CN112140227A

CN112140227A - Automatic floating production line

Info

Publication number: CN112140227A
Application number: CN202010963701.0A
Authority: CN
Inventors: 曾本锋
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-09-14
Filing date: 2020-09-14
Publication date: 2020-12-29

Abstract

The invention discloses an automatic float production line, which relates to the field of fishing gear production equipment and comprises a feeding mechanism, a positioning mechanism, a drilling mechanism and a painting mechanism, wherein the output end of the feeding mechanism is butted with the positioning mechanism, a conveying table connected with the positioning mechanism is arranged beside the positioning mechanism, a guide table is arranged between the conveying table and the positioning mechanism, and the drilling mechanism and the painting mechanism are respectively positioned at two sides of the conveying table; the waste material propelling movement to the guide platform that can also produce in the drilling accomplishes the concentrated collection of waste material and handles, has improved the practicality of equipment.

Description

Automatic floating production line

Technical Field

The invention relates to the field of fishing gear production equipment, in particular to an automatic floating production line.

Background

The float is one of the important fishing gear for fishing, and the types of the float are various at present, but the following four main types are summarized. Firstly, vertical floating: the shape of the buoy is the largest, such as a capsicum shape, a spindle shape, a rod shape, an umbrella shape, a gyroscope shape and the like. It has sensitive reaction and is preferred by a plurality of fishers; II, horizontal floating: is elliptical, is not afraid of wind and waves, and lies on water surface when in use. When the fish swallows the bait, the fish can be inclined or upright, and is mostly used in the occasions with great wave height; ③ spherical float: the float has large buoyancy, is circular and date-shaped, is commonly used for float fishing of fishes in middle and upper water areas, and is used for sea fishing; wire floating: also called multi-float, Qixing float, Wu Gong float, etc. Is made of wing feathers of poultry, and can also be made by connecting round, oval and plastic balls in series. The sensitivity of the floating type floating buoy is higher than that of a vertical type floating buoy, and the trouble of adjusting the floating buoy can be reduced by using a line for floating deeply when the underwater situation is more complex.

Most of current fishing usefulness all are vertical cursory, and vertical cursory in process of production, all carry out the material loading by the manual work usually, with its location back, wear fibre equipment and some lacquer equipment and accomplish drilling in proper order, wear fibre and some lacquer processes to influence production efficiency, artifical intensity of labour is big, and the automation level is lower, can not satisfy the production demand of modernized enterprise.

Disclosure of Invention

The invention aims to provide an automatic float production line, which aims to solve the technical problems that in the prior art, the production efficiency of a vertical float is low, the labor intensity of workers is high, the automation level is low, and the production requirements of modern enterprises cannot be met.

The invention provides an automatic float production line which comprises a feeding mechanism, a positioning mechanism, a drilling mechanism and a painting mechanism, wherein the output end of the feeding mechanism is butted with the positioning mechanism, a conveying table connected with the positioning mechanism is arranged beside the positioning mechanism, a guide table is arranged between the conveying table and the positioning mechanism, and the drilling mechanism and the painting mechanism are respectively positioned on two sides of the conveying table.

Further, feed mechanism includes a base station, a feed section of thick bamboo, linkage subassembly and defeated material subassembly, a feed section of thick bamboo is waist type hollow structure and vertical top of installing at the base station, the linkage unit mount is on the lateral wall of a feed section of thick bamboo and is connected with the transmission of defeated material subassembly, be equipped with the blanking way that docks with defeated material subassembly in the base station, install the swash plate that two symmetries set up in the feed section of thick bamboo, defeated material unit mount is in the interior bottom department of a feed section of thick bamboo to defeated material subassembly is located between two swash plates, forms the material hole that supplies the material to pass between two swash plates.

Further, defeated material subassembly is including stirring motor, axis of rotation and material bearing roller, stir the motor and be horizontal installation on the lateral wall of feed barrel to stir the output of motor and the one end fixed connection of axis of rotation, the axis of rotation is all installed in feed barrel with material bearing roller, and axis of rotation and material bearing roller all are located between two swash plates, material bearing roller is last to be equipped with a plurality of axis evenly distributed's of following the axis of rotation that connect the silo.

