CN114472010A - All-round painting device of water pipe - Google Patents

Abstract

The invention relates to a painting device, in particular to an all-dimensional painting device for a water pipe. There is a need to design an all-directional painting device for water pipes, which can paint a plurality of water pipes simultaneously. The utility model provides an all-round painting device of water pipe, is including protection under casing, installation roof, support chassis, spacing and fixed guide, and protection under casing top rigid coupling has the installation roof, and protection under casing bottom rigid coupling has the support chassis, supports the anterior centre of chassis and is connected with spacing through the mode of bolt, and spacing middle part is connected with fixed guide. According to the invention, the water pipe is placed on the installation disc, the servo motor is started, so that the paint is atomized and sprayed out by the reverse rotation of the feeding valve, meanwhile, people pull the installation disc to rotate forwards, the installation disc rotates forwards to drive the water pipe to rotate forwards, the water pipe rotates forwards to the rear side of the protective bottom box, so that the feeding valve rotates backwards to spray the paint onto the water pipe, and thus, the water pipe can be painted in all directions, and a plurality of water pipes can be painted simultaneously.

Description

All-round painting device of water pipe

Technical Field

The invention relates to a painting device, in particular to an all-dimensional painting device for a water pipe.

Background

The water pipe is the pipeline that is used for supplying water, and the demand to the water pipe is great on the building site to and modern decoration water pipe all adopts the wall-buried formula construction, if the water pipe seepage with burst will bring the consequence that is difficult to compensate, so most people all can carry out the lacquer to the water pipe and protect.

Patent application CN112246533A discloses a painting device, especially relates to a building site uses water pipe painting device, provides one kind can extend water pipe life, can prevent that building site from using water pipe painting device for the building site that sharp object water pipe caused the injury. A device for painting a water pipe for a construction site, comprising: the base is provided with a bracket on one side of the top; the motor is arranged at the top of the bracket; the output shaft of the motor is provided with a first rotating shaft; the base is provided with a glue scraping mechanism at one side close to the first rotating shaft; the base is provided with the gluing mechanism on one side close to the gluing mechanism, the gluing mechanism is positioned in the gluing mechanism, and the glue collecting box is arranged, so that part of paint is scraped from the upper part of the water pipe and flows into the glue collecting box in the process that the hose drops the paint downwards, and the effect of saving the paint is achieved; through being equipped with and scrape gluey ring, automatic blade coating paint vehicle has reached the effect that reduces artifical intensity of labour. But this building site water pipe japanning device can only carry out the japanning to a water pipe at every turn, and is very inconvenient.

In order to solve the problems, the omnibearing water pipe painting device capable of painting a plurality of water pipes simultaneously is provided.

Disclosure of Invention

In order to overcome the defect that only one water pipe can be painted at a time and is very inconvenient, the invention provides the water pipe all-dimensional painting device which can paint a plurality of water pipes simultaneously.

The invention is realized by the following technical approaches:

the utility model provides an all-round painting device of water pipe, including the protection under casing, the installation roof, support the chassis, spacing, fixed guide, the positioning bottom plate, the installation disc, the material loading valve, actuating mechanism and feed liquor mechanism, protection under casing top rigid coupling has the installation roof, protection under casing bottom rigid coupling has the support chassis, the mode of passing through the bolt in the middle of supporting the chassis front portion is connected with spacing, spacing middle part is connected with fixed guide, the last rotation type of fixed guide is equipped with the positioning bottom plate, the rotation type of rotating on the positioning bottom plate is equipped with the installation disc, be equipped with the actuating mechanism who is used for providing power on the installation roof, be equipped with the feed liquor mechanism that is used for discharging into paint between actuating mechanism and the installation roof and the protection under casing, be equipped with the material loading valve that is used for spraying paint in the feed liquor mechanism.

Furthermore, the driving mechanism comprises a servo motor, a driving shaft, reversing bevel gears and a positioning vertical shaft, the rear part of the mounting top plate is connected with the servo motor in a bolt mode, the driving shaft is connected onto an output shaft of the servo motor, the positioning vertical shaft is rotatably arranged on the left side of the rear part of the mounting top plate, the lower parts of the positioning vertical shafts and the front part of the driving shaft are connected with the reversing bevel gears, and the two reversing bevel gears are meshed with each other.

