CN112273342A

CN112273342A - Automatic floating production line

Info

Publication number: CN112273342A
Application number: CN202011127682.4A
Authority: CN
Inventors: 杨紫恩
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-10-21
Filing date: 2020-10-21
Publication date: 2021-01-29

Abstract

The invention discloses an automatic float production line, which relates to the field of fishing gear processing and comprises an automatic float production line, a float feeding mechanism, a processing table, a fiber feeding mechanism, a positioning mechanism, an adjusting and pushing mechanism, a drilling mechanism, a clamping mechanism, a conveying table, a paint dispensing mechanism and a hot air unit, the conveying table is provided with a conveying belt arranged along the length direction of the conveying table, the processing table is provided with an arc-shaped groove butted with the conveying belt, the top of the conveying table is provided with a bearing plate, the invention can realize the integrated steps of automatic feeding, drilling, fiber threading, paint dispensing, drying and blanking in the production process of the float, has higher degree of automation, reduces the manual labor force, improves the production efficiency, and the automatic fiber threading operation of the buoy of different specifications is met, the equipment practicability is further improved, and the production requirement of modern enterprises is met.

Description

Automatic floating production line

Technical Field

The invention relates to the field of fishing gear processing, 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 are the manual work usually and go up unloading, with its location back, accomplish drilling and some lacquer processes in proper order through solitary drilling equipment and some lacquer equipment, still need the manual work to carry out the back order to it and wear the fibre step, its not only production efficiency is lower, and artifical intensity of labour is big, and automatic level is lower, has not satisfied 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 float feeding mechanism, a processing table, a fiber feeding mechanism, a positioning mechanism, an adjusting and pushing mechanism, a drilling mechanism, a clamping mechanism, a conveying table, a paint dispensing mechanism and a hot air unit, wherein the float feeding mechanism and the fiber feeding mechanism are respectively arranged at two sides of the processing table, the conveying table is provided with a conveying belt arranged along the length direction of the conveying table, the processing table is provided with an arc-shaped groove butted with the conveying belt, the output ends of the float feeding mechanism and the fiber feeding mechanism are butted with the arc-shaped groove, the adjusting and pushing mechanism is arranged at the output end of the fiber feeding mechanism, the positioning mechanism is arranged at the top of the processing table, the drilling mechanism, the clamping mechanism, the paint dispensing mechanism and the hot air unit are sequentially arranged along the conveying direction of the conveying belt, the top of the conveying table is provided with a bearing plate, and the drilling mechanism is fixedly connected with the positioning mechanism, the clamping mechanism is arranged at the top of the conveying table, the paint dispensing mechanism and the hot air unit are arranged on the bearing plate, and the paint supplying mechanism is arranged beside the conveying table.

Further, cursory feed mechanism includes first feed subassembly and first extension board, the discharge end department at first feed subassembly is installed to first extension board, fibre feed mechanism includes second feed subassembly, second extension board and support frame board, first feed subassembly and second feed subassembly structure are the same and all set up by the processing platform, and the discharge end department at second feed subassembly is installed to the second extension board, and the support frame board is fixed at the discharge end department of second feed subassembly and is located the below of second extension board.

Further, first feed subassembly includes that feed cylinder, guide way frame, driver part and driven part, and feed cylinder is vertical and installs one of guide way frame and serve to the bottom of feed cylinder is equipped with to the discharge gate that the material was said to the frame and is arranged the material, driver part installs on guide way frame, and driven part installs in feed cylinder, and driver part and driven part transmission are connected.

Further, the drive part includes first driving motor, the roller, the belt and two synchronizing wheels, first driving motor is the level and fixes on the lateral wall that the frame was said to the guide, the roller rotates to be installed in the frame is said to the guide, be equipped with the baffle that a plurality of angular difference set up on the roller, constitute the standing groove that supplies a cursory accommodation between every two adjacent baffles, the one end of roller and first driving motor's output fixed connection, the other end and a synchronizing wheel fixed connection of roller, another synchronizing wheel and driven component fixed connection, the belt cover is established on the outside of two synchronizing wheels.

Further, driven part includes driven shaft, axle sleeve and baffle, and the driven shaft is the horizontal rotation and installs in a feed section of thick bamboo, and the axle sleeve cover is established on a feed section of thick bamboo, baffle and axle sleeve fixed connection, the one end and a synchronizing wheel fixed connection of driven shaft.

Further, positioning mechanism includes the fixed plate, first drives actuating cylinder, U type connecting plate and two arc briquetting, the top at the processing platform is installed to the fixed plate, and first drive actuating cylinder is vertical setting at the fixed plate top to first output and the U type connecting plate fixed connection who drives actuating cylinder, two arc briquetting all with U type connecting plate fixed connection, two arc briquetting settings are directly over the arc wall.