Further, the linkage subassembly includes first linking arm, second linking arm, driven shaft, universal driving shaft, switch board, hold-in range and two synchronizing wheels, and the driven shaft rotates to be installed on the outer wall of feed cylinder, and two synchronizing wheels are fixed respectively in one of driven shaft and axis of rotation and are served, and the hold-in range cover is established on the outside of two synchronizing wheels, the both ends of first linking arm respectively with the one end fixed connection of driven shaft and second linking arm, the other end of second linking arm and the one end fixed connection of universal driving shaft, the universal driving shaft rotates and installs in the feed cylinder to the universal driving shaft is located the top of two swash plates, the switch board is fixed on the universal driving shaft.

Further, positioning mechanism is including extending platform, baffle, mounting bracket, briquetting, push down the cylinder, pushing away material cylinder and push away the dish, extend the platform and set up in one side of base station, extend the bench and be equipped with the ration silo of saying the butt joint with the blanking, the baffle is vertical the installation at the top of extending the platform, and the mounting bracket is fixed at the top of base station, and push down the cylinder and fix at the top of mounting bracket, and push down the output and the briquetting fixed connection of cylinder, the briquetting is located the ration silo directly over, pushes away the material cylinder and is the level and fix on the lateral wall of mounting bracket to the output and the push away dish fixed connection that push away the material cylinder, the push away dish is vertical one end department that is located the ration silo.

Further, drilling mechanism carries the platform and wears the fibre subassembly including rotating platform, lifting unit, first lead screw slip table, brill motor, drill bit, fibre feed, lifting unit installs at the top of rotating the platform, and first lead screw slip table is horizontal installation in lifting unit's one end, and brill motor fixes on the removal end of first lead screw slip table, and the drill bit is fixed on the output of brill motor, wear fibre unit mount on lifting unit's top, the setting of platform is carried at the side of rotating the platform to the fibre feed is carried the bench and is equipped with the tool of laying that a plurality of equidistant confession fibre was placed.

Further, the lifting assembly comprises a first connecting support, a telescopic rod, a shaft sleeve, a transmission motor, a supporting plate and a transmission gear, wherein the shaft sleeve is vertically fixed on the rotating table, the telescopic rod is slidably mounted in the shaft sleeve, the supporting plate is fixed at the top of the rotating table, the transmission motor is mounted on the side wall of the supporting plate, the output end of the transmission motor is fixedly connected with the transmission gear, two ends of the first connecting support are respectively fixedly connected with the top end of the telescopic rod and the top of the first lead screw sliding table, and the transmission gear is in transmission connection with the telescopic rod.

Further, wear fibre subassembly and include second linking bridge, second lead screw slip table and gas clamp, the both ends of second linking bridge respectively with the top of telescopic link and the top fixed connection of second lead screw slip table, the gas clamp is horizontal installation and serves at the removal of second lead screw slip table.

Further, some lacquer mechanisms include the workstation, the paint tray, mix the motor, stir the leaf, the mounting panel, telescopic cylinder, the bearing board, rotate the motor, rotor plate and two some lacquer heads, the workstation sets up in the one side of carrying the material platform, paint tray and mounting panel are all fixed at the top of workstation, mix the motor and install the bottom at the workstation, and mix the output of motor run through the bottom of paint tray and with stir leaf fixed connection, telescopic cylinder is vertical the lateral wall of fixing at the mounting panel, and telescopic cylinder's output and bearing board fixed connection, rotate the motor and install on the bearing board, and rotate the output of motor and the middle-end fixed connection of rotor plate, two some lacquer heads are fixed respectively at the both ends of rotor plate.