Furthermore, the liquid inlet mechanism comprises a fixed bottom frame, a flow guide cylinder, hollow vertical pipes, synchronous belt components and liquid inlet flow dividing pipes, the fixed bottom frame is fixedly connected to the rear side of the outer top of the installation top plate, the hollow vertical pipes are symmetrically arranged between the protection bottom box and the rear portion of the installation top plate in a rotating mode, the synchronous belt components are connected between the upper portions of the hollow vertical pipes on the left side and the right side and the upper portions of the positioning vertical shafts, the flow guide cylinder is connected to the upper portion of each hollow vertical pipe, the liquid inlet flow dividing pipes are connected between the flow guide cylinders on the left side and the right side, and the hollow vertical pipes are fixedly connected with the feeding valves.

Furthermore, the water pipe spacing device also comprises a clamping mechanism for limiting the water pipe, the clamping mechanism comprises an anti-skid circular plate, clamping vertical plates, telescopic sleeves, positioning springs, limiting inclined rods, an assisting rolling wheel, a positioning sliding block, a first resetting guide pillar, a first resetting spring and hinged rods, the telescopic sleeves are fixedly connected in the mounting circular plate at intervals, every three telescopic sleeves form a group, the anti-skid circular plate is fixedly connected between the top ends of the three telescopic sleeves, the anti-skid circular plate is provided with the three clamping vertical plates for limiting the water pipe at intervals in a sliding manner, the three positioning springs are fixedly connected between the bottom of the anti-skid circular plate and the inside of the mounting circular plate at intervals, the positioning springs are positioned in the telescopic sleeves, the hinged rods are fixedly connected in the mounting circular plate at intervals, every three hinged rods form a group, the middle part of each hinged rod is provided with the limiting inclined rod, the assisting rolling wheel is rotatably arranged on the inner side of the limiting inclined rod, and the assisting rolling wheel is contacted with the anti-skid circular plate, the lower portion of the clamping vertical plate is fixedly connected with a first reset guide pillar, a positioning slide block is arranged on the first reset guide pillar in a sliding mode, adjacent positioning slide blocks are fixedly connected with a limiting inclined rod, a first reset spring is wound on the first reset guide pillar, one end of the first reset spring is connected with the positioning slide block, and the other end of the first reset spring is connected with the clamping vertical plate.

Further comprises a rotating mechanism for driving the positioning bottom plate to rotate, the rotating mechanism comprises a worm, a driven worm wheel and a rotating vertical shaft, the front end of the driving shaft is fixedly connected with a worm, a rotary vertical shaft for driving is rotatably arranged in the middle of the protective bottom box and is rotatably connected with an installation disc, the rotary vertical shaft is fixedly connected with a positioning bottom plate, the upper portion of the rotary vertical shaft is fixedly connected with a driven worm wheel, the driven worm wheel is meshed with the worm, four positioning guide blocks are fixedly connected in the installation disc at intervals, second resetting guide columns are fixedly connected in the positioning bottom plate at intervals, every two second resetting guide columns form a group and are connected with the positioning guide blocks in a sliding mode, second resetting springs are wound on the second resetting guide columns, one ends of the second resetting springs are connected with the positioning guide blocks, and the other ends of the second resetting springs are connected with the positioning bottom plate.

Further, the sealing device comprises a sealing mechanism for sealing the cavity, the sealing mechanism comprises a protective shield cover, a fixed gear disc, an installation cover, a first reversing short shaft, a driven bevel gear, a transmission belt assembly, a second reversing short shaft, a positioning disc with columns, a slotted vertical frame, a connecting transverse plate, a sealing baffle plate and a rubber sealing box, the protective shield cover is fixedly connected to the middle of the top of the positioning bottom plate and sleeved on the rotating vertical shaft, the fixed gear disc is connected to the middle of the positioning bottom plate in an embedded mode through bolts, the installation cover is connected to the middle of the protective bottom box through bolts, the first reversing short shaft is rotatably arranged at the lower portion of the installation cover, the driven bevel gear is fixedly connected to the middle of the first reversing short shaft and meshed with the fixed gear disc, the second reversing short shaft is rotatably arranged at the upper portion of the installation cover, and the transmission belt assembly is connected between the front portion of the second reversing short shaft and the rear portion of the first reversing short shaft, the driving belt subassembly comprises two belt pulleys and belt, a belt pulley is installed in second switching-over minor axis front portion, a belt pulley is installed in second switching-over minor axis rear portion, the belt is around between two belt pulleys, the driving belt subassembly is located the installation cover, second switching-over minor axis rear portion rigid coupling has area post location disc, protection under casing middle part slidingtype is equipped with the fluting grudging post, the fluting grudging post overlaps on area post location disc, the fluting grudging post is connected with area post location disc slidingtype, fluting grudging post lower part left and right sides all rigid couplings have the connection diaphragm, the outside mode of passing through the bolt of connection diaphragm is connected with the sealed baffle who is used for seal chamber, protection under casing upper portion left and right sides all rigid couplings have the rubber seal case, the rubber seal case is connected with sealed baffle slidingtype.