Furthermore, the adjusting and pushing mechanism comprises a rotating shaft, an arc-shaped touch plate, a V-shaped plate, an L-shaped mounting plate, a second driving cylinder, a second driving motor, a pushing block, two driving gears and two racks, the second driving motor is mounted on the outer side wall of the supporting frame plate, the rotating shaft is rotatably mounted on the processing table, one end of the rotating shaft is fixedly connected with the arc-shaped touch plate, the other end of the rotating shaft penetrates through the processing table, the two driving gears and is fixedly connected with the output end of the second driving motor, an arc groove for the fiber to pass through is formed in the arc-shaped touch plate, the two driving gears are respectively meshed with the two racks, the V-shaped plate is butted with one end of the second extending plate, the two racks are vertically fixed at the bottom of the V-shaped plate at intervals, the L-shaped mounting plate is fixedly connected with the bottom of one end of the V, and the output end of the second driving cylinder is fixedly connected with the pushing block, the pushing block is arranged at one end of the top of the V-shaped plate, and the supporting frame plate is provided with a long groove for moving one end of the V-shaped plate in the vertical direction.

Further, drilling mechanism drives actuating cylinder including connecting extension board, slide, third driving motor, drill bit and third, connects the one end of extension board and the one end fixed connection of U type connecting plate, and the third drives actuating cylinder and is horizontal installation on the other end of connecting the extension board, and the output and the slide fixed connection that the third drove actuating cylinder, and the slide slides and sets up on connecting the extension board, and third driving motor installs on the slide, and third driving motor's output and drill bit fixed connection, fixture includes two relative spacing subassemblies that set up at conveying bench top, and every spacing subassembly all includes base station, fourth driving cylinder and clamp splice, and the top at the conveying platform is installed to the base station, and fourth driving cylinder is horizontal fixation on the base station, and the output and the clamp splice fixed connection of fourth driving cylinder.

Further, some lacquer mechanisms include rotor plate, portal frame, the fifth drive actuating cylinder, movable plate, fourth driving motor and two some lacquer heads, and the portal frame is installed at the top of loading board, and the fifth drive actuating cylinder is vertical setting at the top of portal frame, and the fifth drive actuating cylinder's output and movable plate fixed connection, and the fourth driving motor is installed on the movable plate, and the output and the rotor plate fixed connection of fourth driving motor, and two some lacquer heads are vertical symmetry and install the both ends at the rotor plate.

Further, supply lacquer mechanism to include base, step motor and paint vehicle dish, the base sets up by conveying platform, and the paint vehicle dish rotates and installs the top at the base, and step motor installs in the base, and step motor's output and the bottom fixed connection of paint vehicle dish, be equipped with the partition frame board in the paint vehicle dish, this partition frame board can be with paint vehicle dish inner space partition for a plurality of impartial deposit lacquer groove.

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

firstly, a first driving motor drives a roller fixedly connected with the output end of the roller to rotate to drive a plurality of clapboards on the roller to synchronously rotate, meanwhile, under the action of a belt, a driven shaft fixedly connected with a synchronizing wheel is driven to rotate, thereby synchronously rotating a shaft sleeve and a guide plate, realizing stirring blanking of floats in a feeding cylinder, feeding the floats to a material channel frame from a discharge port at intervals in sequence, simultaneously, the roller drives a plurality of clapboards to rotate, a plurality of placing grooves formed by the plurality of clapboards stir the floats to feed materials into arc-shaped grooves on a processing table in sequence, thereby completing the automatic feeding step of the floats, secondly, a first driving cylinder drives a U-shaped connecting plate fixedly connected with the output end of the U-shaped connecting plate to move downwards to drive two arc-shaped press blocks on the U-shaped connecting plate to press and position the floats, and can also drive a connecting support plate arranged on one end of the U-shaped connecting plate to move downwards synchronously, then, a third driving cylinder drives a sliding plate fixedly connected with the output end of the third driving cylinder to move to drive the third driving motor to synchronously move towards the buoy, and simultaneously the third driving motor drives a drill bit to rotate to finish the automatic drilling step of the buoy, a rotating shaft fixedly connected with the output end of the second driving cylinder is driven to rotate by the second driving motor to drive an arc-shaped touch plate and two driving gears on the rotating shaft to rotate, the arc-shaped touch plate limits the buoy, and similarly, the first feeding assembly and the second feeding assembly have the same structure to realize intermittent automatic fiber feeding towards the V-shaped plate, the second driving cylinder drives a pushing block fixedly connected with the output end of the second driving cylinder to move towards the buoy, so that the pushing block drives fibers positioned on the V-shaped plate to move towards the buoy to finish the automatic fiber threading step, and after the automatic fiber threading step is finished, the second driving cylinder drives a buoy conveyor belt positioned in an arc-shaped groove to move, the floating body is driven to move towards the point painting mechanism by the driving of the conveying belt, two limiting assemblies work synchronously, two fourth driving air cylinders drive two clamping blocks to move relatively, the limiting of the floating body in the point painting process is realized, the point painting quality of the floating body is improved, the rotating plate fixedly connected with the output end of the fourth driving motor is driven to rotate by the fourth driving motor, the moving plate belt is driven to move by the fifth driving air cylinder, the point painting head moves in the vertical direction, the intermittent rotating work of the point painting heads at the two ends of the rotating plate is realized, the automatic point painting step of the floating body is completed, meanwhile, the paint vehicle disc is driven to rotate intermittently by the stepping motor, a plurality of paint storage grooves realize intermittent feeding, the automatic feeding of different colors of the point painting heads is realized, the different color point painting steps of the floating body are realized, the production requirements of the floating body of modern enterprises are met, the practicability of equipment is improved, and finally, the floating body is dried by the hot, the production efficiency of the buoy is further improved, the integrated steps of automatic feeding, drilling, fiber threading, paint dispensing, drying and blanking in the production process of the buoy can be realized, the automation degree is higher, the manual labor force is reduced, the production efficiency is improved, the practicability is higher, and the production requirements of modern enterprises are met;