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

firstly, a rotating shaft fixedly connected with the output end of the rotating shaft is driven to rotate by a shifting motor, a material bearing roller is driven to rotate synchronously, and then a plurality of material receiving grooves on the material bearing roller rotate synchronously, so that floats in a material feeding cylinder sequentially enter the material receiving grooves in a one-to-one correspondence manner, the floats in the material receiving grooves roll to fixed material grooves on an extension table through a material blanking channel arranged in a base table, wherein, a baffle plate limits the floats in the rolling process and prevents the floats from rolling out of the fixed material grooves, thereby realizing the whole automatic feeding step, secondly, a pressing block fixedly connected with the output end of the pressing cylinder is driven to move downwards by a pressing cylinder to position the floats in the fixed material grooves, then, the rotating table drives a lifting assembly, a first lead screw sliding table, a drilling motor and a drill bit to rotate to be right above the material conveying table, the lifting assembly drives the first lead screw, the drilling motor and the drill bit to move downwards, the first lead screw and the drilling motor work synchronously, the drilling motor drives the drill bit to rotate, the first screw rod sliding table drives the drill bit to move towards the float, the automatic drilling step of the float is completed, meanwhile, the second screw rod sliding table drives the air clamp to move towards the front end of the fiber feeding conveying table, the air clamp clamps fibers in a placing jig on the fiber feeding conveying table, the rotating table drives the second connecting support at the top end of the telescopic rod, the second screw rod sliding table and the air clamp to rotate to the conveying table, the fibers on the air clamp float towards each other, the pushing cylinder drives the push disc fixedly connected with the output end of the pushing cylinder to move, the float in the fixing groove is driven to move towards the conveying table, the fibers penetrate through drilled holes on the float, the automatic fiber penetrating and transferring step of the float is completed, finally, the rotating plate fixedly connected with the output end of the rotating motor is driven to rotate through the rotating motor, and the telescopic cylinder drives the point paint head to move in the vertical direction, the automatic floating paint dispensing device has the advantages that the intermittent rotating work of the paint dispensing heads at the two ends of the rotating plate is realized, and the automatic floating paint dispensing step is completed;

a rotating shaft fixedly connected with the output end of the rotating shaft is driven to rotate through a shifting motor, one synchronous wheel on one end of the rotating shaft is driven to synchronously rotate, and a driven shaft fixedly connected with the other synchronous wheel is driven to synchronously rotate under the action of a synchronous belt, so that a first connecting arm and a second connecting arm drive a linkage shaft to rotate, a shifting plate on the linkage shaft is rotated, the phenomenon that a material hole is blocked due to excessive floating amount in a feeding cylinder is prevented, the feeding step of floating is influenced, and the production efficiency is further improved;

thirdly, through pushing away the material cylinder drive rather than output end fixed connection's the dish that pushes away and remove, not only can accomplish the automatic transportation step of cursory, can also accomplish the concentrated collection processing of waste material to the waste material propelling movement that produces to the guide platform in the drilling, improved the practicality of equipment.

Fourthly, the automatic feeding, positioning, drilling, fiber penetrating, paint dispensing and discharging integrated process of the buoy can be realized, the automation degree is high, the manual labor force is reduced, the production efficiency is improved, the blockage of the material hole due to the excessive buoy amount in the feeding cylinder can be prevented, the feeding step of the buoy is influenced, and the production efficiency is further improved.

Drawings

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

FIG. 1 is a schematic view of a first angular perspective structure of the present invention;

FIG. 2 is a schematic view of a second angular perspective structure according to the present invention;

FIG. 3 is a top view of the present invention;

FIG. 4 is a partial perspective view of the first embodiment of the present invention;

FIG. 5 is a partial perspective view of the second embodiment of the present invention;

FIG. 6 is a third schematic view of a partial perspective structure of the present invention;

FIG. 7 is a cross-sectional view of FIG. 6;

FIG. 8 is a schematic perspective view of the drilling mechanism of the present invention;

FIG. 9 is a side view of the spotting mechanism of the present invention;

FIG. 10 is a perspective view of the float;

reference numerals:

the feeding mechanism 1, the base 11, the feeding cylinder 12, the linkage assembly 13, the first connecting arm 131, the second connecting arm 132, the driven shaft 133, the linkage shaft 134, the material-shifting plate 135, the synchronous belt 136, the synchronous wheel 137, the material-conveying assembly 14, the toggle motor 141, the rotating shaft 142, the material-receiving roller 143, the material-receiving groove 144, the blanking channel 15, the inclined plate 16, the positioning mechanism 2, the extension table 21, the baffle 22, the mounting frame 23, the pressing block 24, the downward-pressing cylinder 25, the material-pushing cylinder 26, the pushing disc 27, the material-fixing groove 28, the drilling mechanism 3, the rotating table 31, the lifting assembly 32, the first connecting support 321, the telescopic rod 322, the shaft sleeve 323, the transmission motor 324, the support plate 325, the transmission gear 326, the first screw rod sliding table 33, the drilling motor 34, the drill bit 35, the fiber material-feeding conveying table 36, the fiber-penetrating assembly 37, the second connecting support 371, the second screw rod sliding table 372, the, the automatic painting device comprises a working table 41, a paint tray 42, a stirring motor 43, stirring blades 44, a mounting plate 45, a telescopic cylinder 46, a bearing plate 47, a rotating motor 48, a rotating plate 49, a painting head 50, a conveying table 5, a material guiding table 6 and a buoy 7.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are some, but not all embodiments of the present invention.