Further, the device also comprises a positioning mechanism for limiting, the positioning mechanism comprises a positioning short column, a positioning transverse plate, a third reset guide column, a third reset spring, a limiting soft rope, a guide wheel, a positioning transverse rod, a fourth reset guide column and a fourth reset spring, the upper part of the outer side surface of the sealing baffle is fixedly connected with the positioning short column, the front upper part of the left and right symmetrical part of the protective bottom box is fixedly connected with the third reset guide column, the third reset guide column is provided with the positioning transverse plate in a sliding way, the positioning short column is contacted with the positioning transverse plate, the third reset guide column is wound with the third reset spring, one end of the third reset spring is connected with the positioning transverse plate, the other end of the third reset spring is connected with the protective bottom box, the left and right sides of the front part of the supporting bottom frame are respectively provided with the guide wheels for guiding in a rotating way, the front and right sides of the front part of the supporting bottom frame are respectively and fixedly connected with the fourth reset guide columns in a front and back symmetrical way, the positioning transverse rod for limiting the positioning bottom plate is arranged between the front and back fourth reset guide columns, the positioning cross rod is contacted with the positioning bottom plate, a fourth reset spring is wound on a fourth reset guide pillar, one end of the fourth reset spring is connected with the positioning cross rod, the other end of the fourth reset spring is connected with the supporting bottom frame, a limiting soft rope is fixedly connected to the bottom of the positioning cross plate, and the tail end of the limiting soft rope is wound with a guide wheel fixedly connected with the positioning cross rod on the same side.

Further, still including being used for sealed more complete buffer gear, buffer gear is including buffering bottom plate, spacing short column and buffer spring, and the interval slidingtype of seal baffle lower part is equipped with three spacing short columns, and the rigid coupling has the buffer bottom plate that is used for the buffering between three spacing short column bottoms, and the rigid coupling has buffer spring between spacing short column top and the seal baffle is inside.

Compared with the prior art, the invention has the remarkable improvements that:

1. according to the invention, the water pipe is placed on the installation disc, the servo motor is started, so that the paint is atomized and sprayed out by the reverse rotation of the feeding valve, meanwhile, people pull the installation disc to rotate forwards, the installation disc rotates forwards to drive the water pipe to rotate forwards, the water pipe rotates forwards to the rear side of the protective bottom box, so that the feeding valve rotates backwards to spray the paint onto the water pipe, and thus, the water pipe can be painted in all directions, and a plurality of water pipes can be painted simultaneously.

2. According to the invention, under the action of the clamping mechanism, the positioning slide block moves inwards to drive the clamping vertical plate to move inwards, the first return spring plays a role in buffering, and the clamping vertical plate moves inwards to limit the water pipe, so that the water pipe can be prevented from moving during painting.

3. According to the invention, under the action of the sealing mechanism, the sealing baffle moves downwards to seal the protective bottom box, so that paint atomization and adhesion are more complete.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

FIG. 2 is a schematic view of a first partial cross-sectional structure of the present invention.

Fig. 3 is a partial sectional view of the driving mechanism of the present invention.

Fig. 4 is a schematic view of a partial cross-sectional structure of a liquid inlet mechanism of the present invention.

FIG. 5 is a second partial cross-sectional view of the present invention.

Fig. 6 is a schematic view of a first partially assembled body of the clamping mechanism of the present invention.

Fig. 7 is a schematic view of a second partially integral construction of the clamping mechanism of the present invention.

Fig. 8 is an enlarged schematic view of part a of the present invention.

Fig. 9 is a schematic view of a first partially separated body structure of the rotating mechanism of the present invention.

Fig. 10 is a schematic view of a second partial body structure of the rotating mechanism of the present invention.

