CN110548639B - Intelligent running water type production device for glass fiber reinforced plastic anchor rod - Google Patents

Abstract

The invention discloses an intelligent water-flowing type production device for a glass fiber reinforced plastic anchor rod, which comprises assembly line supports distributed in a mirror image manner, wherein the assembly line supports distributed in the mirror image manner are also distributed in an array manner, one side of one assembly line support is provided with a wind power dust removal device, two sides of the assembly line support are also provided with side surface cleaning devices distributed in the mirror image manner, an interruption device is further arranged between the assembly line supports distributed in the mirror image manner, the assembly line supports comprise first support columns distributed in an array manner, the upper ends of the first support columns are jointly provided with first transverse steel columns, the first transverse steel columns are provided with first steel rails, the first steel rails are provided with second positioning holes distributed in the array manner, first rotating rods are arranged in the second positioning holes, and first rolling rods are. The invention has simple use, is convenient for operators to operate and nurse, reduces the operation difficulty of the operators, simultaneously avoids the problem that the operators cannot stop in time when production accidents occur during the assembly line operation, and avoids the defective products from flowing into the next link of the production line.

Description

Intelligent running water type production device for glass fiber reinforced plastic anchor rod

Technical Field

The invention relates to the field of glass fiber reinforced plastic anchor rod production, in particular to an intelligent flow production device for a glass fiber reinforced plastic anchor rod.

Background

The glass fiber reinforced plastic anchor rod is compounded with unsaturated polyester resin as basic material and glass fiber reinforced plastic as reinforcing material. Due to the good chemical property and high strength of the glass fiber of the special resin and the special manufacturing process, the glass fiber reinforced plastic anchor rod has incomparable performance advantages compared with other materials. The glass fiber reinforced plastic anchor rod has the main characteristics that: the strength is high: the tensile strength of the rod body is more than or equal to 300 MPa; the torque is more than or equal to 40 N.m, the tensile strength is high, the weight is light, and the steel anchor rod is about 1/5 of the metal anchor rod with the same specification; the cutting machine can be cut and is not easy to damage, the surface is antistatic and flame retardant, sparks are not generated during cutting, corrosion resistance, heat insulation and insulation are realized, durability is realized, and the bonding force with a resin anchoring agent is good. In order to improve the productivity in the prior glass anchor rod production, an intelligent flow production device for glass fiber reinforced plastic anchor rods is provided.

Disclosure of Invention

The invention aims to provide an intelligent flow production device for a glass fiber reinforced plastic anchor rod, which is simple to use, convenient for operation and nursing of operators, reduces the operation difficulty of the operators, requires less labor, saves human resources, has high efficiency for cleaning the glass anchor rod by a production line, improves the operation efficiency of the production line, is beneficial to improving the production capacity of the production line, can be stopped at any time, avoids the problem that the glass anchor rod cannot be stopped in time when a production accident occurs during the production line operation, and avoids defective products from flowing into the next link of the production line.

The purpose of the invention can be realized by the following technical scheme:

the utility model provides a glass steel stock intelligence continuous-flow type apparatus for producing, includes the assembly line support that the mirror image distributes the assembly line support is the array distribution equally, and one of them assembly line support one side is equipped with wind-force dust collector, and assembly line support both sides still are equipped with the side belt cleaning device that is the mirror image and distributes mutually, still are equipped with interrupting device between the assembly line support that wherein the mirror image distributes.

The assembly line support comprises first supporting columns distributed in an array mode, a first fixing bottom plate is arranged at the lower ends of the first supporting columns, a first positioning hole is formed in the first fixing bottom plate, a first transverse steel column is jointly arranged at the upper ends of the first supporting columns, an inclined supporting rod distributed in a mirror image mode is arranged on one side of each first supporting column, a first steel rail is arranged on each first transverse steel column, second positioning holes distributed in an array mode are formed in each first steel rail, a first rotating rod is arranged in each second positioning hole, and a first rolling rod is arranged on each first rotating rod.

Furthermore, the wind power dust removal device comprises a first platform plate fixed on one side of the first transverse steel column, inclined supporting plates distributed in an array mode are arranged on the first platform plate, a first air pipe groove and a second air pipe groove are formed in the inclined supporting plates, a compressed air machine platform is jointly arranged on the inclined supporting plates, first mounting holes distributed in an array mode are formed in the compressed air machine platform, a compressed air machine is arranged on the compressed air machine platform, second mounting holes distributed in an array mode are formed in the compressed air machine, a first air pipe and a second air pipe are arranged on one side of the compressed air machine, the compressed air machine penetrates through the lower end of the compressed air machine platform to be provided with a third air pipe, and an air jet pipe is arranged on the third air pipe.