The components of embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention.

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.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1 to 9, an embodiment of the invention provides an automatic float production line, which includes a feeding mechanism 1, a positioning mechanism 2, a drilling mechanism 3 and a painting mechanism 4, wherein an output end of the feeding mechanism 1 is butted with the positioning mechanism 2, a conveying table 5 connected with the positioning mechanism 2 is arranged beside the positioning mechanism 2, a guide table 6 is arranged between the conveying table 5 and the positioning mechanism 2, and the drilling mechanism 3 and the painting mechanism 4 are respectively located on two sides of the conveying table 5.

Specifically, the feeding mechanism 1 includes a base 11, a feeding cylinder 12, a linkage assembly 13 and a material conveying assembly 14, the feeding cylinder 12 is of a waist-shaped hollow structure and is vertically installed at the top of the base 11, the linkage assembly 13 is installed on the outer side wall of the feeding cylinder 12 and is in transmission connection with the material conveying assembly 14, a blanking channel 15 in butt connection with the material conveying assembly 14 is arranged in the base 11, two symmetrically arranged inclined plates 16 are installed in the feeding cylinder 12, the material conveying assembly 14 is installed at the inner bottom of the feeding cylinder 12, the material conveying assembly 14 is located between the two inclined plates 16, a material hole for materials to pass through is formed between the two inclined plates 16, the materials fall onto the material conveying assembly 14 from the material hole through a float, the float is driven by the material conveying assembly 14 to rotate so as to roll down from the blanking channel 15 onto the positioning mechanism 2, an automatic floating feeding step is completed, wherein the material conveying assembly 14 drives the linkage assembly 13 to rotate, can be located the cursory of feed cylinder 12 and stir, prevent that the cursory volume in the feed cylinder 12 is too much, cause the jam in material hole, influence cursory material loading step, improved production efficiency.

Specifically, the feeding assembly 14 includes a toggle motor 141, a rotating shaft 142 and a material receiving roller 143, the toggle motor 141 is horizontally installed on the outer sidewall of the feeding cylinder 12, the output end of the toggle motor 141 is fixedly connected with one end of the rotating shaft 142, the rotating shaft 142 and the material receiving roller 143 are both installed in the feeding cylinder 12, the rotating shaft 142 and the material receiving roller 143 are both located between the two inclined plates 16, the material receiving roller 143 is provided with a plurality of material receiving slots 144 uniformly distributed along the axis of the rotating shaft 142, the rotating shaft 142 fixedly connected with the output end thereof is driven to rotate by the toggle motor 141 to drive the material receiving roller 143 to rotate synchronously, thereby synchronously rotating the material receiving slots 144 on the material receiving roller, so that the floats in the feeding cylinder 12 sequentially enter the material receiving slots 144 in one-to-one correspondence, and the floats in the material receiving slots 144 roll onto the positioning mechanism 2 from the material falling channels 15 through the material falling channel 15 provided in the base station 11, and finishing the feeding step.

Specifically, the linkage assembly 13 includes a first connecting arm 131, a second connecting arm 132, a driven shaft 133, a linkage shaft 134, a material shifting plate 135, a synchronous belt 136 and two synchronous wheels 137, the driven shaft 133 is rotatably installed on the outer wall of the feeding cylinder 12, the two synchronous wheels 137 are respectively fixed on one end of the driven shaft 133 and one end of a rotating shaft 142, the synchronous belt 136 is sleeved on the outer portions of the two synchronous wheels 137, two ends of the first connecting arm 131 are respectively fixedly connected with one end of the driven shaft 133 and one end of the second connecting arm 132, the other end of the second connecting arm 132 is fixedly connected with one end of the linkage shaft 134, the linkage shaft 134 is rotatably installed in the feeding cylinder 12, the linkage shaft 134 is located above the two inclined plates 16, the material shifting plate 135 is fixed on the linkage shaft 134, the rotating shaft 142 fixedly connected with the output end thereof is driven to rotate by a shifting motor 141 to drive one synchronous wheel 137 on, under the action of the synchronous belt 136, the driven shaft 133 fixedly connected with the other synchronous wheel 137 is driven to synchronously rotate, so that the first connecting arm 131 and the second connecting arm 132 drive the linkage shaft 134 to rotate, the material shifting plate 135 on the linkage shaft 134 rotates, and the phenomenon that the material hole is blocked due to the fact that the floating amount in the material feeding cylinder 12 is too much is prevented, and the floating feeding step is influenced.