Fig. 11 is a schematic view of a first partially assembled component of the sealing mechanism of the present invention.

Fig. 12 is an enlarged view of part B of the present invention.

Fig. 13 is a second partial body configuration of the sealing mechanism of the present invention.

FIG. 14 is a schematic view of a third partial cross-sectional structure of the present invention.

Fig. 15 is a partial perspective view of the positioning mechanism of the present invention.

Fig. 16 is a partial perspective view of the damper mechanism of the present invention.

The meaning of the reference symbols in the figures: 1_ protective bottom box, 2_ mounting top plate, 3_ supporting bottom frame, 4_ limiting frame, 5_ fixed guide rail, 6_ positioning bottom plate, 61_ mounting disc, 7_ feeding valve, 8_ driving mechanism, 81_ servo motor, 82_ driving shaft, 83_ reversing bevel gear, 84_ positioning vertical shaft, 9_ liquid inlet mechanism, 91_ fixed bottom frame, 92_ guide cylinder, 93_ hollow vertical pipe, 94_ synchronous belt component, 96_ liquid inlet shunt pipe, 10_ clamping mechanism, 101_ anti-slip circular plate, 102_ clamping vertical plate, 103_ telescopic sleeve, 104_ positioning spring, 105_ limiting inclined rod, 106_ auxiliary roller, 107_ positioning slide block, 108_ first reset guide column, 109_ first reset spring, 1010_ hinged rod, 11_ rotating mechanism, 111_ worm, 112_ driven worm wheel, 113_ rotating vertical shaft, 114_ positioning guide block, 115_ second reset guide column, 116_ second reset spring, 12_ sealing mechanism, 121_ guard shield, 122_ fixed gear disc, 123_ mounting shield, 124_ first reversing short shaft, 125_ driven bevel gear, 126_ driving belt assembly, 127_ second reversing short shaft, 128_ belt column positioning disc, 129_ slotted stand, 1210_ connecting transverse plate, 1211_ sealing baffle, 1212_ rubber sealing box, 13_ positioning mechanism, 131_ positioning short column, 132_ positioning transverse plate, 133_ third return guide column, 134_ third return spring, 135_ limit soft rope, 136_ guide wheel, 137_ positioning cross bar, 138_ fourth return guide column, 139_ fourth return spring, 14_ buffer mechanism, 141_ buffer bottom plate, 142_ limit short column, 143_ buffer spring.

Detailed Description

The invention is further explained by combining the drawings in the specification and the embodiments of the invention are given by combining the drawings in the specification.

Example 1

An omnibearing water pipe painting device is disclosed, as shown in fig. 1-4, and comprises a protective bottom box 1, a mounting top plate 2, a supporting bottom frame 3, a limiting frame 4, a fixed guide rail 5, a positioning bottom plate 6, a mounting disc 61, a feeding valve 7, a driving mechanism 8 and a liquid inlet mechanism 9, wherein the top of the protective bottom box 1 is fixedly connected with the mounting top plate 2, the bottom of the protective bottom box 1 is fixedly connected with the supporting bottom frame 3, the middle of the front part of the supporting bottom frame 3 is connected with the limiting frame 4 by bolts, the middle part of the limiting frame 4 is connected with the fixed guide rail 5, the fixed guide rail 5 is rotatably provided with the positioning bottom plate 6, the positioning bottom plate 6 is rotatably provided with the mounting disc 61, the mounting top plate 2 is provided with the driving mechanism 8, the driving mechanism 8 can be used for providing power, the liquid inlet mechanism 9 is arranged between the driving mechanism 8 and the mounting top plate 2 and the protective bottom box 1, and the liquid inlet mechanism 9 can be used for discharging paint, and a feeding valve 7 is arranged on the liquid inlet mechanism 9, and the feeding valve 7 can paint the water pipe.

As shown in fig. 2 and 3, the driving mechanism 8 includes a servo motor 81, a driving shaft 82, a reversing bevel gear 83 and a positioning vertical shaft 84, the rear portion of the mounting top plate 2 is connected with the servo motor 81 by means of bolts, the output shaft of the servo motor 81 is connected with the driving shaft 82, the left side of the rear portion of the mounting top plate 2 is rotatably provided with the positioning vertical shaft 84, the lower portion of the positioning vertical shaft 84 is in key connection with the front portion of the driving shaft 82 by the reversing bevel gear 83, and the two reversing bevel gears 83 are meshed with each other.