Further, the side surface cleaning device comprises second supporting columns distributed in an array manner, a second fixing bottom plate is arranged at the lower ends of the second supporting columns, third positioning holes distributed in an array manner are formed in the second fixing bottom plate, second transverse steel columns are jointly arranged on the second supporting columns, a second flat table plate is jointly arranged on the second transverse steel columns, a fourth positioning hole is arranged at the center of the second flat table plate, third mounting holes distributed in an axial array manner are formed in the periphery of the fourth positioning hole, first air cylinders distributed in an array manner are arranged on the second flat table plate, a second air cylinder is arranged at the lower end of the second flat table plate, second telescopic rods are arranged on the second air cylinder, fourth mounting holes distributed in an axial array manner are arranged at the lower end of the first air cylinder, first telescopic rods are arranged on the first air cylinder, upper mounting blocks are arranged at the top ends of the first telescopic rods, third flat table plates are jointly arranged on the upper, the third platform plate is provided with fifth mounting holes which are axially distributed in an array manner, the third platform plate is provided with fixed rails which are distributed in an array manner, the fixed rails are provided with slide rails, the slide rails are all provided with slide blocks which are distributed in an array manner, the slide blocks are jointly provided with a fourth platform plate, one side of the third platform plate is also provided with a third air cylinder, the third air cylinder is provided with a third telescopic rod, the third telescopic rod is propped against one side of the fourth platform plate, the fourth platform plate is provided with a servo motor, one side of the servo motor is provided with a motor fixing plate, the servo motor is also provided with a driving shaft which penetrates through the motor fixing plate, the driving shaft is provided with a connecting shaft, the connecting shaft is provided with an extension rod, the top end of the extension rod is provided with a mounting head, one side of the motor fixing plate is provided with extension rod fixing tables which are, the motor fixing plate is characterized in that auxiliary motor fixing plates distributed in an array mode are arranged on one side of each motor fixing plate, auxiliary fixing blocks are arranged between the auxiliary motor fixing plates, and second mounting screws distributed in an array mode are arranged on the auxiliary fixing blocks.

Further, the interruption device comprises third support columns distributed in an array manner, the lower ends of the third support columns are provided with third fixing bottom plates, fifth positioning holes are formed in the third fixing bottom plates, one sides of the third support columns are provided with lapping rods, the lapping rods are provided with array distribution gaskets, third transverse steel columns are jointly arranged among the third support columns, one sides of the third transverse steel columns are provided with first hydraulic cylinder connecting blocks, hydraulic cylinder connecting pins are arranged on the first hydraulic rod connecting blocks, the lower ends of the hydraulic cylinders are provided with second hydraulic cylinder connecting blocks, hydraulic cylinder connecting holes are formed in the second hydraulic cylinder connecting blocks, connecting steel bars are arranged among the third transverse steel columns, connecting plates distributed in a mirror image manner are arranged on two sides of each connecting steel bar, rotating shafts are arranged on the connecting plates, sixth positioning holes distributed in an array manner are formed in the second steel rails, second rotating rods are arranged in the sixth positioning holes, second rotating rods are arranged on, the piston rod is provided with a connector, the top end of the connector is provided with a second steel rail, the second steel rail is further provided with a rotating shaft connecting block, the second steel rail is further provided with a piston rod connecting block, the rotating shaft connecting block is provided with a second bearing hole, one side of the second steel rail is further provided with a steel block, and the steel block is provided with a seventh positioning hole.

The invention has the beneficial effects that:

1. the invention is simple to use, is convenient for the operation and the nursing of operators, reduces the operation difficulty of the operators, needs less manpower and saves the human resources;

2. the glass anchor rod cleaning device is high in efficiency when used for cleaning the glass anchor rod on the production line, improves the operation efficiency of the production line and is beneficial to improving the production capacity of the production line;

3. the invention can be stopped at any time, thereby avoiding that the production can not be stopped in time when production accidents occur during assembly line operation and avoiding that defective products flow into the next link of the production line.

Drawings

The invention will be further described with reference to the accompanying drawings.

FIG. 1 is a schematic structural view of an intelligent flow production device for glass fiber reinforced plastic anchor rods;

FIG. 2 is a schematic structural view of an intelligent flow production device for glass fiber reinforced plastic anchor rods;

FIG. 3 is a schematic view of a part of the structure of the intelligent flow production device for glass fiber reinforced plastic anchor rods;

FIG. 4 is a schematic view of a part of the structure of the intelligent flow production device for glass fiber reinforced plastic anchor rods;

fig. 5 is a schematic view of a part of the structure of the intelligent flow production device for the glass fiber reinforced plastic anchor rod.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "opening," "upper," "lower," "thickness," "top," "middle," "length," "inner," "peripheral," and the like are used in an orientation or positional relationship that is merely for convenience in describing and simplifying the description, and do not indicate or imply that the referenced component or element must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be considered as limiting the present invention.

