CN112974086A

CN112974086A - Efficient steel pipe painting device for building scaffold

Info

Publication number: CN112974086A
Application number: CN202110201338.3A
Authority: CN
Inventors: 司友锋
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-02-23
Filing date: 2021-02-23
Publication date: 2021-06-18

Abstract

The invention discloses a high-efficiency steel pipe painting device for a building scaffold, which relates to the technical field of painting of steel pipes of building scaffolds and comprises a material storage mechanism, a feeding mechanism, a painting mechanism and a discharging mechanism, wherein the feeding mechanism is arranged at one end of the material storage mechanism, the painting mechanism is arranged at one end of the feeding mechanism, and the discharging mechanism is arranged at one end of the painting mechanism; the material storage mechanism comprises a baffle plate, a side plate, a lifting platform, a material guide inclined plane and a material storage cavity, wherein the material storage cavity is arranged between the material guide platform and the baffle plate; not only can the labor cost be reduced, the paint coating can be more uniformly coated, and the paint coating efficiency is improved; in addition, a large area of field is not needed for airing and drying, so that the field cost is reduced; meanwhile, the steel pipe coated with the paint can be quickly dried, so that the drying time is greatly reduced.

Description

Efficient steel pipe painting device for building scaffold

Technical Field

The invention relates to the technical field of steel pipe painting of building scaffolds, in particular to a high-efficiency steel pipe painting device for a building scaffold.

Background

The scaffold is the work platform who sets up in order to guarantee that each work progress goes on smoothly, can divide into wood scaffold according to the material difference, bamboo scaffold, steel pipe scaffold, wherein steel pipe scaffold is the most extensive one kind of pipe of scaffold application in modern building construction, the steel pipe that steel pipe scaffold used is circular steel pipe mostly, after using a period, the steel pipe that steel pipe scaffold used can rust, will lead to the steel pipe harm in the past time, and the service life is reduced, at this moment, just need change the steel pipe, in order to reduce the number of times that the steel pipe was changed, reduce steel pipe scaffold cost, some steel pipe producers all can scribble one deck anti-rust paint for the steel pipe, and the service life of steel pipe is prolonged.

However, analysis shows that most of the prior art for painting the steel pipe with the antirust paint coating is painting the paint coating manually, which not only increases labor cost, causes uneven painting of the paint coating and reduces painting efficiency, but also needs a large area of field for drying after painting the paint coating on the steel pipe, increases field cost, and takes a certain time to dry and dry the steel pipe.

Disclosure of Invention

Therefore, in order to solve the defects, the invention provides the efficient steel pipe painting device for the building scaffold, which can reduce the labor cost, ensure that the paint coating is more uniform, and improve the paint coating efficiency; in addition, a large area of field is not needed for airing and drying, so that the field cost is reduced; meanwhile, the steel pipe coated with the paint can be quickly dried, so that the drying time is greatly reduced.

The invention is realized in such a way that a high-efficiency steel pipe painting device for a building scaffold is constructed, and the device comprises a material storage mechanism, a feeding mechanism, a painting mechanism and a discharging mechanism, wherein the feeding mechanism is arranged at one end of the material storage mechanism, the painting mechanism is arranged at one end of the feeding mechanism, and the discharging mechanism is arranged at one end of the painting mechanism; the material storage mechanism comprises a baffle plate, a side plate, a lifting platform, a material guide inclined plane and a material storage cavity, wherein the material storage cavity is arranged between the material guide platform and the baffle plate; the feeding mechanism comprises a supporting seat and a belt conveyor, and the belt conveyor is arranged on the top of the supporting seat; the device comprises a painting mechanism, a drying cylinder, a transmission roller assembly, a through hole, a turnover door, a support bar, a painting box, a painting assembly, a transmission roller assembly, a viewing door, a transmission roller assembly and a control device, wherein the through hole is formed in the two ends of the painting mechanism; discharge mechanism includes ejection of compact frame, belt feeder A, bracing piece and spacing groove, and belt feeder A installs in ejection of compact frame inboard, and belt feeder A one end is located to the bracing piece, and the spacing groove is seted up at the bracing piece top.

Furthermore, the lifting platform comprises a hydraulic rod and a supporting plate, and the supporting plate is arranged at the bottom of the hydraulic rod; the hydraulic stem passes through outside hydraulic system control, transports the steel pipe of certain specification to the backup pad top of the inside elevating platform of storage cavity through external equipment, then rises suitable height through outside hydraulic system control hydraulic stem, pushes away the steel pipe to storage cavity top position, and is less than the curb plate top edge, then the workman rolls along the stock guide platform through promoting the steel pipe that will rise, then rolls to feeding mechanism department along the stock guide inclined plane.