Specifically, the positioning mechanism 2 includes an extension table 21, a baffle 22, a mounting frame 23, a pressing block 24, a pressing cylinder 25, a pushing cylinder 26 and a pushing disc 27, the extension table 21 is disposed on one side of the base table 11, a fixing groove 28 butted with the blanking channel 15 is disposed on the extension table 21, the baffle 22 is vertically disposed on the top of the extension table 21, the mounting frame 23 is fixed on the top of the base table 11, the pressing cylinder 25 is fixed on the top of the mounting frame 23, the output end of the pressing cylinder 25 is fixedly connected with the pressing block 24, the pressing block 24 is disposed right above the fixing groove 28, the pushing cylinder 26 is horizontally fixed on the side wall of the mounting frame 23, the output end of the pushing cylinder 26 is fixedly connected with the pushing disc 27, the pushing disc 27 is vertically disposed at one end of the fixing groove 28, after the float is disposed in the fixing groove 28 to complete feeding, the pressing block 24 fixedly connected with the output end of the pushing cylinder 25 is driven to move down, the cursory location of cursory in the constant head tank, afterwards, drilling mechanism 3 drive accomplishes cursory automatic drilling back, through pushing away the material cylinder 26 drive rather than output fixed connection's push away the dish 27 removal, not only can accomplish cursory automatic transportation step, can also accomplish the concentrated collection processing of waste material to the waste material propelling movement that produces in the drilling to guide platform 6, has improved the practicality of equipment.

Specifically, drilling mechanism 3 carries platform 36 and wears fibre subassembly 37 including rotating platform 31, lifting unit 32, first lead screw slip table 33, drilling motor 34, drill bit 35, fibre feed, lifting unit 32 installs at the top of rotating platform 31, and first lead screw slip table 33 is the one end of horizontal installation at lifting unit 32, and drilling motor 34 fixes on the removal end of first lead screw slip table 33, and drill bit 35 fixes on the output of drilling motor 34, wear fibre subassembly 37 and install the top at lifting unit 32, and fibre feed carries platform 36 to set up the side at rotating platform 31 to be equipped with a plurality of equidistant tools that supply the fibre to place on fibre feed carries platform 36 and lay 38, rotate to the material platform 5 directly over through rotating platform 31 drive lifting unit 32, first lead screw slip table 33, drilling motor 34 and drill bit 35, and lifting unit 32 drives first lead screw slip table 33, The drilling motor 34 and the drill bit 35 move downwards, the first screw rod sliding table 33 and the drilling motor 34 work synchronously, the drilling motor 34 drives the drill bit 35 to rotate, the first screw rod sliding table 33 drives the drill bit 35 to move towards the buoy, and the automatic drilling step of the buoy is completed; meanwhile, the fiber penetrating component 37 clamps fibers on the placing jig 38, the rotating table 31 drives the fiber penetrating component 37 to rotate to the conveying table 5, the pushing cylinder 26 drives the pushing disc 27 to drive the drilled float to move, and the automatic fiber penetrating step is completed.

Specifically, the lifting assembly 32 includes a first connecting support 321, an expansion link 322, a shaft sleeve 323, a transmission motor 324, a support plate 325 and a transmission gear 326, the shaft sleeve 323 is vertically fixed on the rotating table 31, the expansion link 322 is slidably mounted in the shaft sleeve 323, the support plate 325 is fixed at the top of the rotating table 31, the transmission motor 324 is mounted on the side wall of the support plate 325, the output end of the transmission motor 324 is fixedly connected with the transmission gear 326, two ends of the first connecting support 321 are respectively fixedly connected with the top end of the expansion link 322 and the top of the first lead screw sliding table 33, the transmission gear 326 is in transmission connection with the expansion link 322, the transmission gear 326 is driven by the transmission motor 324 to rotate with the transmission gear 326 fixedly connected with the output end thereof, the expansion link 322 in transmission connection with the transmission gear 326 is driven to move in the vertical direction, and thus the first sliding table lead screw 33 fixedly connected with the first connecting support 321, the drilling motor 34 and the Moving in the vertical direction, and facilitating the completion of the floating drilling.

