parts of the bottle supporting hinge rods 509 are hinged with the corresponding rotary wheel plates 502 through hinge rod pins, the two side walls of the bottle supporting hinge rods 509 naturally hang, the hanging ends of the two bottle supporting hinge rods are oppositely bent to form a bottle supporting plate hinge block, the width of the bottle supporting sliding plate 504 is smaller than the distance between the two bottle supporting plate hinge blocks, the bottle supporting plates 510 are movably hinged at the top parts of the bottle supporting plate hinge blocks, the two sides of one end part of each bottle supporting plate 510 are hinged with the top parts of the bottle supporting plate hinge blocks, the other end parts of the bottle supporting plates 510 are suspended, and a bottle supporting area is formed between the hanging ends of the two bottle supporting plates 510; two bottle supporting rails 503 are fixed on a power frame 501 in the output direction of the rotary wheel plate 502, one end of each bottle supporting rail 503 extends between the lower parts of the two rotary wheel plates 502, bottle supporting sliding plates 504 are movably mounted on each bottle supporting rail 503, push plate cylinders 505 are mounted at one end of each bottle supporting rail 503, piston rods of the push plate cylinders 505 are connected with the bottoms of the bottle supporting sliding plates 504, limiting partition plates 506 with the number larger than 2 are vertically inserted at the tops of the bottle supporting sliding plates 504, and a glue bottle stacking area is reserved between every two adjacent limiting partition plates 506.

The cap screwing unit comprises a cap screwing lifting cylinder 208 arranged above a rubber bottle conveying belt 206, a cap screwing seat 209 is arranged at the bottom of the cap screwing lifting cylinder 208, a cap screwing motor 210 is arranged in the cap screwing seat 209, a transmission shaft of the cap screwing motor 210 is downwards connected with a cap screwing head 211, a bottle guiding pressing plate 212 is arranged below the cap screwing head 211, a vertical upwards limiting guide column 213 is arranged at the top of the bottle guiding pressing plate 212, the top of the limiting guide column 213 upwards penetrates through the cap screwing seat 209 to be meshed with a guide column limiting nut, a guide column spring 214 is sleeved on the limiting guide column 213, the bottom of the guide column spring 214 is in contact with the top of the bottle guiding pressing plate 212, and the top of the guide column spring 214 is in contact with the bottom of the cap screwing seat 209; bottle body positioning grooves penetrating up and down are formed in the bottle guide pressing plate 212 right below the cap screwing head 211, and a centering ring 219 with a small upper part and a large lower part is arranged at the bottom of the cap screwing head 211 outside the bottle body positioning grooves.

The plastic bottle guiding unit comprises a plastic bottle guiding turntable 202, wherein the plastic bottle guiding turntable 202 is arranged on a workbench 203, a turntable motor is arranged in the workbench 203, a transmission shaft of the turntable motor is upwards connected with the bottom of the plastic bottle guiding turntable 202, the plastic bottle guiding grooves 204 with the number larger than 4 are uniformly distributed at the edge of the plastic bottle guiding turntable 202, annular limiting rings 205 are arranged on the workbench 203 outside the plastic bottle guiding turntable 202, one side of each limiting ring 205 is provided with a bottle inlet opening, and the limiting rings 205 at the bottle inlet opening are connected with plastic bottle baffle plates at two sides of a plastic bottle conveying belt 206.

The boxing unit comprises a boxing guide rail 514 arranged above a boxing frame 516, a boxing slide seat 515 is movably arranged on the boxing guide rail 514, the boxing slide seat 515 is driven to operate by a corresponding boxing motor, a boxing cylinder 517 is arranged on the boxing slide seat 515 and is vertically downwards, a box sucking plate is arranged at the bottom of the boxing cylinder 517, a box sucking air nozzle 518 is arranged at the bottom of the box sucking plate, a boxing roller 519 is arranged at the top of the boxing frame 516, the boxing roller 519 is driven to operate by a corresponding carrier roller motor, a box bottom air nozzle 520 is arranged at the gap of the boxing roller 519 at the input end of the boxing frame 516, a bottle pushing fixed plate 521 is vertically arranged at the other end of the bottle supporting rail 503 opposite to the boxing frame 516, a boxing cylinder 522 is horizontally arranged on the bottle pushing fixed plate 521, a bottle pushing synchronous plate is arranged on a piston rod of the boxing cylinder 522, a plurality of bottle pushing supporting rods 523 are connected on the bottle pushing synchronous plate, and the push plate 524 is opposite to the boxing frame 516; the output end of the box holding frame 516 is obliquely provided with a box turning guide plate, and the bottom of the lower end of the box turning guide plate is provided with a box sealing frame.