Further, one side of the top of the supporting seat is provided with a rubber cushion plate; the belt feeder is installed in support seat portion depressed place, and is spacing to the steel pipe through sunken, when the steel pipe rolls to feeding mechanism department, the steel pipe can collide feeding mechanism one side inclined plane earlier, then rolls to the belt feeder top again, then passes the through-hole through belt feeder conveying steel pipe and gets into inside the japanning mechanism, because feeding mechanism one side inclined plane department is equipped with the rubber tie plate, through the buffering of rubber tie plate, prevents that steel pipe collision feeding mechanism one side from producing and colliding with.

Further, the painting box comprises a painting storage bin, a bearing bin, a hollow through bin, a brake bin, a paint spraying pump, a painting sprayer and a feeding hole, wherein the brake bin is arranged at one end of the painting storage bin; the feeding sucking disc intercommunication storage paint storehouse of pump one side sprays paint, and the spraying union coupling of the pump opposite side of spraying paint shower nozzle of spraying paint switches on the pump external power that sprays paint, and the pump that sprays paint will store up the inside paint coating extraction in paint storehouse through the feeding sucking disc and send to the spraying paint shower nozzle department through spraying the material pipe, then spout through the spraying paint shower nozzle of spraying paint, can accept through accepting the storehouse and collect unnecessary paint coating.

Furthermore, the smearing component comprises an outer protecting shell, a smearing cylinder, a brake motor, a gear, a protecting cover and external teeth, the protecting cover is installed at the top of the outer protecting shell, the smearing cylinder is installed inside the outer protecting shell through a bearing, the brake motor is installed inside the protecting cover, the gear is installed at one end of an output shaft of the brake motor, the output shaft of the brake motor penetrates through the gear and is installed on the inner wall of one end of the protecting cover through the bearing, and the external teeth are arranged on the outer; the gear and the external teeth are meshed with each other, an external power supply of the brake motor is switched on, and the brake motor operates to drive the gear to rotate and mesh with the external teeth to push the smearing cylinder to rotate.

Further, the inner side of the other end of the smearing cylinder is provided with a smearing hairbrush; the top of one end of the outer protecting shell is provided with a braking through groove, and the bottom of one end of the outer protecting shell is provided with a dripping outlet; one end of the smearing brush extends out of the smearing cylinder part and is positioned at the bottom of the painting nozzle, when the gear is driven to rotate by the operation of the brake motor and is meshed with the outer teeth to push the smearing cylinder to rotate, the smearing cylinder drives the smearing brush to rotate, and the smearing brush rotates to smear on the steel pipe sprayed with the paint in a rotating mode, so that the paint is smeared more uniformly; the gear passes outer protective housing and the meshing through braking logical groove, through the drip material export, is convenient for leak to accepting the storehouse and collect from the lacquer coating that the steel pipe surface drips.

Further, the drying cylinder includes drying channel, drying assembly and the logical groove that drips, and drying assembly installs in drying channel inboard, and the logical groove that drips is seted up in drying channel bottom, and the steel pipe of having been convenient for go up lacquer coating through drying channel passes, and the steel pipe passes the lacquer coating drying on steel pipe surface through drying assembly when drying channel, and when the steel pipe just got into drying channel, the lacquer coating that probably drips on steel pipe surface passed the logical groove that drips after dripping and got into and accept the storehouse.

Furthermore, the drying component comprises an electric fan, a frame and an electric heating tube, wherein the frame is arranged at one end of the electric fan, and the electric heating tube is arranged at the inner side of the frame; the electric heating tube is connected with an external power supply of the electric fan, then the external power supply of the electric heating tube is connected, the electric heating tube generates heat, then the electric fan blows the heat generated by the heating of the electric heating tube to the surface of the steel tube coated with the paint coating, the paint coating on the surface of the steel tube is dried, and the paint coating is convenient to dry quickly.

Furthermore, the inner side of the limiting groove is provided with a slope; the bracing piece is rubber products, and the steel pipe of painting coating is seen off to the inside belt feeder A top of ejection of compact frame from the through-hole of painting mechanism one end, then send to the spacing groove at bracing piece top through belt feeder A on, then roll to bracing piece one end through the slope, and the staff of being convenient for moves up.