Specifically, the fiber passing assembly 37 includes a second connecting support 371, a second screw rod sliding table 372 and an air clamp 373, two ends of the second connecting support 371 are respectively fixedly connected with the top end of the telescopic rod 322 and the top of the second screw rod sliding table 372, the air clamp 373 is horizontally installed on the moving end of the second screw rod sliding table 372, the air clamp 373 is driven by the second screw rod sliding table 372 to move towards the front end of the fiber feeding conveying table 36, the air clamp 373 clamps the fibers in the placing jig 38 on the fiber feeding conveying table 36, the rotating table 31 drives the second connecting support 371 at the top end of the telescopic rod 322, the second screw rod sliding table 372 and the air clamp 373 to rotate to the conveying table 5, so that the fibers on the air clamp 373 float towards each other, the pushing cylinder 26 drives the pushing disc 27 fixedly connected with the output end of the pushing cylinder to move, and drives the float in the fixing trough 28 to move towards the conveying table 5, thereby the fibers pass through the drilled holes on the float, and finishing the automatic fiber penetrating and transferring steps of the buoy.

Specifically, the painting mechanism 4 includes a workbench 41, a paint tray 42, a stirring motor 43, a stirring blade 44, an installation plate 45, a telescopic cylinder 46, a supporting plate 47, a rotating motor 48, a rotating plate 49 and two painting heads 50, the workbench 41 is disposed at one side of the conveying table 5, the paint tray 42 and the installation plate 45 are both fixed at the top of the workbench 41, the stirring motor 43 is installed at the bottom of the workbench 41, an output end of the stirring motor 43 penetrates through the bottom of the paint tray 42 and is fixedly connected with the stirring blade 44, the telescopic cylinder 46 is vertically fixed at a side wall of the installation plate 45, an output end of the telescopic cylinder 46 is fixedly connected with the supporting plate 47, the rotating motor 48 is installed on the supporting plate 47, an output end of the rotating motor 48 is fixedly connected with a middle end of the rotating plate 49, the two painting heads 50 are respectively fixed at two ends of the rotating plate 49, the rotating plate 49 fixedly connected with an output end of the rotating motor 48 is driven by the rotating motor 48, and the telescopic And the paint spraying device moves in the vertical direction, so that the intermittent rotating work of the paint spraying heads 50 at the two ends of the rotating plate 49 is realized, and the floating automatic paint spraying step is completed, wherein the stirring blades 44 fixedly connected with the output end of the stirring motor 43 are driven to rotate to stir the paint in the paint plate 42, so that the paint is prevented from being solidified, the feeding of the paint is prevented from being influenced, and the condition that the floating paint spraying fails is avoided.

The working principle of the invention is as follows: the rotating shaft 142 fixedly connected with the output end of the rotating shaft is driven to rotate by a shifting motor 141 to drive a material bearing roller 143 to synchronously rotate, so that a plurality of material receiving grooves 144 on the material bearing roller synchronously rotate, floats in the feeding cylinder 12 sequentially enter the material receiving grooves 144 in a one-to-one correspondence manner, the floats in the material receiving grooves 144 roll to a fixed groove 28 on an extension table 21 through a material blanking channel 15 arranged in a base table 11, wherein a baffle plate 22 limits the floats in the rolling process to prevent the floats from rolling out of the fixed groove 28, so that the whole automatic feeding step is realized, secondly, a pressing block 24 fixedly connected with the output end of the pressing block is driven to move downwards by a pressing cylinder 25 to position the floats in the fixed groove, then, the rotating table 31 drives a lifting assembly 32, a first sliding table 33, a drilling motor 34 and a drill bit 35 to rotate to be right above a material conveying table 5, and the lifting assembly 32 drives a first screw rod 33, a second sliding table 33 and a, The drilling motor 34 and the drill bit 35 move downwards, the first screw rod sliding table 33 and the drilling motor 34 work synchronously, the drilling motor 34 drives the drill bit 35 to rotate, the first screw rod sliding table 33 drives the drill bit 35 to move towards the float, the float automatic drilling step is completed, meanwhile, the second screw rod sliding table 372 drives the air clamp 373 to move towards the front end of the fiber feeding conveying table 36, the air clamp 373 clamps the fibers in the placing jig 38 on the fiber feeding conveying table 36, the rotating table 31 drives the second connecting support 371 at the top end of the telescopic rod 322, the second screw rod sliding table 372 and the air clamp 373 to rotate to the conveying table 5, so that the fibers on the air clamp 373 float towards the float, the pushing cylinder 26 drives the pushing disc 27 fixedly connected with the output end of the pushing cylinder to move, the float in the fixed material groove 28 is driven to move towards the conveying table 5, and the fibers pass through drilled holes on the float, and the float automatic fiber passing and transferring step is completed, then, the rotating plate 49 fixedly connected with the output end of the rotating motor 48 is driven to rotate by the rotating motor 48, and the telescopic air cylinder 46 drives the paint dispensing heads 50 to move in the vertical direction, so that the intermittent rotating work of the paint dispensing heads 50 at the two ends of the rotating plate 49 is realized, and the automatic paint dispensing step of floating is completed; and finally, after finishing painting on the buoy, the conveying platform 5 works to convey and transfer the buoy so as to realize automatic blanking.