The glue bottle sorting assembly comprises a glue bottle conveying belt 404 and a glue bottle arranging baffle 405, wherein one end of a glue bottle lifting belt 402 is positioned in a glue bottle box 401, the other end of the glue bottle lifting belt 402 obliquely upwards extends out of the glue bottle box 401 to form an output end, and a glue bottle lifting guide plate 419 is uniformly distributed on a bearing surface of the glue bottle lifting belt 402; the bottle discharging device is characterized in that a bottle discharging air nozzle 403 is arranged on one side of the output end of the rubber bottle lifting belt 402, a bottle discharging conveying belt 404 is arranged on the other side of the output end of the rubber bottle lifting belt 402, a bottle discharging baffle 405 is arranged on the outer side of the input end of the bottle discharging conveying belt 404, a plurality of vertical partition plates 408 are arranged on the bearing surface of the bottle discharging conveying belt 404, a rubber bottle separation area is formed between every two adjacent vertical partition plates 408, a bottle discharging air nozzle 406 is arranged on one side of the output end of the bottle discharging conveying belt 404, a bottle guiding plate 407 is arranged on the other side of the bottle discharging conveying belt 404 opposite to the bottle discharging air nozzle 406, and a bottle returning unit is arranged below the bottle discharging conveying belt 404. The bottle returning unit comprises a bottle returning conveying plate 412 and a bottle returning vibrator 413, wherein a beam is arranged on the upper portion of a frame 414, a bottle returning guide post 415 is vertically fixed on the beam, a guide post guide block 416 is arranged on the outer side of the bottle returning conveying plate 412, a bottle returning guide hole penetrating up and down is arranged on the guide post 416, the bottle returning guide hole is sleeved with the bottle returning guide post 415, a conveying plate spring 417 is sleeved on the bottle returning guide post 415, the bottom of the conveying plate spring 417 is abutted against the beam, the top of the conveying plate spring 417 is abutted against the bottom of the guide post 416, the bottle returning vibrator 413 is arranged at the bottom of the bottle returning conveying plate 412, the mounted bottle returning conveying plate 412 is inclined by 10-35 degrees, the higher end of the bottle returning conveying plate 412 is located below the output end of the bottle discharging conveying belt 404, the lower end of the bottle returning conveying plate 412 is connected with a bottle returning mouth 418 on the upper portion of the bottle returning box 401, a first bottle returning guide plate 411 is obliquely arranged below the output end of the bottle returning conveying plate 411, and the lower end of the first bottle returning guide plate 411 is located above the bottle returning conveying plate 412.

An anti-overlapping pulling rod 409 is arranged above the vertical separation plate 408, one end of the anti-overlapping pulling rod 409 is connected with the top of the bottle arranging baffle 405, the other end of the anti-overlapping pulling rod 409 inclines for 30-45 degrees along the horizontal direction, a second bottle returning guide plate 410 is arranged below the inclined end of the anti-overlapping pulling rod, the lower end of the second bottle returning guide plate 410 is positioned above the first bottle returning guide plate 411, and a single-layer conveying channel for rubber bottles is formed between the bottom of the anti-overlapping pulling rod 409 and the bearing surface of the bottle arranging conveying belt 404.

After the scheme is adopted, the rubber bottles are stacked in the rubber bottle box, under the action of the bottle guide surface, the rubber bottles are close to the lower part of the rubber bottle lifting belt, the rubber bottle lifting belt acts to drive the bottle lifting guide plate to act, a part of rubber bottles in the rubber bottle box are supported by the bottle lifting guide plate, and the rubber bottles are driven to rise along with the lifting guide plate when the bottle lifting guide plate rises;

When the bottle lifting guide plate with the rubber bottle ascends to the position of the bottle outlet air nozzle, the bottle outlet air nozzle blows the rubber bottle to the direction of the bottle discharging conveyor belt, finally the rubber bottle slides to the bottle discharging conveyor belt, and the non-blown rubber bottle falls onto the first bottle returning guide plate from the output end of the rubber bottle lifting belt when the rubber bottle lifting belt runs;