Further, the conduction roller assembly comprises a groove, a conduction roller A, an externally hung box, a brake motor A, a conduction roller B and gears A, wherein the brake motor A is installed in the externally hung box, the externally hung box is installed on the outer side of the painting mechanism, one end of each of the conduction roller A and the conduction roller B is connected to the side wall of one side in the painting mechanism through a bearing, the gears A are respectively installed at the other ends of the conduction roller A and the conduction roller B, the two groups of gears A are mutually meshed, the end of the transmission roller B provided with the gear A further passes through the gear A and is connected with the other side wall in the painting mechanism through a bearing, the end of the transmission roller A provided with the gear A passes through the gear A, the penetrating part of the roller A penetrates through the side wall of the other side of the painting mechanism through a bearing to enter the externally hung box, the part of the roller A entering the externally hung box is connected to one end of an output shaft of a brake motor A through a coupling, and grooves are formed in the surfaces of the roller A and the roller B;

the conduction roller assemblies are three groups, the structure principle of the three groups of conduction roller assemblies is consistent, each group of conduction roller assemblies is provided with four conduction rollers, the four conduction rollers are divided into two pairs, one pair is a conduction roller A, the other pair is a conduction roller B, only one conduction roller in the pair of conduction rollers A is provided with a gear A and is connected with a brake motor A, only one conduction roller in the pair of conduction rollers B is provided with the gear A, and the surface of the groove is wrapped with a cotton pad;

when the belt conveyor conveying steel pipe passes through the through hole and enters the interior of the painting mechanism, one end of the steel pipe firstly penetrates into the groove between the conduction roller A and the conduction roller B in the conduction roller assembly near the through hole at one end of the painting mechanism, then the external power supply of the brake motor A is switched on, the conduction roller A provided with the gear A is driven to rotate by the brake motor A, meanwhile, the gear A is driven to rotate by the conduction roller A, the gear A driven to rotate by the installation of one end of the conduction roller B is driven to rotate by the gear A, the conduction roller B is driven to rotate by the rotation of the gear A, at the moment, the conduction roller A and the conduction roller B are meshed with each other to rotate to drive one.

The invention has the following specific advantages:

the method has the advantages that: one end of a steel pipe penetrates through a feeding hole to enter the interior of a painting box, a paint spraying pump and an external power supply of a brake motor are switched on, the brake motor operates to drive a gear to rotate and engage with an external gear to push a painting barrel to rotate, the painting barrel drives a painting brush to rotate, after the power supply of the paint spraying pump is switched on, paint in a paint storage bin is extracted by the paint spraying pump through a feeding sucker and is sent to a painting nozzle through a spraying pipe, then the paint is sprayed out through the painting nozzle, at the moment, one part of paint is sprayed at one end of the painting brush, the other part of paint is directly sprayed at the top of the steel pipe, the redundant paint directly drops along the surface of the steel pipe to the interior of a bearing bin to be collected, at the moment, the steel pipe is continuously driven to move continuously through conduction of a roller assembly, at the moment, the steel pipe sprayed with the paint enters, manual smearing is not needed, and labor cost is reduced.

The method has the advantages that: the drying component comprises an electric fan, a frame and an electric heating tube, wherein the frame is arranged at one end of the electric fan, and the electric heating tube is arranged at the inner side of the frame; after the steel pipe coated with the paint enters the drying cylinder, the external power supply of the electric fan is connected, then the external power supply of the electric heating tube is connected, the electric heating tube generates heat, then the electric fan blows the heat generated by the heating of the electric heating tube to the surface of the steel pipe coated with the paint, the paint on the surface of the steel pipe is dried, and the paint is dried quickly.

The method has the advantages that: the electric fan and the electric heating pipe in the drying assembly are used for drying, a large-area field does not need to be used for drying, and the field cost is greatly reduced.

Drawings

FIG. 1 is a schematic structural view of an efficient steel pipe painting device for a construction scaffold according to the present invention;

FIG. 2 is a schematic view of the storage mechanism of the present invention;

FIG. 3 is a schematic view of the lift table of the present invention;

FIG. 4 is a schematic view of the painting mechanism of the present invention;

FIG. 5 is a schematic view of the painting case of the present invention;

FIG. 6 is a schematic view AA of the painting box of the present invention in the direction A-A;

FIG. 7 is a schematic view of the C-C directional structure of the painting box of the present invention;

FIG. 8 is a schematic view of the applicator assembly of the present invention;

FIG. 9 is a schematic view of the structure of the application brush of the present invention;

FIG. 10 is a schematic view of a dryer cartridge according to the present invention;

FIG. 11 is a schematic view BB of the present invention in the direction of FIG. 10B-B;

FIG. 12 is a schematic view of the drying assembly of the present invention;

FIG. 13 is a schematic view of a conductive roller assembly configuration of the present invention;

FIG. 14 is a schematic view of the construction of a retaining channel member of the present invention;

fig. 15 is an end view of the feed mechanism of the present invention.