The utility model provides a glass steel stock intelligence continuous-flow type apparatus for producing, includes assembly line support 1 that the mirror image distributes, as shown in fig. 1, fig. 2, assembly line support 1 that the mirror image distributes is the array distribution equally, and one of them assembly line support 1 one side is equipped with wind-force dust collector 3, and assembly line support 1 both sides still are equipped with the side belt cleaning device 4 that is the mirror image and distributes mutually, wherein still are equipped with interrupt device 5 between the assembly line support 1 that the mirror image distributes.

The assembly line support 1 includes the first support post 11 of array distribution, as shown in fig. 1, fig. 3, the lower extreme of the first support post 11 all is equipped with first PMKD 12, be equipped with first locating hole 121 on the first PMKD, 11 upper ends of first support post are equipped with first horizontal steel column 14 jointly, 11 one side of first support post is equipped with the bearing diagonal 13 that the mirror image distributes, be equipped with first rail 15 on the first horizontal steel column 14, be equipped with the second locating hole 16 of array distribution on the first rail 15, all be equipped with first bull stick 2 in the second locating hole 16, be equipped with first rolling bar 21 on the first bull stick 2.

The wind dust collector 3 includes a first platform plate 31 fixed on one side of the first transverse steel column 14, as shown in fig. 3, the first platform plate 31 is provided with inclined support plates 32 distributed in an array, the inclined support plates 32 are provided with first air pipe grooves 321 and second air pipe grooves 322, the inclined support plates 32 are provided with a compressed air machine platform 33 together, the compressed air machine platform 33 is provided with first mounting holes 331 distributed in an array, the compressed air machine platform 33 is provided with compressed air machines 34, the compressed air machines 34 are provided with second mounting holes 343 distributed in an array, one side of the compressed air machines 34 is provided with first air pipes 341 and second air pipes 342, the compressed air machines 34 penetrate through the lower end of the compressed air machine platform 33 and are provided with third air pipes 344, and the third air pipes 344 are provided with air injection pipes 345.

The side surface cleaning device 4 comprises second supporting columns 41 distributed in an array, as shown in fig. 4, the lower ends of the second supporting columns 41 are respectively provided with a second fixed bottom plate 411, the second fixed bottom plate 411 is provided with third positioning holes 4111 distributed in an array, the second supporting columns 41 are respectively and commonly provided with a second transverse steel column 412, the second transverse steel column 412 is commonly provided with a second platform plate 42, the center of the second platform plate 42 is provided with a fourth positioning hole 421, the periphery of the fourth positioning hole 421 is provided with third mounting holes 422 distributed in an axial array, the second platform plate 42 is provided with first air cylinders 43 distributed in an array, the lower ends of the second platform plate 42 are provided with second air cylinders 45, the second air cylinders 45 are provided with second telescopic rods 451, the lower ends of the first air cylinders 43 are respectively provided with fourth mounting holes 431 distributed in an axial array, the first air cylinders 43 are provided with first telescopic rods 432, the top ends of the first telescopic rods 432 are respectively provided with an upper mounting block 433, the, the second expansion link 451 is fixed at the lower end of the third platform plate 44, the third platform plate 44 is provided with fifth mounting holes 441 distributed in an axial array, the third platform plate 44 is provided with fixing rails 442 distributed in an array, the fixing rails 442 are provided with slide rails 4421, the slide rails 4421 are provided with slide blocks 443 distributed in an array, the slide blocks 443 are provided with a fourth platform plate 47 together, one side of the third platform plate 44 is further provided with a third air cylinder 46, the third air cylinder 46 is provided with a third expansion link 461, the third expansion link 461 abuts against one side of the fourth platform plate 47, the fourth platform plate 47 is provided with a servo motor 48, one side of the servo motor 48 is provided with a motor fixing plate 49, the servo motor 48 is further provided with a driving shaft 481 penetrating through the motor fixing plate 49, the driving shaft 481 is provided with a connecting shaft 482, the connecting shaft 482 is provided with an extension rod 483, the top end of the extension rod 483 is provided, the extension rod fixing table 491 is provided with a first bearing hole 492, the extension rod fixing table 491 is provided with a first mounting screw 493, the lower end of the extension rod fixing table 491 is provided with a height pad 494, one side of the motor fixing plate 49 is provided with auxiliary motor fixing plates 495 distributed in an array manner, an auxiliary fixing block 496 is arranged between the auxiliary motor fixing plates 495, and the auxiliary fixing block 496 is provided with a second mounting screw 497 distributed in an array manner.