The glue bottles move onto the bottle arranging conveyor belt and then fall into the glue bottle separating area, the glue bottles are driven by the bottle arranging conveyor belt to be conveyed backwards, when the glue bottles are stacked, the glue bottles on the upper layer are blocked by the anti-stacking pulling rod, and under the guiding action of the anti-stacking pulling rod, the glue bottles fall onto the second bottle returning guide plate;

the single-layer rubber bottles are driven by a bottle discharging conveyor belt to smoothly pass through the upper direction of the anti-overlapping pulling rod and then are conveyed, a bottle discharging air nozzle is blown to a rubber bottle separation area by an external fan, when the bottom of the rubber bottle in the rubber bottle separation area is positioned in the direction of the bottle discharging air nozzle, the rubber bottle is pushed by the air force of the bottle discharging air nozzle under the action of the larger resistance of the bottom of the rubber bottle, so that the rubber bottle is blown from the bottle discharging conveyor belt to fall onto a bottle guide plate, and the rubber bottle is driven by the bottle guide plate to enter a rubber filling machine;

When the plastic bottle tip in the plastic bottle separation area is positioned in the direction of the bottle discharging tuyere, the plastic bottle cannot be blown by the wind power of the bottle discharging tuyere due to the small wind receiving surface of the bottle tip, and falls onto the plastic bottle returning conveying plate from the output end of the bottle discharging conveying belt, and meanwhile, the plastic bottle on the second bottle returning guide plate and the first bottle returning guide plate finally falls onto the plastic bottle returning conveying plate, and the plastic bottle returning conveying plate returns to the plastic bottle box from the bottle returning opening under the action of the bottle returning vibrator;

The glue filling machine is used for filling glue into the entered glue bottles, after the glue filling is completed, the glue bottles are sealed by a sealing machine, the filling machine and the like are all conventional equipment in the market, the sealed glue bottles fall onto a glue bottle conveying belt, are driven by the glue bottle conveying belt to be conveyed to the bottle guiding turntable and are blocked by the edge of the bottle guiding turntable;

The bottle cap is conveyed upwards through vibration of the vibration tray, the width of the gravity groove is smaller than the width of a bottle cap opening and larger than the width of the top (tip) of the bottle cap, and when the bottle cap moves to the gravity groove, the tip of the bottle cap enters the gravity groove downwards under the action of vibration force and the dead weight of the tip of the bottle cap;

when the bottle cap with the tip upwards or the stacked bottle caps walk backwards, the anti-stacking guide rod is touched, and the bottle cap cannot walk backwards due to the blocking of the anti-stacking guide rod;

under the guiding action of the vibrating disc and the anti-stacking guide rod, the bottle cap finally passes through the returning material groove to return to the vibrating disc for re-discharging, and smoothly passes through the bottle cap below the anti-stacking guide rod (bottle cap with downward tip) to continuously advance, and is guided into the bottle cap conveying channel through the gravity groove, and when the bottle cap enters, the tip of the bottle cap is supported by the two supporting cover guide rods (the tip is downwards positioned between the two supporting cover guide rods);

When the bottle cap conveying channel is twisted (rotated) by 180 degrees from the input end to the output end and continuously walks to the output end of the bottle cap conveying channel, the tip of the bottle cap is upwards under the twisting action of the bottle cap conveying channel, and the bottle cap continuously walks and is discharged into the cap discharging cylinder;

The tip of the bottle cap is upwards positioned in the cap tip guide groove, under the action of the V-shaped clamp spring, the bottom of the limiting plate is inclined downwards to form a gear stop at the outlet of the cap outlet cylinder, the tip of the bottle cap at the outermost side enters between the two limiting plates, and the outermost side of the bottle cap body is blocked by the limiting plate and cannot be discharged; simultaneously, under the tilting action of the limiting plate, the bottle cap body is slightly tilted;

The bottle guiding rotary table is driven by the rotary table motor to walk (one station is used for walking once), when the bottle guiding groove is right opposite to the rubber bottle, the edge of the bottle guiding rotary table is not blocked, the rubber bottle enters the bottle guiding groove, and the rotary table motor drives the bottle guiding rotary table to walk one station (a limiting ring is used for preventing the rubber bottle from being thrown out) to the cover outlet cylinder;