The figure illustrates the format: the storage mechanism 1, the feeding mechanism 2, the painting mechanism 3, the discharging mechanism 4, the baffle 11, the side plate 12, the lifting table 13, the guide table 14, the guide slope 15, the storage chamber 16, the hydraulic rod 131, the support plate 132, the support base 21, the belt conveyor 22, the rubber backing plate 211, the through hole 31, the painting box 32, the painting component 33, the drying cylinder 34, the flap door 35, the support strip 36, the conduction roller component 37, the viewing door 38, the paint storage cabin 321, the receiving cabin 322, the hollow through cabin 323, the braking cabin 324, the paint spraying pump 325, the painting nozzle 326, the feed inlet 327, the outer protective shell 331, the painting cylinder 332, the brake motor 333, the gear 334, the protective cover 335, the outer teeth 336, the drip outlet 3311, the brake through groove 3312, the painting brush 3321, the drying channel 341, the drying component 342, the drip through groove 343, the electric fan 3421, the frame 3422, the electric heating pipe 3423, the groove, the conduction roller A372, the outer hanging box 373, the brake, Gear A376, discharge frame 41, belt conveyor A42, support rod 43, spacing groove 44 and slope 441.

Detailed Description

The present invention will be described in detail below with reference to the attached drawings, and the technical solutions in the embodiments of the present invention will be clearly and completely described. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments of the present invention without any creative effort belong to the protection scope of the present invention; furthermore, the terms "first," "second," "third," "upper, lower, left, right," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. Meanwhile, in the description of the present invention, unless otherwise explicitly specified or limited, the terms "connected" and "connected" should be interpreted broadly, for example, as being fixedly connected, detachably connected, or integrally connected; the connection can be mechanical connection or electrical connection; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The invention provides a high-efficiency steel pipe painting device for a building scaffold by improvement, which can be implemented as follows as shown in the attached drawings of the specification; the automatic painting device comprises a material storage mechanism 1, a feeding mechanism 2, a painting mechanism 3 and a discharging mechanism 4, wherein the feeding mechanism 2 is installed at one end of the material storage mechanism 1, the painting mechanism 3 is arranged at one end of the feeding mechanism 2, and the discharging mechanism 4 is installed at one end of the painting mechanism 3; the material storage mechanism 1 comprises a baffle plate 11, a side plate 12, a lifting platform 13, a material guide platform 14, a material guide inclined plane 15 and a material storage cavity 16, wherein the material storage cavity 16 is arranged between the material guide platform 14 and the baffle plate 11, the side plate 12 is arranged at two ends of the material guide platform 14 and the baffle plate 11, the lifting platform 13 is arranged in the material storage cavity 16, and the material guide inclined plane 15 is arranged at one side of the material guide platform 14; the feeding mechanism 2 comprises a supporting seat 21 and a belt conveyor 22, and the belt conveyor 22 is arranged on the top of the supporting seat 21; through holes 31 are formed in two ends of the painting mechanism 3, a turnover door 35 is installed at the top of the painting mechanism 3, a support bar 36 is arranged at the bottom of one side of the turnover door 35, a painting box 32 is installed inside the painting mechanism 3, a painting assembly 33 is installed in the middle of one end of the painting box 32, a drying cylinder 34 is installed at one end of the painting assembly 33, a conduction roller assembly 37 is installed inside the painting mechanism 3 and located on one side of the through holes 31 and one end of the drying cylinder 34, and a viewing door 38 is arranged at the position, close to the bottom, of the outer side of; the discharging mechanism 4 comprises a discharging frame 41, a belt conveyor A42, a supporting rod 43 and a limiting groove 44, wherein the belt conveyor A42 is installed on the inner side of the discharging frame 41, the supporting rod 43 is arranged at one end of the belt conveyor A42, and the limiting groove 44 is formed in the top of the supporting rod 43;

it should be noted that the viewing door 38 is located at the side of the conduction roller assembly 37 at one end of the drying cylinder 34 and at the top of the receiving chamber 322 at the bottom of the painting box 32, and that opening the viewing door 38 facilitates the viewing of the amount of paint dripping received in the receiving chamber 322, and opening the viewing door 38 facilitates the timely cleaning of the paint dripping received in the receiving chamber 322.

As shown in fig. 2 to 3, the elevating platform 13 includes a hydraulic rod 131 and a support plate 132, the support plate 132 being installed at the bottom of the hydraulic rod 131; the hydraulic rod 131 is controlled by an external hydraulic system, steel pipes with certain specifications are conveyed to the top of the supporting plate 132 of the lifting platform 13 in the material storage chamber 16 through external equipment, then the hydraulic rod 131 is controlled by the external hydraulic system to rise by a proper height, the steel pipes are pushed to the top of the material storage chamber 16 and are lower than the top edge of the side plate 12, and then workers push the rising steel pipes to roll along the material guide table 14 and then roll along the material guide inclined plane 15 to the feeding mechanism 2;

it should be noted that the length of the steel pipe is slightly shorter than that of the painting mechanism 3, and the lengths of the storage mechanism 1, the feeding mechanism 2, the painting mechanism 3 and the discharging mechanism 4 are consistent.