As shown in fig. 2 and 4, the liquid inlet mechanism 9 includes a fixed bottom frame 91, a flow guiding cylinder 92, a hollow vertical pipe 93, a synchronous belt assembly 94 and a liquid inlet shunt pipe 96, the fixed bottom frame 91 is fixedly connected to the rear side of the outer top of the installation top plate 2, the hollow vertical pipe 93 is rotatably arranged between the protection bottom box 1 and the rear portion of the installation top plate 2 in a bilateral symmetry manner, the synchronous belt assembly 94 is connected between the upper portions of the hollow vertical pipe 93 on the left side and the right side and the upper portion of the positioning vertical shaft 84, the synchronous belt assembly 94 is composed of three belt pulleys and a belt, the two belt pulleys are respectively installed on the upper portions of the hollow vertical pipe 93, the remaining one belt pulley is installed on the upper portion of the positioning vertical shaft 84, the flow guiding cylinder 92 is connected to the upper portion of the hollow vertical pipe 93, the liquid inlet shunt pipe 96 is connected between the flow guiding cylinders 92 on the left side and the right side, and the hollow vertical pipe 93 is fixedly connected with the feeding valve 7.

Firstly, an operator places a water pipe on the installation disc 61, then connects the liquid inlet shunt pipe 96 externally, paint is discharged into the flow guide cylinder 92 through the liquid inlet shunt pipe 96, the servo motor 81 is started, the servo motor 81 drives the driving shaft 82 to rotate forwards, the driving shaft 82 rotates forwards and drives the positioning vertical shaft 84 to rotate backwards through the reversing bevel gear 83, the positioning vertical shaft 84 rotates backwards and drives the synchronous belt assembly 94 to rotate backwards, the synchronous belt assembly 94 rotates backwards and drives the hollow vertical pipe 93 to rotate backwards, the hollow vertical pipe 93 rotates backwards and drives the feeding valve 7 to rotate backwards and reverse, the feeding valve 7 rotates backwards and atomizes and sprays the paint, meanwhile, people pull the installation disc 61 to rotate forwards, the installation disc 61 rotates forwards and drives the water pipe to rotate forwards, the water pipe rotates forwards to the rear side of the protective bottom box 1, the feeding valve 7 rotates backwards and sprays the paint onto the water pipe, the installation disc 61 continues to drive the water pipe to the front side of the protective bottom box 1, the water pipe is taken down for subsequent treatment, and the steps are repeated, the water pipes can be continuously and comprehensively painted, after all the water pipes are painted, the servo motor 81 is turned off, the driving shaft 82 stops driving the positioning vertical shaft 84 to rotate reversely through the reversing bevel gear 83, and the feeding valve 7 stops rotating reversely.

Example 2

On the basis of embodiment 1, as shown in fig. 5 to 8, the device further includes a clamping mechanism 10, the clamping mechanism 10 includes an anti-slip circular plate 101, clamping vertical plates 102, telescopic sleeves 103, positioning springs 104, a limiting diagonal rod 105, an auxiliary roller 106, a positioning slider 107, a first return guide post 108, a first return spring 109 and a hinge rod 1010, the mounting circular plate 61 is fixedly connected with the telescopic sleeves 103 at intervals, every three telescopic sleeves 103 form a group, the anti-slip circular plate 101 is fixedly connected between the top ends of the three telescopic sleeves 103, the anti-slip circular plate 101 is provided with three clamping vertical plates 102 at intervals in a sliding manner, the clamping vertical plates 102 can limit and fix the water pipe, the bottom of the anti-slip circular plate 101 and the inside of the mounting circular plate 61 are fixedly connected with three positioning springs 104 at even intervals, the positioning springs 104 are located in the telescopic sleeves 103, the mounting circular plate 61 is fixedly connected with the hinge rods 1010 at intervals, every three hinge rods 1010 form a group, the middle of the hinged rod 1010 is hinged with a limit diagonal rod 105, the inner side of the limit diagonal rod 105 is rotatably provided with an assist roller 106, the assist roller 106 is in contact with the anti-skid circular plate 101, the lower part of the clamping vertical plate 102 is fixedly connected with a first reset guide pillar 108, the first reset guide pillar 108 is slidably provided with a positioning slider 107, the adjacent positioning sliders 107 are fixedly connected with the limit diagonal rod 105, a first reset spring 109 is wound on the first reset guide pillar 108, one end of the first reset spring 109 is connected with the positioning slider 107, and the other end of the first reset spring 109 is connected with the clamping vertical plate 102.