When the glue bottle moves to the bottle cap, the glue outlet of the glue bottle is contacted with the inner cavity of the lower end of the bottle cap, and when the glue bottle continues to move, the bottle cap is pulled to squeeze the limiting plate (the two fork arms of the V-shaped clamp spring are relatively close to each other under the stress of the V-shaped clamp spring), and the limiting plate is adopted to enable the limiting plate to apply a certain pressure to the bottle cap when the bottle cap is output, so that the bottle cap can be just buckled with the glue outlet; thereby realizing the stable output of the bottle cap; after the bottle cap is buckled, the bottle guiding turntable continues to walk by one station to the lower part of the cap screwing unit;

The cap screwing lifting cylinder drives the cap screwing seat to descend, the cap screwing seat synchronously drives the bottle guiding pressing plate to descend, the bottle guiding pressing plate gradually contacts with the upper part of the rubber bottle, when the rubber bottle deviates, automatic centering is carried out under the action of the centering ring, the bottle guiding pressing plate is finally pressed on the outer side of a bottle mouth at the top of the rubber bottle (the guide pillar spring is compressed under the stress), the cap screwing seat continues to descend, the cap screwing head starts to contact with the bottle cap, the cap screwing motor rotates to drive the cap screwing head, the bottle cap is driven to be locked through the cap screwing head, and the cap screwing lifting cylinder drives the cap screwing seat to ascend after locking is finished;

The bottle guiding rotary table continues to walk by one station to the position above the bottle discharging guide groove, and the rubber bottle falls into the bottle discharging guide groove under the dead weight; the bottle is guided to a rubberizing conveying belt through a bottle outlet guide groove, supported by the rubberizing conveying belt and conveyed backwards, and blocked by a rubberizing baffle when the bottle outlet guide groove reaches the output end of the rubberizing conveying belt;

A rotating wheel plate motor is arranged on the power frame, the rotating wheel plate motor drives a synchronous shaft to rotate in a conventional mode, and the synchronous shaft synchronously drives two rotating wheel plates to rotate;

The piston rod of the glue-forming pushing cylinder stretches out to drive the glue bottle pushing plate to push the glue bottle (the glue bottle contacted with the glue-forming baffle plate) at the output end of the glue-forming conveyer belt to the bottle pushing groove, so that the glue bottle passes through the bottle pushing groove and the n-shaped groove of the bottle supporting hinge rod and then moves to the bottle supporting plate;

The bottle supporting plates cannot rotate downwards under the limiting action of the supporting plate hinge blocks, the original state is in a horizontal state, and a bottle supporting area is formed between the suspension ends of the two bottle supporting plates; the rubber bottle is supported by the two bottle supporting plates together, and the runner plate continuously rotates;

when the bottle supporting component with the rubber bottle moves to the output direction of the rotating wheel plate (above the rubber bottle stacking area), the rubber bottle enters the rubber bottle stacking area, the rotating wheel plate continues to move to drive the bottle supporting component to move downwards (below the rubber bottle stacking area), the rubber bottle is limited at two sides under the action of the limiting partition plate, when the bottle supporting plate continues to move downwards, the bottom of the bottle supporting plate is contacted with the bottle supporting sliding plate (or the rubber bottle at the lower layer), the suspension end of the bottle supporting plate can rotate upwards, the suspension end of the bottle supporting plate can jack up the rubber bottle upwards (enable the rubber bottle to be in a horizontal state), and the rubber bottle is prevented from tilting;

When the empty end of the bottle supporting plate downwards passes through the limiting baffle plate, the glue bottles on the bottle supporting plate are supported by the bottle supporting slide plate (or the glue bottles on the lower layer), so that glue bottle lamination is completed, and when the glue bottles in one glue bottle lamination area are fully laminated, the push plate cylinder drives the bottle supporting slide plate to walk for one station and lamination is continued;

the whole glue bottle stacking area is filled with a box, after stacking is completed, a piston rod of a push plate cylinder stretches out to drive a bottle supporting slide plate and stacked glue bottles to walk towards the output end of a bottle supporting track, and the glue bottles stop when the glue bottles travel to the output end of the bottle supporting track (between a boxing push plate and a box conveying guide rail);