As shown in fig. 15, a rubber pad 211 is disposed on one side of the top of the support base 21; belt feeder 22 installs in 21 portions of supporting seat depressed places, it is spacing to the steel pipe through sunken, when the steel pipe rolls to feeding mechanism 2 departments, the steel pipe can collide 2 one side inclined planes of feeding mechanism earlier, then roll to belt feeder 22 top again, then pass through-hole 31 entering painting mechanism 3 inside through belt feeder 22 conveying steel pipe, because 2 one side inclined planes of feeding mechanism department are equipped with rubber tie plate 211, cushion through rubber tie plate 211, prevent that the steel pipe from colliding 2 one sides of feeding mechanism and producing and colliding with.

As shown in fig. 5-7, the painting box 32 includes a paint storage bin 321, a receiving bin 322, a hollow through bin 323, a brake bin 324, a paint spraying pump 325, a painting sprayer 326 and a feeding port 327, the brake bin 324 is disposed at one end of the paint storage bin 321, the paint spraying pump 325 is mounted inside the brake bin 324, the hollow through bin 323 is disposed at the bottom of the paint storage bin 321, the painting sprayer 326 is mounted at the bottom of the other end of the paint storage bin 321, the receiving bin 322 is disposed at the bottom of the hollow through bin 323, and the feeding port 327 is disposed at one end of the hollow through bin 323; the feeding suction disc on one side of the paint spraying pump 325 is communicated with the paint storage bin 321, the paint spraying pipe on the other side of the paint spraying pump 325 is connected with the painting spray head 326, an external power supply of the paint spraying pump 325 is connected, paint coating inside the paint storage bin 321 is extracted by the paint spraying pump 325 through the feeding suction disc and is sent to the painting spray head 326 through the paint spraying pipe, then the paint coating is sprayed out through the painting spray head 326, and redundant paint coating can be collected through the collection bin 322.

As shown in fig. 8-9, the smearing component 33 includes an outer casing 331, a smearing cylinder 332, a braking motor 333, a gear 334, a mask 335 and external teeth 336, the mask 335 is mounted on top of the outer casing 331, the smearing cylinder 332 is mounted inside the outer casing 331 through a bearing, the braking motor 333 is mounted inside the mask 335, the gear 334 is mounted at one end of an output shaft of the braking motor 333, the output shaft of the braking motor 333 passes through the gear 334 and is mounted on an inner wall of one end of the mask 335 through a bearing, and the external teeth 336 are disposed outside one end of the smearing cylinder 332; the gear 334 and the outer teeth 336 are meshed with each other, the external power supply of the brake motor 333 is switched on, and the brake motor 333 operates to drive the gear 334 to rotate and be meshed with the outer teeth 336 to push the smearing cylinder 332 to rotate.

As shown in fig. 2-3, the inner side of the other end of the applying cylinder 332 is provided with an applying brush 3321; a braking through groove 3312 is formed at the top of one end of the outer casing 331, and a dripping outlet 3311 is formed at the bottom of one end of the outer casing 331; one end of the painting brush 3321 extends out of the painting cylinder 332 and is partially positioned at the bottom of the painting nozzle 326, when the braking motor 333 operates to drive the gear 334 to rotate and engage with the external teeth 336 to push the painting cylinder 332 to rotate, the painting cylinder 332 drives the painting brush 3321 to rotate, and the painting brush 3321 rotates to paint on a steel pipe sprayed with paint in a rotating manner, so that the paint is more uniformly painted; the gear 334 passes through the outer casing 331 through the braking through groove 3312 to be engaged with the outer teeth 336, and is convenient for leaking paint dropped from the surface of the steel pipe to the receiving bin 322 through the dropping outlet 3311 for collection.

As shown in fig. 4 and fig. 8 to 12, the drying cylinder 34 includes a drying passage 341, a drying assembly 342, and a dropping through groove 343, the drying assembly 342 is installed inside the drying passage 341, the dropping through groove 343 is opened at the bottom of the drying passage 341, a steel pipe which has been painted with paint can pass through the drying passage 341 conveniently, the paint on the surface of the steel pipe is dried by the drying assembly 342 when the steel pipe passes through the drying passage 341, and the paint which may drop on the surface of the steel pipe when the steel pipe just enters the drying passage 341 passes through the dropping through groove 343 and enters the receiving chamber 322 after dropping.