The interrupting device 5 comprises third supporting columns 51 distributed in an array, as shown in fig. 5, the lower ends of the third supporting columns 51 are respectively provided with a third fixing bottom plate 511, the third fixing bottom plate 511 is respectively provided with a fifth positioning hole 5111, one side of the third supporting column 51 is provided with a platform lapping rod 512, the platform lapping rod 512 is provided with an array distribution gasket 513, third cross steel columns 52 are jointly arranged between the third supporting columns 51, one side of each third cross steel column 52 is provided with a first hydraulic cylinder connecting block 521, the first hydraulic cylinder connecting block 521 is provided with a hydraulic cylinder connecting pin 522, the lower end of each hydraulic cylinder 53 is provided with a second hydraulic cylinder connecting block 531, the second hydraulic cylinder connecting block is provided with a hydraulic cylinder connecting hole 532, a connecting steel bar 523 is arranged between the third cross steel columns 52, two sides of the connecting steel bar 523 are provided with connecting plates 524 distributed in a mirror image manner, a rotating shaft 525 is, a second rotating rod 54 is arranged in the sixth positioning hole 551, a second rolling rod 541 is arranged on the second rotating rod 54, a piston rod 533 is arranged on the hydraulic cylinder 53, a connecting head 534 is arranged on the piston rod 533, a second steel rail 55 is arranged at the top end of the connecting head 534, a rotating shaft connecting block 553 is further arranged on the second steel rail 55, a piston rod connecting block 552 is further arranged on the second steel rail 55, a second bearing hole 554 is arranged on the rotating shaft connecting block 553, a steel block 555 is further arranged on one side of the second steel rail 55, and a seventh positioning hole 556 is arranged on the steel block 555.

During the use, connect external motor with first bull stick 2, drive first bull stick 2 and rotate, place the glass stock that needs the clearance on first roll bar 21, through the dust on air jet nozzle 345 jet-propelled clear surface, with installation head 484 direct mount brush roll, there is anticorrosive paint on the brush roll, when the glass stock passes through the brush roll below, brush anticorrosive paint, start-up pneumatic cylinder 53 can rise or fall down second rail 55, can interrupt the flowing water process at any time, prevents that the defective products from flowing into next link.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed.

Claims (3)

1. An intelligent water-flowing type production device for glass fiber reinforced plastic anchor rods comprises assembly line supports (1) distributed in a mirror image manner, and is characterized in that the assembly line supports (1) distributed in the mirror image manner are also distributed in an array manner, one side of one assembly line support (1) is provided with a wind power dust removal device (3), two sides of the assembly line support (1) are also provided with side surface cleaning devices (4) distributed in the mirror image manner, and an interruption device (5) is also arranged between the assembly line supports (1) distributed in the mirror image manner;

the assembly line support (1) comprises first support columns (11) distributed in an array manner, first fixing bottom plates (12) are arranged at the lower ends of the first support columns (11), first positioning holes (121) are formed in the first fixing bottom plates, first transverse steel columns (14) are jointly arranged at the upper ends of the first support columns (11), inclined support rods (13) distributed in a mirror image manner are arranged on one sides of the first support columns (11), first steel rails (15) are arranged on the first transverse steel columns (14), second positioning holes (16) distributed in an array manner are formed in the first steel rails (15), first rotating rods (2) are arranged in the second positioning holes (16), and first rolling rods (21) are arranged on the first rotating rods (2);