As shown in fig. 5, 9 and 10, the device further comprises a rotating mechanism 11, the rotating mechanism 11 comprises a worm 111, a driven worm wheel 112, a rotating vertical shaft 113, a positioning guide block 114, a second return guide post 115 and a second return spring 116, the worm 111 is fixedly connected to the front end of the driving shaft 82, the rotating vertical shaft 113 is rotatably arranged in the middle of the protective bottom case 1, the rotating vertical shaft 113 can drive the positioning bottom plate 6 to rotate, the rotating vertical shaft 113 is rotatably connected with the mounting disc 61, the rotating vertical shaft 113 is fixedly connected with the positioning bottom plate 6, the driven worm wheel 112 is fixedly connected to the upper portion of the rotating vertical shaft 113, the driven worm wheel 112 is meshed with the worm 111, four positioning guide blocks 114 are fixedly connected to the inside of the mounting disc 61 at intervals, the second return guide posts 115 are fixedly connected to the inside of the positioning bottom plate 6 at intervals, every two second return guide posts 115 are in one group, every two second return guide posts 115 are slidably connected with the positioning guide blocks 114, the second return spring 116 is wound on the second return guide posts 115, one end of the second return spring 116 is connected to the positioning guide block 114, and the other end of the second return spring 116 is connected to the positioning base plate 6.

As shown in fig. 5, 11, 12 and 13, the sealing device 12 further comprises a sealing mechanism 12, the sealing mechanism 12 comprises a protective shield cover 121, a fixed gear 122, a mounting cover 123, a first reversing short shaft 124, a driven bevel gear 125, a transmission belt assembly 126, a second reversing short shaft 127, a positioning disk 128 with columns, a slotted stand 129, a connecting transverse plate 1210, a sealing baffle 1211 and a rubber sealing box 1212, the protective shield cover 121 is fixedly connected to the middle of the top of the positioning bottom plate 6, the protective shield cover 121 is sleeved on the rotating vertical shaft 113, the fixed gear 122 is connected to the middle of the positioning bottom plate 6 in an embedded manner by bolts, the mounting cover 123 is connected to the middle of the protective bottom box 1 by bolts, the first reversing short shaft 124 is rotatably arranged at the lower part of the mounting cover 123, the driven bevel gear 125 is connected to the middle of the first reversing short shaft 124 in a key manner, the driven bevel gear 125 is meshed with the fixed gear 122, the second reversing short shaft 127 is rotatably arranged at the upper part of the mounting cover 123, a transmission belt assembly 126 is connected between the front part of the second reversing short shaft 127 and the rear part of the first reversing short shaft 124, the transmission belt assembly 126 consists of two belt pulleys and a belt, one belt pulley is arranged at the front part of the second reversing short shaft 127, one belt pulley is arranged at the rear part of the second reversing short shaft 127, the belt is wound between the two belt pulleys, the transmission belt assembly 126 is positioned in the mounting cover 123, the rear part of the second reversing short shaft 127 is fixedly connected with a belt column positioning disc 128, the middle part of the protective bottom box 1 is slidably provided with a slotted upright frame 129, the slotted upright frame 129 is sleeved on the belt column positioning disc 128, the slotted upright frame 129 is slidably connected with the belt column positioning disc 128, the left side and the right side of the lower part of the slotted upright frame 129 are fixedly connected with connecting transverse plates 1210, the outer parts of the connecting transverse plates 1210 are connected with sealing baffles 1211 in a bolt mode, the sealing baffles 1211 can seal the rear cavity of the protective bottom box 1, the left side and the right side of the upper part of the protective bottom box 1 are fixedly connected with rubber sealing boxes 1212, the rubber seal case 1212 is slidably connected to the seal stop 1211.