As shown in fig. 12, the drying module 342 includes a fan 3421, a frame 3422 and an electric heating tube 3423, the frame 3422 is installed at one end of the fan 3421, and the electric heating tube 3423 is installed inside the frame 3422; the external power supply of the electric fan 3421 is connected, then the external power supply of the electric heating tube 3423 is connected, the electric heating tube 3423 generates heat, then the electric fan 3421 blows the heat generated by the electric heating tube 3423 to the surface of the steel pipe coated with the paint, and the paint on the surface of the steel pipe is dried by blowing, so that the paint can be dried quickly.

As shown in fig. 14, a slope 441 is provided inside the stopper groove 44; the supporting rod 43 is made of rubber, the steel pipe coated with paint is sent out from the through hole 31 at one end of the painting mechanism 3 to the top of the belt conveyor A42 inside the discharging frame 41, then is sent to the limiting groove 44 at the top of the supporting rod 43 through the belt conveyor A42, and then rolls to one end of the supporting rod 43 through the slope 441, so that a worker can conveniently carry the steel pipe.

As shown in fig. 4 and 13, the conduction roller assembly 37 includes a groove 371, a conduction roller a372, a plug-in box 373, a brake motor a374, a conduction roller B375 and a gear a376, the brake motor a374 is installed inside the plug-in box 373, the plug-in box 373 is installed outside the painting mechanism 3, one end of the conduction roller a372 and the conduction roller B375 is connected to one side wall inside the painting mechanism 3 through a bearing, the other end of the conduction roller a372 and the conduction roller B375 is respectively installed with the gear a376, the two sets of gears a376 are engaged with each other, and the end of the conduction roller B375 where the gear a376 is installed is further connected to the other side wall inside the painting mechanism 3 through the gear a376 through a bearing, the end of the conduction roller a372 where the gear a376 is installed passes through the gear a376, the penetrating portion thereof further passes through the other side wall of the painting mechanism 373 through a bearing into the plug-in box 373, and the conduction roller a372 entering the plug-in box, the surfaces of the conduction roller A372 and the conduction roller B375 are provided with grooves 371;

the conduction roller assemblies 37 are provided with three groups, the three groups of conduction roller assemblies 37 are consistent in structure principle, each group of conduction roller assembly 37 is provided with four conduction rollers, the four conduction rollers are divided into two pairs, one pair is a conduction roller A372, the other pair is a conduction roller B375, only one conduction roller in one pair of conduction rollers A372 is provided with a gear A376 and a connecting brake motor A374, only one conduction roller in one pair of conduction rollers B375 is provided with a gear A376, and the surface of the groove 371 is wrapped with a cotton pad;

when the belt conveyor 22 conveys a steel pipe to pass through the through hole 31 to enter the painting mechanism 3, one end of the steel pipe firstly penetrates into the groove 371 between the conduction roller A372 and the conduction roller B375 in the conduction roller assembly 37 near the through hole 31 at one end of the painting mechanism 3, then the external power supply of the brake motor A374 is switched on, the conduction roller A372 provided with the gear A376 is driven to rotate by the brake motor A374, meanwhile, the gear A376 is driven to rotate by the conduction roller A372, at the moment, the gear A376 rotates to drive the gear A376 arranged at one end of the conduction roller B375 to rotate, the conduction roller B375 rotates by the gear A376, at the moment, the conduction roller A372 and the conduction roller B375 are meshed with each other to rotate to drive one end of the steel pipe to pass through the feed.

The working principle of the high-efficiency steel pipe painting device for the building scaffold is as follows: the method comprises the following steps that a worker conveys a steel pipe with a certain specification to the top of a supporting plate 132 of a lifting platform 13 in a material storage cavity 16 through external equipment, then controls a hydraulic rod 131 to rise to a proper height through an external hydraulic system, pushes the steel pipe to the top of the material storage cavity 16 and is lower than the top edge of a side plate 12, then pushes the lifted steel pipe to roll along a material guide platform 14 by the worker, and then rolls along a material guide inclined plane 15 to a feeding mechanism 2, when the steel pipe rolls to the feeding mechanism 2, the steel pipe collides with an inclined plane on one side of the feeding mechanism 2 firstly and then rolls to the top of a belt conveyor 22, and then the steel pipe is conveyed through a through hole 31 through the belt conveyor 22 to enter the painting mechanism 3;