the interruption device (5) comprises third supporting columns (51) distributed in an array manner, third fixed bottom plates (511) are arranged at the lower ends of the third supporting columns (51), fifth positioning holes (5111) are formed in the third fixed bottom plates (511), a platform erecting rod (512) is arranged on one side of each third supporting column (51), array distribution gaskets (513) are arranged on the platform erecting rods (512), third transverse steel columns (52) are jointly arranged among the third supporting columns (51), a first hydraulic cylinder connecting block (521) is arranged on one side of each third transverse steel column (52), hydraulic cylinder connecting pins (522) are arranged on the first hydraulic cylinder connecting block (521), second hydraulic cylinder connecting blocks (531) are arranged at the lower ends of the hydraulic cylinders (53), hydraulic cylinder connecting holes (532) are arranged on the second hydraulic cylinder connecting blocks (531), connecting steel bars (523) are arranged among the third transverse steel columns (52), connecting plates (524) distributed in a mirror image manner are arranged on two sides of, be equipped with pivot (525) on connecting plate (524), be equipped with second rail (55) on pivot (525), be equipped with sixth locating hole (551) of array distribution on second rail (55), be equipped with second bull stick (54) in sixth locating hole (551), be equipped with second hob (541) on second bull stick (54), be equipped with piston rod (533) on pneumatic cylinder (53), still be equipped with piston rod connecting block (552) on second rail (55), be equipped with connector (534) on piston rod (533), connector (534) top is connected through piston rod connecting block (552) in second rail (55), still be equipped with pivot connecting block (553) on second rail (55), be equipped with second bearing hole (554) on pivot connecting block (553), second rail (55) one side still is equipped with steel block (555), be equipped with seventh locating hole (556) on steel block (555).

2. The intelligent glass fiber reinforced plastic anchor rod flow production device according to claim 1, wherein the wind dust removal device (3) comprises a first platform plate (31) fixed on one side of the first transverse steel column (14), the first platform plate (31) is provided with inclined support plates (32) distributed in an array manner, the inclined support plates (32) are provided with first air pipe grooves (321) and second air pipe grooves (322), the inclined support plates (32) are jointly provided with a compressed air machine platform (33), the compressed air machine platform (33) is provided with first mounting holes (331) distributed in an array manner, the compressed air machine platform (33) is provided with a compressed air machine (34), the compressed air machine (34) is provided with second mounting holes (343) distributed in an array manner, one side of the compressed air machine (34) is provided with first air pipes (341) and second air pipes (342), and the compressed air machine (34) passes through the lower end of the compressed air machine platform (33) and is provided with third air pipes (344), the third air pipe (344) is provided with an air jet pipe (345).

3. The intelligent glass fiber reinforced plastic anchor rod flow production device according to claim 1, wherein the side cleaning device (4) comprises second support columns (41) distributed in an array manner, the lower ends of the second support columns (41) are respectively provided with a second fixed bottom plate (411), the second fixed bottom plates (411) are respectively provided with third positioning holes (4111) distributed in an array manner, the second support columns (41) are respectively and jointly provided with a second transverse steel column (412), the second transverse steel columns (412) are respectively and jointly provided with a second flat platform plate (42), the central position of the second flat platform plate (42) is provided with a fourth positioning hole (421), the periphery of the fourth positioning hole (421) is provided with third mounting holes (422) distributed in an axial array manner, the second flat platform plate (42) is provided with first air cylinders (43) distributed in an array manner, the lower end of the second flat platform plate (42) is provided with a second air cylinder (45), the second air cylinder (45) is provided with a second, the lower end of the first air cylinder (43) is provided with fourth mounting holes (431) distributed in an axial array manner, the first air cylinder (43) is provided with a first telescopic rod (432), the top end of the first telescopic rod (432) is provided with an upper mounting block (433), the upper mounting block (433) is provided with a third platform plate (44) together, the second telescopic rod (451) is fixed at the lower end of the third platform plate (44), the third platform plate (44) is provided with fifth mounting holes (441) distributed in an axial array manner, the third platform plate (44) is provided with fixed rails (442) distributed in an array manner, the fixed rails (442) are provided with slide rails (4421), the slide rails (4421) are provided with slide blocks (443) distributed in an array manner, the slide blocks (443) are provided with a fourth platform plate (47) together, one side of the third platform plate (44) is further provided with a third air cylinder (46), the third air cylinder (46), the third telescopic rod (461) is propped against one side of a fourth platform plate (47), a servo motor (48) is arranged on the fourth platform plate (47), a motor fixing plate (49) is arranged on one side of the servo motor (48), a driving shaft (481) penetrating through the motor fixing plate (49) is further arranged on the servo motor (48), a connecting shaft (482) is arranged on the driving shaft (481), an extension rod (483) is arranged on the connecting shaft (482), an installing head (484) is arranged at the top end of the extension rod (483), extension rod fixing tables (491) distributed in an array manner are arranged on one side of the motor fixing plate (49), first bearing holes (492) are arranged on the extension rod fixing tables (491), first installing screws (493) are arranged on the extension rod fixing tables (491), height pads (494) are arranged at the lower ends of the extension rod fixing tables (491), auxiliary motor fixing plates (495) distributed in an array, an auxiliary fixing block (496) is arranged between the auxiliary motor fixing plates (495), and second mounting screws (497) distributed in an array are arranged on the auxiliary fixing block (496).

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