the second step, a roller fixedly connected with the output end of the first driving motor is driven to rotate through the first driving motor, a plurality of partition plates on the roller are driven to synchronously rotate, meanwhile, a driven shaft fixedly connected with a synchronizing wheel is driven to rotate under the action of a belt, so that a shaft sleeve and a guide plate synchronously rotate, the floating body in a feeding cylinder is stirred and discharged, the floating body is sequentially fed to a material channel frame from a discharge port at intervals, and meanwhile, the roller drives a plurality of partition plates to rotate, so that a plurality of placing grooves formed by the partition plates sequentially stir the floating body to intermittently feed the floating body into an arc-shaped groove on a processing table, the automatic feeding step of the floating body is finished, the floating body or the fiber quantity in the feeding cylinder is prevented from being too much, the blockage of the discharge port is prevented, the feeding steps of the floating body and the fiber are influenced, and the stability of equipment;

and thirdly, the second driving motor drives the rotating shaft fixedly connected with the output end of the second driving motor to rotate, so that the two driving gears in the rotating shaft are driven to rotate, then the two racks meshed with the two driving gears are driven to move in the vertical direction, the V-shaped plate is driven to move and adjust in the vertical direction, meanwhile, the second driving cylinder synchronously moves with the fixed one end of the V-shaped plate, the step of automatically penetrating fibers of the buoy with different specifications is met, and the practicability of the device 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 top view of a portion of the structure of the present invention;

FIG. 5 is a cross-sectional view taken along line A-A of FIG. 4;

FIG. 6 is an enlarged view at B in FIG. 5;

FIG. 7 is a partial perspective view of the first embodiment of the present invention;

FIG. 8 is a front view of FIG. 7;

FIG. 9 is a partial perspective view of the second embodiment of the present invention;

FIG. 10 is a side view of FIG. 9;

FIG. 11 is a perspective view of the float;

reference numerals:

a float feeding mechanism 1, a first feeding assembly 1a, a feeding cylinder 1a1, a material guiding track frame 1a2, a driving part 1a3, a first driving motor 1a31, a roller 1a32, a belt 1a33, a synchronizing wheel 1a34, a partition plate 1a35, a driven part 1a4, a driven shaft 1a41, a shaft sleeve 1a42, a guide plate 1a43, a first extending plate 1b, a processing table 2, a fiber feeding mechanism 3, a second feeding assembly 3a, a second extending plate 3b, a supporting frame plate 3c, a positioning mechanism 4, a fixing plate 4a, a first driving cylinder 4b, a U-shaped connecting plate 4c, an arc-shaped pressing block 4d, an adjusting pushing mechanism 5, a rotating shaft 5a, an arc-shaped touch plate 5b, a V-shaped plate 5c, an L-shaped mounting plate 5d, a second driving cylinder 5e, a second driving motor 5f, a pushing block 5g, a driving gear 5h, a rack 5i, a drilling hole mechanism 6a, a connecting sliding plate 6b, the device comprises a third driving motor 6c, a drill 6d, a third driving cylinder 6f, a clamping mechanism 7, a limiting component 7a, a base 7a1, a fourth driving cylinder 7a2, a clamping block 7a3, a conveying table 8, a paint dispensing mechanism 9, a rotating plate 9a, a portal frame 9b, a fifth driving cylinder 9c, a moving plate 9d, a fourth driving motor 9e, a paint dispensing head 9f, a hot air blower 10, a conveying belt 11, an arc-shaped groove 12, a bearing plate 13, a paint supply mechanism 14, a base 14a, a stepping motor 14b, a paint tray 14c, a separation frame plate 14d, a float 15 and fibers 16.