the box feeding sliding seat is driven by a corresponding box feeding motor to walk above the stacking area of the external packing box, a piston rod of a box feeding cylinder stretches out to drive a box sucking plate to move downwards, so that a box sucking air tap contacts with the top of the packing box, an external air source acts, the packing box is sucked by the box sucking air tap, and the piston rod of the box feeding cylinder contracts to drive the sucked packing box to move upwards to leave the stacking area of the packing box;

the box feeding sliding seat is driven by a box feeding motor to move to the input end (the output end of the bottle supporting rail) of the box feeding guide rail, and a piston rod of a box feeding cylinder stretches out to drive the packaging box to move downwards, so that the bottom of the packaging box is contacted with a box bottom air tap, and the box bottom air tap acts under the driving of an external air source to suck the bottom of the packaging box; the piston rod of the box feeding cylinder contracts to drive the box sucking air tap to move upwards, the top of the packing box moves upwards under the suction action of the box sucking air tap, and the bottom of the packing box is sucked under the action of the box bottom air tap, so that the box opening of the packing box is opened;

The piston rod of the boxing cylinder drives the boxing push plate to walk towards the direction of the laminated rubber bottles through the bottle pushing synchronous plate and the bottle pushing support rod, finally enters the rubber bottle lamination area to contact with the rubber bottles, pushes the laminated rubber bottles to advance towards the box mouth direction of the packaging box when the rubber bottles continue to act, and finally pushes the laminated rubber bottles into the packaging box at one time;

the plastic bottle is driven by a carrier roller motor to run after being packaged, the filled packaging box is conveyed backwards, the output end of the box supporting frame is output downwards under the guide of the inclined surface of the box turning guide plate, the rear end of the packaging box is turned downwards (the box opening is upwards) to the box sealing frame, and box sealing is completed.

The above-mentioned embodiments are only preferred embodiments of the present invention, and are not intended to limit the scope of the present invention, so that all changes made in the shape and principles of the present invention are covered by the scope of the present invention.

Claims

1. Automatic-based joint beautifying agent preparation system is characterized in that: the automatic bottle sorting device comprises a rubber bottle box (401), wherein an inclined bottle guide surface is arranged at the bottom of the rubber bottle box (401), a rubber bottle lifting belt (402) is arranged in the rubber bottle box (401) at the lower end of the bottle guide surface, a rubber bottle sorting assembly is arranged at the output end of the rubber bottle lifting belt (402), a bottle guide plate (407) is arranged at the output end of the rubber bottle sorting assembly, an outlet of the bottle guide plate (407) is connected with a filling machine (602), a sealing machine (601) is connected at the outlet of the filling machine (602), a rubber bottle conveying belt (206) is arranged at the outlet of the sealing machine (601), a workbench (203) is arranged at the output end of the rubber bottle conveying belt (206), a rubber bottle guide unit is arranged on the workbench (203), and a bottle cap discharging unit is arranged above the rubber bottle guide unit in the output direction of the rubber bottle conveying belt (206); a cap screwing unit is arranged above the rubber bottle guiding unit in the output direction of the cap discharging unit, an inclined bottle discharging guide groove (207) is arranged on a workbench (203) in the output direction of the cap screwing unit, a rubber forming conveying belt (508) is arranged below the bottle discharging guide groove (207), and a rubber bottle stacking unit is arranged at the output end of the rubber forming conveying belt (508); a box supporting frame (516) is arranged on the ground in the output direction of the glue bottle stacking unit, and a box packing unit is arranged on the box supporting frame (516);