The rotating shaft 142 fixedly connected with the output end of the rotating shaft 142 is driven to rotate by the toggle motor 141, one synchronizing wheel 137 at one end of the rotating shaft 142 is driven to synchronously rotate, and the driven shaft 133 fixedly connected with the other synchronizing wheel 137 is driven to synchronously rotate under the action of the synchronous belt 136, so that the first connecting arm 131 and the second connecting arm 132 drive the linkage shaft 134 to rotate, the shifting plate 135 on the linkage shaft 134 rotates, the phenomenon that the floating amount in the feeding cylinder 12 is too much, the blockage of a material hole is caused, the feeding step of floating is influenced is prevented, and the production efficiency is further improved; through pushing away the material cylinder 26 drive rather than output fixed connection's push away the dish 27 and remove, not only can accomplish the automatic transportation step of cursory, can also accomplish the concentrated collection processing of waste material to the waste material propelling movement that produces in the drilling to guide platform 6, improved the practicality of equipment.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims

1. The utility model provides a cursory automatic production line which characterized in that: including feed mechanism (1), positioning mechanism (2), drilling mechanism (3) and spot lacquer mechanism (4), the output and the positioning mechanism (2) of feed mechanism (1) dock mutually, the side of positioning mechanism (2) is equipped with rather than transport material platform (5) that links up mutually, be equipped with between transport material platform (5) and positioning mechanism (2) guide material platform (6), drilling mechanism (3) and spot lacquer mechanism (4) are located the both sides of carrying material platform (5) respectively.

2. The automatic production line of floats of claim 1, characterized in that: feed mechanism (1) includes base station (11), a feed cylinder (12), linkage subassembly (13) and defeated material subassembly (14), a feed cylinder (12) are waist type hollow structure and vertical top of installing at base station (11), linkage subassembly (13) are installed on the lateral wall of a feed cylinder (12) and are connected with defeated material subassembly (14) transmission, be equipped with in base station (11) and fail material way (15) that connect mutually with defeated material subassembly (14), install swash plate (16) that two symmetries set up in a feed cylinder (12), defeated material subassembly (14) are installed in the interior bottom department of a feed cylinder (12) to defeated material subassembly (14) are located between two swash plate (16), form the material hole that supplies the material to pass between two swash plate (16).

3. The automatic production line of floats of claim 2, characterized in that: defeated material subassembly (14) are including toggle motor (141), axis of rotation (142) and material bearing roller (143), toggle motor (141) are horizontal installation on the lateral wall of feed cylinder (12) to the output of toggle motor (141) and the one end fixed connection of axis of rotation (142), axis of rotation (142) and material bearing roller (143) are all installed in feed cylinder (12), and axis of rotation (142) and material bearing roller (143) all are located between two swash plates (16), be equipped with a plurality of material receiving groove (144) along the axis evenly distributed of axis of rotation (142) on material bearing roller (143).