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 11, an embodiment of the present invention provides an automatic float production line, including a float feeding mechanism 1, a processing table 2, a fiber feeding mechanism 3, a positioning mechanism 4, an adjusting pushing mechanism 5, a drilling mechanism 6, a clamping mechanism 7, a conveying table 8, a painting dispensing mechanism 9 and a hot air blower 10, where the float feeding mechanism 1 and the fiber feeding mechanism 3 are respectively disposed at two sides of the processing table 2, the conveying table 8 is provided with a conveying belt 11 disposed along a length direction thereof, the processing table 2 is provided with an arc-shaped groove 12 butted with the conveying belt 11, output ends of the float feeding mechanism 1 and the fiber feeding mechanism 3 are butted with the arc-shaped groove 12, the adjusting pushing mechanism 5 is mounted at an output end of the fiber feeding mechanism 3, the positioning mechanism 4 is mounted at a top of the processing table 2, and the drilling mechanism 6, the clamping mechanism 7 and the hot air blower 10 are mounted at a top of the processing table 2, and the output ends of the float, Some lacquer mechanism 9, hot-air machine group 10 set gradually along the direction of transfer of conveyer belt 11, and the top of conveying platform 8 is equipped with loading board 13,

drilling mechanism

6 and 4 fixed connection of positioning mechanism, fixture 7 set up at the top of conveying platform 8, and some lacquer mechanism 9 and hot-air machine group 10 install on loading board 13, the side of conveying platform 8 is equipped with and supplies lacquer mechanism 14.

In particular, the float feed mechanism 1 comprises a first feed assembly 1a and a first extension plate 1b, the first extension plate 1b is installed at the discharge end of the first feed assembly 1a, the fiber feeding mechanism 3 comprises a second feed assembly 3a, a second extension plate 3b and a support frame plate 3c, the first feeding assembly 1a and the second feeding assembly 3a have the same structure and are arranged beside the processing table 2, the second extension plate 3b is arranged at the discharge end of the second feeding assembly 3a, the support frame plate 3c is fixed at the discharge end of the second feeding assembly 3a and is positioned below the second extension plate 3b, through the operation of the first feed assembly 1a and the second feed assembly 3a, the automatic feeding step of the float 15 and the fibres 16 is achieved, wherein the blanking of the float 15 and the fibres 16 is guided by the first extension plate 1b and the second extension plate 3 b.

Specifically, the first feeding assembly 1a comprises a feeding cylinder 1a1, a material guide way frame 1a2, a driving part 1a3 and a driven part 1a4, wherein the feeding cylinder 1a1 is vertically installed at one end of the material guide way frame 1a2, a discharging port for discharging materials to the material guide way frame 1a2 is arranged at the bottom of the feeding cylinder 1a1, the driving part 1a3 is installed on the material guide way frame 1a2, the driven part 1a4 is installed in the feeding cylinder 1a1, the driving part 1a3 is in transmission connection with the driven part 1a4, the driving part 3 drives the driven part 1a4 to work, and the floating float 15 in the feeding cylinder 1a1 is intermittently stirred and fed from the discharging port to the material guide way frame 1a 2.

Specifically, the driving part 1a3 includes a first driving motor 1a31, a roller 1a32, a belt 1a33 and two synchronizing wheels 1a34, the first driving motor 1a31 is horizontally fixed on the outer side wall of the guide track frame 1a2, the roller 1a32 is rotatably installed in the guide track frame 1a2, the roller 1a32 is provided with a plurality of partition boards 1a35 arranged at equal angular difference, a placement slot for accommodating a float 15 is formed between every two adjacent partition boards 1a35, one end of the roller 1a32 is fixedly connected with the output end of the first driving motor 1a31, the other end of the roller 1a32 is fixedly connected with one synchronizing wheel 1a34, the other synchronizing wheel 1a34 is fixedly connected with a driven component, the belt 1a33 is sleeved on the outer portions of the two synchronizing wheels 1a34, the roller 1a32 fixedly connected with the output end thereof is driven by the first driving motor 1a31 to rotate, so as to drive the plurality of partition boards 32 a35, the roller 1a32 drives the partition boards 1a35 to rotate, so that the placement grooves formed by the partition boards 1a35 sequentially stir the buoy 15 to intermittently feed the buoy 15 into the arc-shaped groove 12 on the processing table 2, and the automatic feeding step of the buoy 15 is completed.

Specifically, the driven part 1a4 comprises a driven shaft 1a41, a shaft sleeve 1a42 and a guide plate 1a43, the driven shaft 1a41 is horizontally and rotatably installed in the feeding cylinder 1a1, the shaft sleeve 1a42 is sleeved on the feeding cylinder 1a1, the guide plate 1a43 is fixedly connected with the shaft sleeve 1a42, one end of the driven shaft 1a41 is fixedly connected with a synchronizing wheel 1a34, a roller 1a32 fixedly connected with the output end of the driven shaft is driven to rotate through a first driving motor 1a31, meanwhile, under the action of a belt 1a33, the driven shaft 1a41 fixedly connected with the synchronizing wheel 1a34 is driven to rotate, the shaft sleeve 1a42 and the guide plate 1a43 synchronously rotate, shifting blanking of the floating 15 in the feeding cylinder 1a1 is realized, the floating 15 is sequentially fed from the discharge port to the guide rail 1a2 at intervals, the feeding of the feeding cylinder 1a1 or the floating 15 or the fiber 16 in the feeding cylinder is prevented from being excessively, the floating material is prevented from blocking the discharge port, and the floating material blocking step of the fiber blocking the, the stability of the device is further improved.