The glue bottle stacking unit comprises a glue forming pushing cylinder (511) and a box feeding guide rail (514), wherein the glue forming pushing cylinder (511) is arranged on one side of the output end of the glue forming conveying belt (508), a power frame (501) is arranged on the other side of the output end of the glue forming conveying belt (508), a bottle supporting component is arranged on the power frame (501), a glue bottle pushing plate (512) is arranged on a piston rod of the glue forming pushing cylinder (511), the glue bottle pushing plate (512) is opposite to the direction of a bottle pushing groove (507), and a glue forming baffle (513) is vertically fixed at the end part of the output end of the glue forming conveying belt (508); the bottle supporting assembly comprises two rotating wheel plates (502), the centers of the two rotating wheel plates (502) are connected through a synchronizing shaft, and the end parts of the synchronizing shafts are sleeved in bearing seats on the power frame (501); the bottle supporting components with the number more than 4 groups are arranged on the opposite sides of the two rotating wheel plates (502), and are uniformly distributed between the two rotating wheel plates (502) in a ring shape by taking the synchronous shaft as the center; the bottle supporting device comprises a rotary wheel plate (502), a glue conveying belt (508) and a bottle supporting assembly, wherein the rotary wheel plate (502) is provided with a penetrating bottle pushing groove (507), the glue conveying belt (508) is positioned at the outer side of the bottle pushing groove (507), the bottle supporting assembly comprises two bottle supporting hinge rods (509) and bottle supporting plates (510), the bottle supporting hinge rods (509) are n-shaped, the n-shaped tops of the bottle supporting hinge rods are hinged with the corresponding rotary wheel plate (502) through hinge rod pins, the two side walls of the bottle supporting hinge rods (509) naturally hang, the hanging ends of the two bottle supporting hinge rods are bent relatively to form a bottle supporting hinge block, the width of the bottle supporting sliding plate (504) is smaller than the distance between the two bottle supporting hinge blocks, the top of the bottle supporting hinge block is movably hinged with a bottle supporting plate (510), two sides of one end of each bottle supporting plate (510) are hinged with the top of the bottle supporting hinge block, the other end of each bottle supporting plate (510) is suspended, and a bottle supporting area is formed between the hanging ends of the two bottle supporting plates (510); two bottle supporting rails (503) are fixed on a power frame (501) in the output direction of the rotating wheel plates (502), one end of each bottle supporting rail (503) extends between the lower parts of the two rotating wheel plates (502), bottle supporting sliding plates (504) are movably mounted on each bottle supporting rail (503), a push plate cylinder (505) is mounted at one end of each bottle supporting rail (503), a piston rod of each push plate cylinder (505) is connected with the bottom of each bottle supporting sliding plate (504), and limiting partition plates (506) with the number larger than 2 are vertically inserted at the top of each bottle supporting sliding plate (504), and a glue bottle stacking area is reserved between every two adjacent limiting partition plates (506);

The box loading unit comprises a box conveying guide rail (514) arranged above a box supporting frame (516), a box conveying sliding seat (515) is movably arranged on the box conveying guide rail (514), the box conveying sliding seat (515) is driven to operate by a corresponding box conveying motor, a box conveying air cylinder (517) which is vertically downwards arranged on the box conveying sliding seat (515), a box sucking plate is arranged at the bottom of the box conveying air cylinder (517), a box sucking air nozzle (518) is arranged at the bottom of the box sucking plate, a box supporting roller (519) is arranged at the top of the box supporting frame (516), the box supporting roller (519) is driven to operate by a corresponding carrier roller motor, a box bottom air nozzle (520) is arranged at the clearance of the box supporting roller (519) which is opposite to the input end of the box supporting frame (516), a bottle pushing fixed plate (521) is vertically arranged at the other end of the bottle supporting rail (503) of the box supporting frame (516), a bottle pushing synchronous plate is horizontally arranged on the bottle pushing fixed plate (521), a plurality of bottle pushing support rods (523) are connected to the bottle pushing synchronous plate, and the box pushing support rods (524) are opposite to the box supporting plate (516); the output end of the box supporting frame (516) is obliquely provided with a box turning guide plate, and the bottom of the lower end of the box turning guide plate is provided with a box sealing frame;

The glue bottle sorting assembly comprises a glue bottle arranging conveyor belt (404) and a glue bottle arranging baffle plate (405), wherein one end of a glue bottle lifting belt (402) is positioned in a glue bottle box (401), the other end of the glue bottle lifting belt (402) obliquely upwards extends out of the glue bottle box (401) to form an output end, and the glue bottle lifting guide plates (419) are uniformly distributed on a bearing surface of the glue bottle lifting belt (402); the bottle discharging device comprises a bottle discharging air nozzle (403) arranged on one side of an output end of a bottle lifting belt (402), a bottle discharging conveying belt (404) arranged on the other side of the output end of the bottle lifting belt (402), bottle discharging baffles (405) arranged on the outer side of an input end of the bottle discharging conveying belt (404), a plurality of vertical partition plates (408) arranged on a bearing surface of the bottle discharging conveying belt (404), a bottle separating area formed between the adjacent vertical partition plates (408), a bottle discharging air nozzle (406) arranged on one side of the output end of the bottle discharging conveying belt (404), a bottle guiding plate (407) arranged on the other side of the bottle discharging conveying belt (404) opposite to the bottle discharging air nozzle (406), and a bottle returning unit arranged below the bottle discharging conveying belt (404).