When the water pipe is placed on the installation disc 61, the water pipe is in contact with the anti-skid circular plate 101, due to the action of gravity, the water pipe enables the anti-skid circular plate 101 to move downwards, the positioning spring 104 is compressed, the anti-skid circular plate 101 moves downwards to drive the limiting inclined rod 105 to swing inwards, the assisting roller 106 plays a guiding role, the limiting inclined rod 105 swings inwards to drive the positioning slider 107 to move inwards, the positioning slider 107 moves inwards to drive the clamping vertical plate 102 to move inwards, the first reset spring 109 plays a buffering role, the clamping vertical plate 102 moves inwards to limit the water pipe, after the water pipe is painted, the water pipe is taken down to perform subsequent treatment, due to the action of the positioning spring 104, the anti-skid circular plate 101 drives the positioning slider 107 to move outwards through the limiting inclined rod 105, the clamping vertical plate 102 also moves outwards to reset, and therefore, the water pipe can be prevented from moving during painting.

When the servo motor 81 works, the driving shaft 82 rotates forwards to drive the worm 111 to rotate forwards, the worm 111 rotates forwards to drive the driven worm wheel 112 to rotate forwards, the driven worm wheel 112 rotates forwards to drive the rotating vertical shaft 113 to rotate forwards, the rotating vertical shaft 113 rotates forwards to drive the positioning bottom plate 6 to rotate forwards, the positioning bottom plate 6 rotates forwards to drive the second return guide post 115 to rotate forwards, the second return spring 116 is compressed, so that the positioning bottom plate 6 continuously rotates forwards to contact with the positioning guide block 114, the positioning bottom plate 6 rotates forwards to drive the positioning guide block 114 to rotate forwards, the positioning guide block 114 rotates forwards to drive the installation disc 61 to rotate forwards, the installation disc 61 rotates forwards to drive the water pipe to rotate forwards, the water pipe rotates forwards to the rear side of the protective bottom box 1 to be painted, when the installation disc 61 rotates forwards at 120 degrees, the servo motor 81 stops for 30 seconds, so that paint is statically deposited on the water pipe for a while, the installation disc 61 drives the positioning guide block 114 to return to a certain distance due to the action of the second return spring 116, after 30 seconds, the servo motor 81 continues to work, the operation is circulated again, after all the water pipes are painted, the servo motor 81 is closed, the driving shaft 82 stops the worm 111 to drive the driven worm wheel 112 to rotate forwards, the positioning bottom plate 6 stops rotating forwards, and therefore the installation disc 61 does not need to be pulled manually to rotate forwards.

When the servo motor 81 works, the positioning bottom plate 6 rotates forward to drive the fixed gear 122 to rotate forward, the fixed gear 122 rotates forward to drive the driven bevel gear 125 to rotate backward, the driven bevel gear 125 rotates backward to drive the first reversing short shaft 124 to rotate backward, the first reversing short shaft 124 rotates backward to drive the transmission belt assembly 126 to rotate backward, the transmission belt assembly 126 rotates backward to drive the second reversing short shaft 127 to rotate backward, the second reversing short shaft 127 rotates backward to drive the belt column positioning disc 128 to rotate backward, the belt column positioning disc 128 rotates backward to drive the slotting vertical frame 129 to move upward, the slotting vertical frame 129 moves upward to drive the connecting transverse plate 1210 to move upward, the connecting transverse plate 1210 moves upward to drive the sealing baffle 1211 to move upward, so that the water pipe rotates forward to the rear side of the protective bottom box 1, the belt column positioning disc 128 continues to rotate backward to drive the slotting vertical frame 129 to move downward, the sealing baffle 1211 moves downward to seal the protective bottom box 1, and after finishing painting on the water pipe, and the mounting disc 61 also rotates forwards at 120 degrees, the servo motor 81 stops for 30 seconds, so that the paint is stationary and deposited on the water pipe for a while, after 30 seconds, the sealing baffle 1211 moves upwards again, the water pipe rotates forwards to the front side of the protective bottom box 1, after all the water pipes are painted, the servo motor 81 is closed, the positioning bottom plate 6 stops driving the driven bevel gear 125 to rotate backwards through the fixed gear 122, the sealing baffle 1211 stops moving upwards and downwards, and therefore the paint atomization and adhesion are complete.