Specifically, positioning mechanism 4 includes fixed plate 4a, first actuating cylinder 4b, U type connecting plate 4c and two arc briquetting 4d of driving, fixed plate 4a installs at the top of processing platform 2, and first actuating cylinder 4b of driving is vertical setting at fixed plate 4a top, and first output and the U type connecting plate 4c fixed connection who drives actuating cylinder 4b, two arc briquetting 4d all with U type connecting plate 4c fixed connection, two arc briquetting 4d set up directly over the arc wall 12, move down through first actuating cylinder 4b drive rather than output fixed connection's U type connecting plate 4c, drive two arc briquetting 4d on the U type connecting plate 4c and suppress the location to cursory 15, realize follow-up cursory 15 stable drilling and pass fibre 16 step.

Specifically, the adjusting and pushing mechanism 5 includes a rotating shaft 5a, an arc-shaped touch panel 5b, a V-shaped panel 5c, an L-shaped mounting plate 5d, a second driving cylinder 5e, a second driving motor 5f, a pushing block 5g, two driving gears 5h and two racks 5i, the second driving motor 5f is mounted on the outer side wall of the support frame plate 3c, the rotating shaft 5a is rotatably mounted on the processing table 2, one end of the rotating shaft 5a is fixedly connected with the arc-shaped touch panel 5b, the other end of the rotating shaft 5a penetrates through the processing table 2 and the two driving gears 5h and is fixedly connected with the output end of the second driving motor 5f, an arc groove for the fiber 16 to pass through is arranged on the arc-shaped touch panel 5b, the two driving gears 5h are respectively meshed with the two racks 5i, the V-shaped panel 5c is butted with one end of the second extension panel 3b, the two racks 5i are vertically fixed at the bottom of the V-, an L-shaped mounting plate 5d is fixedly connected with the bottom of one end of a V-shaped plate 5c, a second driving air cylinder 5e is horizontally fixed on the L-shaped mounting plate 5d, the output end of the second driving air cylinder 5e is fixedly connected with a pushing block 5g, the pushing block 5g is arranged at one end of the top of the V-shaped plate 5c, a long groove for moving one end of the V-shaped plate 5c in the vertical direction is arranged on a support frame plate 3c, a rotating shaft 5a fixedly connected with the output end of the second driving air cylinder 5f is driven to rotate by a second driving motor 5f to drive an arc touch plate 5b on the rotating shaft 5a and two driving gears 5h to rotate, the arc touch plate 5b limits a float 15, and similarly, the first feeding assembly 1a and the second feeding assembly 3a have the same structure to realize feeding to the V-shaped plate 5c intermittent type automatic fiber 16, the second driving air cylinder 5e drives the pushing block 5g fixedly connected with the output end of the, thereby leading the pushing block 5g to drive the fiber 16 positioned on the V-shaped plate 5c to move towards the float 15 and completing the step of automatically penetrating the fiber 16.

Specifically, the drilling mechanism 6 comprises a connecting support plate 6a, a sliding plate 6b, a third driving motor 6c, a drill bit 6d and a third driving cylinder 6f, one end of the connecting support plate 6a is fixedly connected with one end of a U-shaped connecting plate 4c, the third driving cylinder 6f is horizontally arranged at the other end of the connecting support plate 6a, the output end of the third driving cylinder 6f is fixedly connected with the sliding plate 6b, the sliding plate 6b is slidably arranged on the connecting support plate 6a, the third driving motor 6c is arranged on the sliding plate 6b, the output end of the third driving motor 6c is fixedly connected with the drill bit 6d, the first driving cylinder 4b drives the connecting support plate 6a arranged at one end of the U-shaped connecting plate 4c to move downwards synchronously, and then the third driving cylinder 6f drives the sliding plate 6b fixedly connected with the output end of the third driving cylinder to move so as to drive the third driving motor 6c to move synchronously towards the float 15, meanwhile, the third driving motor 6c drives the drill bit 6d to rotate, so that the automatic drilling step of the buoy 15 is completed, the clamping mechanism 7 comprises two limiting assemblies 7a which are oppositely arranged at the top of the conveying table 8, each limiting assembly 7a comprises a base 7a1, a fourth driving cylinder 7a2 and a clamping block 7a3, the base 7a1 is installed at the top of the conveying table 8, the fourth driving cylinder 7a2 is horizontally fixed on the base 7a1, the output end of the fourth driving cylinder 7a2 is fixedly connected with the clamping block 7a3, the two limiting assemblies 7a are used for synchronous work, the two fourth driving cylinders 7a2 drive the two clamping blocks 7a3 to move relatively, the limiting of the buoy 15 in the process of painting is realized, and the quality of the buoy 15 is improved.