4. The automatic production line of floats of claim 3, characterized in that: the linkage assembly (13) comprises a first connecting arm (131), a second connecting arm (132), a driven shaft (133), a linkage shaft (134), a material shifting plate (135), a synchronous belt (136) and two synchronous wheels (137), wherein the driven shaft (133) is rotatably installed on the outer wall of the feeding cylinder (12), the two synchronous wheels (137) are respectively fixed on one ends of the driven shaft (133) and a rotating shaft (142), the synchronous belt (136) is sleeved on the outer parts of the two synchronous wheels (137), two ends of the first connecting arm (131) are respectively fixedly connected with one ends of the driven shaft (133) and the second connecting arm (132), the other end of the second connecting arm (132) is fixedly connected with one end of the linkage shaft (134), and the linkage shaft (134) is rotatably installed in the feeding cylinder (12), and the linkage shaft (134) is positioned above the two inclined plates (16), and the material shifting plate (135) is fixed on the linkage shaft (134).

5. The automatic production line of floats of claim 2, characterized in that: positioning mechanism (2) is including extending platform (21), baffle (22), mounting bracket (23), briquetting (24), air cylinder (25) pushes down, pushes away material cylinder (26) and push away set (27), it sets up in one side of base station (11) to extend platform (21), it decides silo (28) to be equipped with on extending platform (21) and dock with blanking channel (15) mutually, baffle (22) are vertical and install at the top of extending platform (21), mounting bracket (23) are fixed at the top of base station (11), air cylinder (25) are fixed at the top of mounting bracket (23) down, and the output and briquetting (24) fixed connection of air cylinder (25) down, briquetting (24) are located and decide silo (28) directly over, push away material cylinder (26) and are the level and fix on the lateral wall of mounting bracket (23) to the output and push away material cylinder (26) are fixed connection with push away set (27), the push disc (27) is vertically positioned at one end of the material positioning groove (28).

6. The automatic production line of floats of claim 1, characterized in that: drilling mechanism (3) are including rotating platform (31), lifting unit (32), first lead screw slip table (33), bore and move motor (34), drill bit (35), fibre feed and carry platform (36) and wear fibre component (37), install at the top of rotating platform (31) lifting unit (32), first lead screw slip table (33) is horizontal installation in the one end of lifting unit (32), bores and moves motor (34) and fix on the removal end of first lead screw slip table (33), and drill bit (35) are fixed on the output that bores motor (34), wear fibre component (37) and install the top at lifting unit (32), and the side that platform (36) set up at rotation platform (31) is carried to the fibre feed to be equipped with a plurality of equidistant tool (38) of laying that supply the fibre to place on platform (36) are carried to the fibre feed.

7. The automatic production line of floats of claim 6, characterized in that: lifting unit (32) include first linking bridge (321), telescopic link (322), axle sleeve (323), driving motor (324), backup pad (325) and drive gear (326), axle sleeve (323) are vertical to be fixed on rotating platform (31), telescopic link (322) slidable mounting is in axle sleeve (323), the top at rotating platform (31) is fixed in backup pad (325), driving motor (324) are installed on the lateral wall of backup pad (325), and the output and drive gear (326) fixed connection of driving motor (324), the both ends of first linking bridge (321) respectively with the top of telescopic link (322) and the top fixed connection of first lead screw slip table (33), drive gear (326) are connected with telescopic link (322) transmission.

8. The automatic production line of floats of claim 7, characterized in that: wear fibre subassembly (37) and include second linking bridge (371), second lead screw slip table (372) and gas clamp (373), the both ends of second linking bridge (371) respectively with the top of telescopic link (322) and the top fixed connection of second lead screw slip table (372), gas clamp (373) are horizontal installation and serve at the removal of second lead screw slip table (372).

9. The automatic production line of floats of claim 1, characterized in that: the paint dispensing mechanism (4) comprises a workbench (41), a paint tray (42), a stirring motor (43), stirring blades (44), a mounting plate (45), a telescopic cylinder (46), a bearing plate (47), a rotating motor (48), a rotating plate (49) and two paint dispensing heads (50), wherein the workbench (41) is arranged on one side of a conveying platform (5), the paint tray (42) and the mounting plate (45) are both fixed at the top of the workbench (41), the stirring motor (43) is arranged at the bottom of the workbench (41), the output end of the stirring motor (43) penetrates through the bottom of the paint tray (42) and is fixedly connected with a stirring blade (44), the telescopic cylinder (46) is vertically fixed on the side wall of the mounting plate (45), the output end of the telescopic cylinder (46) is fixedly connected with the bearing plate (47), the rotating motor (48) is arranged on the bearing plate (47), the output end of the rotating motor (48) is fixedly connected with the middle end of the rotating plate (49), and the two painting heads (50) are respectively fixed at the two ends of the rotating plate (49).