2. The automated based joint compound preparation system according to claim 1, wherein: the bottle cap discharging unit comprises a vibrating tray (101), a discharging plate (102) which is in a spiral shape and ascends is arranged in the vibrating tray (101), a discharging inner baffle (103) is arranged on the inner side of the discharging plate (102), a gravity groove (105) formed by concave downward is arranged at the output end of the discharging plate (102), a return groove (108) is arranged on the discharging inner baffle (103) at the position of the gravity groove (105), two limit guide rods (104) are arranged above the output end of the gravity groove (105), two cover supporting guide rods (106) are connected to the discharging plate (102) at the position of the outlet of the gravity groove (105), an anti-stacking guide rod (107) is arranged above the gravity groove (105), and one end of the anti-stacking guide rod (107) is connected with the inner cavity wall of the vibrating tray (101) on the outer side of the discharging plate (102); the other end of the anti-overlapping guide rod (107) extends to the upper part of the returning groove (108), the cover supporting guide rod (106) and the limiting guide rod (104) are parallel to form a bottle cover conveying channel, and a cover outlet cylinder (109) is arranged at the outlet of the bottle cover conveying channel; one end top of the cover outlet barrel (109) is connected with the output end of the cover supporting guide rod (106), the end part of the output end of the limiting guide rod (104) is connected to the bottom of the cover outlet barrel (109) below the cover supporting guide rod (106), a cover tip guide groove (110) is formed in the top of the cover outlet barrel (109), the top of the cover outlet barrel (109) at the output end of the cover tip guide groove (110) extends outwards to form a baffle hinge, a limiting plate (112) is movably hinged to the bottom of the baffle hinge, and the two limiting plates (112) are respectively positioned at two sides of the cover tip guide groove (110); the top of the limiting plate (112) is movably hinged to the top of the inner cavity wall of the cover outlet barrel (109) through a limiting pin shaft, a V-shaped clamp spring (113) is sleeved on the limiting pin shaft, one fork arm of the V-shaped clamp spring (113) is abutted against the top of the inner cavity wall of the cover outlet barrel (109), the other fork arm of the V-shaped clamp spring (113) is abutted against the surface of the limiting plate (112), and the bottom of the installed limiting plate (112) is inclined downwards to form a gear.

3. The automated based joint compound preparation system according to claim 1, wherein: the cap screwing unit comprises a cap screwing lifting cylinder (208) arranged above a rubber bottle conveying belt (206), a cap screwing seat (209) is arranged at the bottom of the cap screwing lifting cylinder (208), a cap screwing motor (210) is arranged in the cap screwing seat (209), a transmission shaft of the cap screwing motor (210) is downwards connected with a cap screwing head (211), a bottle guide pressing plate (212) is arranged below the cap screwing head (211), a vertical and upward limit guide post (213) is arranged at the top of the bottle guide pressing plate (212), the top of the limit guide post (213) upwards penetrates through the cap screwing seat (209) to be meshed with a guide post limit nut, a guide post spring (214) is sleeved on the limit guide post (213), the bottom of the guide post spring (214) is in contact with the top of the bottle guide pressing plate (212), and the top of the guide post spring (214) is in contact with the bottom of the cap screwing seat (209); bottle locating grooves penetrating up and down are formed in bottle guide pressing plates (212) right below the cap screwing heads (211), and centering rings (219) with small upper parts and large lower parts are arranged at the bottoms of the cap screwing heads (211) on the outer sides of the bottle locating grooves.

4. The automated based joint compound preparation system according to claim 1, wherein: the rubber bottle guiding unit comprises a bottle guiding rotary table (202), the bottle guiding rotary table (202) is arranged on a workbench (203), a rotary table motor is arranged in the workbench (203), a transmission shaft of the rotary table motor is upwards connected with the bottom of the bottle guiding rotary table (202), bottle guiding grooves (204) with the number being greater than 4 are uniformly distributed at the edges of the bottle guiding rotary table (202), annular limiting rings (205) are arranged on the workbench (203) at the outer side of the bottle guiding rotary table (202), bottle inlet openings are formed in one side of the limiting rings (205), and the limiting rings (205) at the bottle inlet openings are connected with rubber bottle baffle plates at two sides of a rubber bottle conveying belt (206).