Specifically, the painting mechanism 9 includes a rotating plate 9a, a gantry 9b, a fifth driving cylinder 9c, a moving plate 9d, a fourth driving motor 9e and two painting heads 9f, the gantry 9b is installed on the top of the loading plate 13, the fifth driving cylinder 9c is vertically installed on the top of the gantry 9b, the output end of the fifth driving cylinder 9c is fixedly connected with the moving plate 9d, the fourth driving motor 9e is installed on the moving plate 9d, the output end of the fourth driving motor 9e is fixedly connected with the rotating plate 9a, the two painting heads 9f are vertically and symmetrically installed on two ends of the rotating plate 9a, the rotating plate 9a fixedly connected with the output end thereof is driven by the fourth driving motor 9e to rotate the moving plate, and the fifth driving cylinder 9c drives the moving plate 9d to drive the painting heads 9f to move in the vertical direction, so that the painting heads 9f at two ends of the rotating plate 9a intermittently rotate, the automatic painting step of the float 15 is completed.

Specifically, supply lacquer mechanism 14 to include base 14a, step motor and lacquer charging tray 14c, base 14a sets up by conveying platform 8, and lacquer charging tray 14c rotates the top of installing at base 14a, and step motor installs in base 14a, and step motor's output and lacquer charging tray 14 c's bottom fixed connection, be equipped with division frame plate 14d in the lacquer charging tray 14c, this division frame plate 14d can be separated lacquer charging tray 14c inner space for a plurality of impartial deposit lacquer groove, rotates through step motor drive lacquer charging tray 14c intermittent type formula, makes a plurality of deposit lacquer grooves realize the spaced feed, satisfies the automatic feeding of the different colours of some lacquer head 9f, realizes the different colour spot lacquer steps of cursory 15, has satisfied the production demand of cursory 15 of modern enterprise, has improved the equipment practicality.

The working principle of the invention is as follows: the first driving motor 1a31 drives the roller 1a32 fixedly connected with the output end thereof to rotate, so as to drive a plurality of partition boards 1a35 on the roller 1a32 to rotate synchronously, meanwhile, under the action of the belt 1a33, the driven shaft 1a41 fixedly connected with the synchronizing wheel 1a34 is driven to rotate, so that the shaft sleeve 1a42 and the guide board 1a43 rotate synchronously, so as to realize the poking and blanking of the floats 15 in the feeding cylinder 1a1, so that the floats 15 are sequentially fed from the discharge port to the material guide frame 1a2 at intervals, meanwhile, the roller 1a32 drives a plurality of partition boards 1a35 to rotate, so that a plurality of placing grooves formed by a plurality of partition boards 1a35 sequentially poke and intermittently feed the floats 15 into the arc-shaped grooves 12 on the processing table 2, so as to complete the automatic feeding step of the floats 15, secondly, the first driving cylinder 4b drives the U-shaped connecting plate 4c fixedly connected with the output end thereof to move downwards, so as to drive two pressing blocks 4d on the U-shaped connecting plate 4c to position the floats 15, and can also drive and install the connecting support plate 6a on one end of the U-shaped connecting plate 4c and move downwards synchronously, then, the third driving air cylinder 6f drives the slide plate 6b fixedly connected with its output end to move, drive the third driving motor 6c to move synchronously to the buoy 15, at the same time, the third driving motor 6c drives the bit 6d to rotate, finish the automatic drilling step of the buoy 15, drive the spindle 5a fixedly connected with its output end to rotate through the second driving motor 5f, drive the arc-shaped touch panel 5b and two driving gears 5h on the spindle 5a to rotate, the arc-shaped touch panel 5b limits the buoy 15, in the same way, utilize the first feeding assembly 1a and the second feeding assembly 3a identical structure, realize to the V-shaped plate 5c intermittent type automatic fiber 16 loading, the second driving air cylinder 5e drives the pushing block 5g fixedly connected with its output end to move to the buoy 15, so that the pushing block 5g drives the fiber 16 positioned on the V-shaped plate 5c to move towards the float 15, the step of automatically penetrating the fiber 16 is completed, after the step of automatically penetrating the fiber 16 is completed, the second driving air cylinder 5e drives the conveyor belt 11 of the float 15 positioned in the arc-shaped groove 12 to move, the conveyor belt 11 drives the float 15 to move towards the point painting mechanism 9, the two limiting assemblies 7a work synchronously, the two fourth driving air cylinders 7a2 drive the two clamping blocks 7a3 to move relatively, the limitation of the point painting process of the float 15 is realized, the point painting quality of the float 15 is improved, the fourth driving motor 9e drives the rotating plate 9a fixedly connected with the output end thereof to rotate, the fifth driving air cylinder 9c drives the moving plate 9d to drive the point painting head 9f to move in the vertical direction, so that the point painting heads 9f at the two ends of the rotating plate 9a intermittently rotate to work, and the step of automatically painting the float 15 is completed, meanwhile, the paint trays 14c are driven to intermittently rotate by the stepping motor, so that the plurality of paint storage grooves realize interval feeding, the automatic feeding of the paint dispensing heads 9f with different colors is met, the painting steps with different colors of the floats 15 are realized, the production requirements of the floats 15 of modern enterprises are met, the practicability of equipment is improved, and finally, the steps of drying the floats 15 by the hot air unit 10 are carried out, so that the production efficiency of the floats 15 is further improved. The first driving motor 1a31 drives the roller 1a32 fixedly connected with the output end thereof to rotate, so as to drive a plurality of partition boards 1a35 on the roller 1a32 to rotate synchronously, meanwhile, under the action of the belt 1a33, the driven shaft 1a41 fixedly connected with the synchronizing wheel 1a34 is driven to rotate, so that the shaft sleeve 1a42 and the guide board 1a43 rotate synchronously, the floating floats 15 in the feeding cylinder 1a1 are shifted and discharged, the floating floats 15 are sequentially fed from the discharging port to the feeding track 1a2 at intervals, meanwhile, the roller 1a32 drives a plurality of partition boards 1a35 to rotate, a plurality of placing grooves formed by a plurality of partition boards 1a35 are used for shifting and intermittently feeding the floats 15 to the arc-shaped groove 12 on the processing table 2, so as to complete the automatic feeding step of the floats 15, and prevent the excessive amount of the floats 15 or fibers 16 in the feeding cylinder 1a1 from causing the blockage of the discharging port and influencing the floating step of the fibers 15 and the fibers 16, the stability of the equipment is further improved; the second driving motor 5f drives the rotating shaft 5a fixedly connected with the output end of the rotating shaft to rotate, two driving gears 5h on the rotating shaft 5a are driven to rotate, two racks 5i meshed with the two driving gears 5h are driven to move in the vertical direction, the V-shaped plate 5c is moved and adjusted in the vertical direction, meanwhile, the second driving cylinder 5e which is fixed to one end of the V-shaped plate 5c is driven to move synchronously, the step that the buoy 15 meeting different specifications automatically penetrates through fibers 16 is achieved, and the practicability of equipment is further improved.