when the belt conveyor 22 conveys a steel pipe to pass through the through hole 31 and enter the painting mechanism 3, one end of the steel pipe firstly penetrates into a groove 371 between a conduction roller A372 and a conduction roller B375 in a conduction roller assembly 37 near the through hole 31 at one end of the painting mechanism 3, then an external power supply of a brake motor A374 is switched on, the conduction roller A372 provided with a gear A376 is driven to rotate by the brake motor A374, meanwhile, the gear A376 is driven to rotate by the conduction roller A372, the gear A376 rotates to drive the gear A376 arranged at one end of the conduction roller B375 to rotate, the conduction roller A372 and the conduction roller B375 rotate in a mutually meshed mode to drive one end of the steel pipe to pass through the feed port 327 and enter the painting box 32;

one end of the steel pipe passes through the feed port 327 and enters the interior of the painting box 32, then the external power supply of the painting pump 325 and the brake motor 333 is connected, then the external power supply of the electric fan 3421 and the electric heating tube 3423 is connected, when the brake motor 333 operates to drive the gear 334 to rotate and engage with the external teeth 336 to push the painting cylinder 332 to rotate, the painting cylinder 332 drives the painting brush 3321 to rotate, after the power supply of the painting pump 325 is connected, the painting pump 325 extracts the paint in the paint storage bin 321 through the feeding suction cup and sends the paint to the painting nozzle 326 through the paint spraying pipe, and then the paint is sprayed out through the painting nozzle 326, at this time, one part of the paint is sprayed at one end of the painting brush 3321, the other part of the paint is directly sprayed at the top of the steel pipe, the surplus paint directly drops into the receiving bin 322 to be collected, at this time, the steel pipe continues to drive the interior of the painting box 32 to continue moving through the, meanwhile, the paint coating is uniformly coated outside the steel pipe by the rotating coating brush 3321, then the steel pipe is driven by the conduction roller assembly 37 to move upwards into the paint box 32 and pass through the coating cylinder 332 to enter the drying cylinder 34, at the moment, the heat generated by the heating of the electric heating tube 3423 is blown to the surface of the steel pipe coated with the paint coating by the electric fan 3421, and the paint coating on the surface of the steel pipe is dried;

the steel pipe of the paint coating blow-dry part is continuously pushed to the conductive roller assembly 37 at one end of the drying cylinder 34 through the conductive roller assembly 37 near the through hole 31 at one end of the painting mechanism 3, then pushed to the conductive roller assembly 37 near the through hole 31 at the other end of the painting mechanism 3 through the conductive roller assembly 37 at one end of the drying cylinder 34, then pushed to pass through the through hole 31 at the other end of the painting mechanism 3 through the conductive roller assembly 37 near the through hole 31 at the other end of the painting mechanism 3, sent to the top of the belt conveyor A42 inside the discharging frame 41, then sent to the limiting groove 44 at the top of the supporting rod 43 through the belt conveyor A42, and then rolled to one end of the supporting rod 43 through.

In conclusion; the efficient steel pipe painting device for the building scaffold can reduce labor cost, paint the paint more uniformly, and improve paint coating efficiency; in addition, a large area of field is not needed for airing and drying, so that the field cost is reduced; meanwhile, the steel pipe coated with the paint can be quickly dried, so that the drying time is greatly reduced.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims

1. The utility model provides a high-efficient painting device of steel pipe for building scaffold which characterized in that: the automatic painting device comprises a material storage mechanism (1), a feeding mechanism (2), a painting mechanism (3) and a discharging mechanism (4), wherein the feeding mechanism (2) is installed at one end of the material storage mechanism (1), the painting mechanism (3) is arranged at one end of the feeding mechanism (2), and the discharging mechanism (4) is installed at one end of the painting mechanism (3); the material storage mechanism (1) comprises a baffle (11), a side plate (12), a lifting platform (13), a material guide platform (14), a material guide inclined plane (15) and a material storage cavity (16), wherein the material storage cavity (16) is arranged between the material guide platform (14) and the baffle (11), the side plate (12) is arranged at two ends of the material guide platform (14) and the baffle (11), the lifting platform (13) is arranged in the material storage cavity (16), and the material guide inclined plane (15) is arranged at one side of the material guide platform (14); the feeding mechanism (2) comprises a supporting seat (21) and a belt conveyor (22), and the belt conveyor (22) is installed at the top of the supporting seat (21); through holes (31) are formed in two ends of the painting mechanism (3), a turning door (35) is installed at the top of the painting mechanism (3), a support bar (36) is arranged at the bottom of one side of the turning door (35), a painting box (32) is installed inside the painting mechanism (3), a painting component (33) is installed in the middle of one end of the painting box (32), a drying cylinder (34) is installed at one end of the painting component (33), a conduction roller component (37) is installed at one side of each through hole (31) and one end of each drying cylinder (34) inside the painting mechanism (3), and a viewing door (38) is arranged at the outer side of the painting mechanism (3) by the bottom position; discharge mechanism (4) are including ejection of compact frame (41), belt feeder A (42), bracing piece (43) and spacing groove (44), belt feeder A (42) install in ejection of compact frame (41) are inboard, belt feeder A (42) one end is located in bracing piece (43), spacing groove (44) are seted up at bracing piece (43) top.