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: comprises a floating feeding mechanism (1), a processing table (2), a fiber feeding mechanism (3), a positioning mechanism (4), an adjusting pushing mechanism (5), a drilling mechanism (6), a clamping mechanism (7), a conveying table (8), a varnishing mechanism (9) and a hot air unit (10), wherein the floating feeding mechanism (1) and the fiber feeding mechanism (3) are respectively arranged at two sides of the processing table (2), the conveying table (8) is provided with a conveying belt (11) arranged along the length direction of the conveying table, the processing table (2) is provided with an arc-shaped groove (12) butted with the conveying belt (11), the output ends of the floating feeding mechanism (1) and the fiber feeding mechanism (3) are butted with the arc-shaped groove (12), the adjusting pushing mechanism (5) is arranged at the output end of the fiber feeding mechanism (3), the positioning mechanism (4) is arranged at the top of the processing table (2), drilling mechanism (6), fixture (7), some lacquer mechanism (9), hot-blast unit (10) set gradually along the direction of transfer of conveyer belt (11), and the top of conveying platform (8) is equipped with loading board (13), drilling mechanism (6) and positioning mechanism (4) fixed connection, fixture (7) set up at the top of conveying platform (8), and some lacquer mechanism (9) and hot-blast unit (10) are installed on loading board (13), the side of conveying platform (8) is equipped with supplies lacquer mechanism (14).

2. The automatic production line of floats of claim 1, characterized in that: cursory feed mechanism (1) includes first feed subassembly (1a) and first extension board (1b), the discharge end department at first feed subassembly (1a) is installed in first extension board (1b), fibre feed mechanism (3) include second feed subassembly (3a), second extension board (3b) and support frame board (3c), first feed subassembly (1a) and second feed subassembly (3a) the same structure just all set up by processing platform (2), and the discharge end department at second feed subassembly (3a) is installed in second extension board (3b), and support frame board (3c) are fixed at the discharge end department of second feed subassembly (3a) and are located the below of second extension board (3 b).

3. The automatic production line of floats of claim 2, characterized in that: the first feeding assembly (1a) comprises a feeding cylinder (1a1), a guide track frame (1a2), a driving part (1a3) and a driven part (1a4), wherein the feeding cylinder (1a1) is vertically installed at one end of the guide track frame (1a2), a discharging hole for discharging materials to the guide track frame (1a2) is formed in the bottom of the feeding cylinder (1a1), the driving part (1a3) is installed on the guide track frame (1a2), the driven part (1a4) is installed in the feeding cylinder (1a1), and the driving part (1a3) is in transmission connection with the driven part (1a 4).

4. The automatic production line of floats of claim 3, characterized in that: the driving part (1a3) comprises a first driving motor (1a31), a roller (1a32), a belt (1a33) and two synchronizing wheels (1a34), wherein the first driving motor (1a31) is horizontally fixed on the outer side wall of a material guide track frame (1a2), the roller (1a32) is rotatably installed in the material guide track frame (1a2), a plurality of partition plates (1a35) with equal angle difference are arranged on the roller (1a32), a placing groove for accommodating a float (15) is formed between every two adjacent partition plates (1a35), one end of the roller (1a32) is fixedly connected with the output end of the first driving motor (1a31), the other end of the roller (1a32) is fixedly connected with one synchronizing wheel (1a34), the other synchronizing wheel (1a34) is fixedly connected with a driven assembly, and the belt (1a33) is sleeved on the outer portion of the two synchronizing wheels (1a 34).

5. The automatic production line of floats of claim 4, characterized in that: driven part (1a4) includes driven shaft (1a41), axle sleeve (1a42) and baffle (1a43), driven shaft (1a41) are horizontal rotation and install in feed section of thick bamboo (1a1), axle sleeve (1a42) cover is established on feed section of thick bamboo (1a1), baffle (1a43) and axle sleeve (1a42) fixed connection, the one end and a synchronizing wheel (1a34) fixed connection of driven shaft (1a 41).

6. The automatic production line of floats of claim 1, characterized in that: positioning mechanism (4) are including fixed plate (4a), first drive actuating cylinder (4b), U type connecting plate (4c) and two arc briquetting (4d), the top at processing platform (2) is installed in fixed plate (4a), first drive actuating cylinder (4b) be vertical setting at fixed plate (4a) top to the output and the U type connecting plate (4c) fixed connection of first drive actuating cylinder (4b), two arc briquetting (4d) all with U type connecting plate (4c) fixed connection, two arc briquetting (4d) set up directly over arc wall (12).

7. The automatic production line of floats of claim 5, characterized in that: the adjusting and pushing mechanism (5) comprises a rotating shaft (5a), an arc-shaped touch panel (5b), a V-shaped plate (5c), an L-shaped mounting plate (5d), a second driving cylinder (5e), a second driving motor (5f), a pushing block (5g), two driving gears (5h) and two racks (5i), the second driving motor (5f) is mounted on the outer side wall of the supporting frame plate (3c), the rotating shaft (5a) is rotatably mounted on the processing table (2), one end of the rotating shaft (5a) is fixedly connected with the arc-shaped touch panel (5b), the other end of the rotating shaft (5a) penetrates through the processing table (2), the two driving gears (5h) and is fixedly connected with the output end of the second driving motor (5f), an arc-shaped groove for the fibers (16) to penetrate through is formed in the arc-shaped touch panel (5b), the two driving gears (5h) are respectively meshed with the two racks (5i), v template (5c) dock with the one end of second extension board (3b), two rack (5i) are vertical and the interval is fixed in the bottom of V template (5c), the one end bottom fixed connection of L type mounting panel (5d) and V template (5c), the second drives actuating cylinder (5e) and is the level and fixes on L type mounting panel (5d), and the second drives the output of actuating cylinder (5e) and promotes piece (5g) fixed connection, it sets up the top one end department at V template (5c) to promote piece (5g), be equipped with the elongated slot that supplies V template (5c) one end to move on support frame board (3c) in vertical direction.

8. The automatic production line of floats of claim 6, characterized in that: drilling mechanism (6) are including connecting extension board (6a), slide (6b), third driving motor (6c), drill bit (6d) and third drive actuating cylinder (6f), the one end of connecting extension board (6a) and the one end fixed connection of U type connecting plate (4c), third drive actuating cylinder (6f) are horizontal installation on the other end of connecting extension board (6a), and the output and slide (6b) fixed connection of third drive actuating cylinder (6f), slide (6b) slide and set up on connecting extension board (6a), third driving motor (6c) are installed on slide (6b), and the output and drill bit (6d) fixed connection of third driving motor (6c), fixture (7) include two relative spacing subassemblies (7a) that set up at conveying platform (8) top, every spacing subassembly (7a) all include base station (7a1), The device comprises a fourth driving cylinder (7a2) and a clamping block (7a3), wherein the base (7a1) is installed at the top of the conveying table (8), the fourth driving cylinder (7a2) is horizontally fixed on the base (7a1), and the output end of the fourth driving cylinder (7a2) is fixedly connected with the clamping block (7a 3).

9. The automatic production line of floats of claim 1, characterized in that: the painting mechanism (9) comprises a rotating plate (9a), a portal frame (9b), a fifth driving cylinder (9c), a moving plate (9d), a fourth driving motor (9e) and two painting heads (9f), the portal frame (9b) is installed at the top of the bearing plate (13), the fifth driving cylinder (9c) is vertically arranged at the top of the portal frame (9b), the output end of the fifth driving cylinder (9c) is fixedly connected with the moving plate (9d), the fourth driving motor (9e) is installed on the moving plate (9d), the output end of the fourth driving motor (9e) is fixedly connected with the rotating plate (9a), and the two painting heads (9f) are vertically and symmetrically installed at two ends of the rotating plate (9 a).

10. The automatic production line of the buoy of claim 9, which is characterized in that: supply lacquer mechanism (14) including base (14a), step motor and lacquer charging tray (14c), base (14a) set up by conveying platform (8), and lacquer charging tray (14c) rotate and install the top at base (14a), and step motor installs in base (14a), and step motor's output and the bottom fixed connection of lacquer charging tray (14c), be equipped with partition frame board (14d) in lacquer charging tray (14c), this partition frame board (14d) can be separated lacquer charging tray (14c) inner space for a plurality of impartial deposit lacquer groove.