2. The efficient steel pipe painting device for the building scaffold as claimed in claim 1, wherein: the lifting platform (13) comprises a hydraulic rod (131) and a supporting plate (132), and the supporting plate (132) is installed at the bottom of the hydraulic rod (131).

3. The efficient steel pipe painting device for the building scaffold as claimed in claim 1, wherein: and a rubber cushion plate (211) is arranged on one side of the top of the supporting seat (21).

4. The efficient steel pipe painting device for the building scaffold as claimed in claim 1, wherein: go up paint box (32) including storing up paint storehouse (321), accept storehouse (322), cavity and lead to storehouse (323), braking storehouse (324), paint spraying pump (325), japanning shower nozzle (326) and feed inlet (327), braking storehouse (324) are located store up paint storehouse (321) one end, paint spraying pump (325) are installed inside braking storehouse (324), cavity leads to storehouse (323) and locates and store up paint storehouse (321) bottom, japanning shower nozzle (326) are installed in storing up paint storehouse (321) other end bottom, accept storehouse (322) and locate cavity and lead to storehouse (323) bottom, feed inlet (327) are seted up in cavity and are led to storehouse (323) one end.

5. The efficient steel pipe painting device for the building scaffold as claimed in claim 1, wherein: scribble subassembly (33) including outer protecting casing (331), scribble a section of thick bamboo (332), brake motor (333), gear (334), protection casing (335) and external tooth (336), protection casing (335) install in outer protecting casing (331) top, it installs inside outer protecting casing (331) through the bearing to scribble a section of thick bamboo (332), install in protection casing (335) brake motor (333), and install brake motor (333) output shaft one end gear (334), and brake motor (333) output shaft passes gear (334) and installs in protection casing (335) one end inner wall through the bearing, external tooth (336) are located and are scribbled a section of thick bamboo (332) one end outside.

6. The efficient steel pipe painting device for the building scaffold as claimed in claim 5, wherein: the inner side of the other end of the smearing cylinder (332) is provided with a smearing brush (3321); the top of one end of the outer protective shell (331) is provided with a braking through groove (3312), and the bottom of one end of the outer protective shell (331) is provided with a dripping outlet (3311).

7. The efficient steel pipe painting device for the building scaffold as claimed in claim 1, wherein: the drying cylinder (34) comprises a drying channel (341), a drying assembly (342) and a dripping through groove (343), the drying assembly (342) is installed on the inner side of the drying channel (341), and the dripping through groove (343) is opened at the bottom of the drying channel (341).

8. The efficient steel pipe painting device for the building scaffold as claimed in claim 7, wherein: the drying component (342) comprises an electric fan (3421), a frame (3422) and an electric heating tube (3423), the frame (3422) is installed at one end of the electric fan (3421), and the electric heating tube (3423) is installed at the inner side of the frame (3422).

9. The efficient steel pipe painting device for the building scaffold as claimed in claim 1, wherein: the inner side of the limiting groove (44) is provided with a slope (441).

10. The efficient steel pipe painting device for the building scaffold as claimed in claim 1, wherein: the conduction roller assembly (37) comprises a groove (371), a conduction roller A (372), an externally hung box (373), a brake motor A (374), a conduction roller B (375) and gears A (376), wherein the brake motor A (374) is installed inside the externally hung box (373), the externally hung box (373) is installed on the outer side of the painting mechanism (3), one ends of the conduction roller A (372) and the conduction roller B (375) are connected to the side wall of one side inside the painting mechanism (3) through bearings, the gears A (376) are installed at the other ends of the conduction roller A (372) and the conduction roller B (375) respectively, the two groups of gears A (376) are meshed with each other, the end of the conduction roller B (375) where the gear A (376) is installed further penetrates through the gear A (376) and is connected to the side wall of the other side inside the painting mechanism (3) through bearings, the end of the conduction roller A (372) where the gear A (376) is installed penetrates through the gear, the penetrating part of the roller A (372) penetrates through the side wall of the other side of the painting mechanism (3) to enter the hanging box (373) through a bearing, the part of the roller A (372) entering the hanging box (373) is connected to one end of an output shaft of a brake motor A (374) through a coupling, and the surfaces of the roller A (372) and the roller B (375) are provided with the grooves (371).