Example 3

On the basis of the embodiments 1 and 2, as shown in fig. 14 and 15, the present invention further comprises a positioning mechanism 13, the positioning mechanism 13 comprises a positioning short column 131, a positioning cross plate 132, a third return guide post 133, a third return spring 134, a position-limiting soft rope 135, a guide wheel 136, a positioning cross bar 137, a fourth return guide post 138 and a fourth return spring 139, the upper portion of the outer side surface of the sealing baffle 1211 is fixedly connected with the positioning short column 131, the front upper portion of the shielding bottom box 1 in bilateral symmetry is fixedly connected with the third return guide post 133, the third return guide post 133 is slidably provided with the positioning cross plate 132, the positioning short column 131 is in contact with the positioning cross plate 132, the third return guide post 133 is wound with the third return spring 134, one end of the third return spring 134 is connected with the positioning cross plate 132, the other end of the third return spring 134 is connected with the shielding bottom box 1, the guide wheels 136 for guiding are rotatably provided on the left and right sides of the front portion of the supporting bottom frame 3, support chassis 3 anterior left and right sides all front and back symmetry rigid coupling and have fourth guide pillar 138 that resets, slidingtype is equipped with location horizontal pole 137 between the fourth guide pillar 138 that resets of front and back both sides, location horizontal pole 137 can realize spacing to location bottom plate 6, location horizontal pole 137 and the contact of location bottom plate 6, it has fourth reset spring 139 to wind on the fourth guide pillar 138 that resets, fourth reset spring 139 one end is connected with location horizontal pole 137, the fourth reset spring 139 other end is connected with supporting chassis 3, location diaphragm 132 bottom rigid coupling has spacing rope 135, spacing rope 135 tail end is around having leading wheel 136 and the location horizontal pole 137 fixed connection of homonymy.

As shown in fig. 14 and 16, the buffer device 14 further includes a buffer mechanism 14, the buffer mechanism 14 includes a buffer bottom plate 141, three limit short columns 142 and a buffer spring 143, the lower portion of the sealing baffle 1211 is provided with three limit short columns 142 at intervals in a sliding manner, the buffer bottom plate 141 is fixedly connected between the bottom ends of the three limit short columns 142, the buffer bottom plate 141 moves downward to contact with the mounting disc 61, the buffer spring 143 makes the buffer bottom plate 141 play a buffer role, and the buffer spring 143 is fixedly connected between the top ends of the limit short columns 142 and the inside of the sealing baffle 1211.

When the slotting standing frame 129 moves upwards, the sealing baffle 1211 moves upwards to drive the positioning short column 131 to move upwards, the positioning short column 131 moves upwards to drive the positioning transverse plate 132 to move upwards, the third return spring 134 is compressed, the positioning transverse plate 132 moves upwards to drive the positioning transverse rod 137 to move downwards through the limiting soft rope 135, the guide wheel 136 plays a role in guiding, the fourth return spring 139 is compressed, after the painting of the water pipe is finished, the sealing baffle 1211 moves downwards to seal the protective bottom box 1, the mounting disc 61 rotates forwards at 120 degrees, the servo motor 81 stops for 30 seconds, due to the effect of the third return spring 134, the positioning transverse plate 132 moves downwards to return, due to the effect of the fourth return spring 139, the positioning transverse rod 137 moves upwards to clamp the positioning bottom plate 6, after 30 seconds, the operation is circulated again, the painted water pipe is taken down for subsequent treatment, and after all the painting of the water pipe is finished, when the servo motor 81 is turned off, the sealing stop 1211 stops driving the positioning cross plate 132 to move up and down through the positioning short column 131, and the positioning cross rod 137 also stops moving up and down, so that the positioning bottom plate 6 is prevented from moving.

When the slotted upright 129 drives the sealing baffle 1211 to move downwards, the sealing baffle 1211 moves downwards to enable the buffer bottom plate 141 to move downwards, the buffer bottom plate 141 moves downwards to be in contact with the mounting disc 61, and the buffer spring 143 plays a role in buffering, so that the sealing of the sealing baffle 1211 can be more complete.

Finally, it is necessary to state that: the above-mentioned contents are only used to help understanding the technical solution of the present invention, and should not be interpreted as limiting the scope of the present invention; insubstantial modifications and adaptations of the invention as described above will occur to those skilled in the art and are intended to be within the scope of the invention as claimed.

Claims (8)

1. An all-dimensional water pipe painting device comprises a protective bottom box (1), an installation top plate (2), a supporting bottom frame (3), a limiting frame (4), a fixed guide rail (5), a positioning bottom plate (6), an installation disc (61) and a feeding valve (7), wherein the top of the protective bottom box (1) is fixedly connected with the installation top plate (2), the bottom of the protective bottom box (1) is fixedly connected with the supporting bottom frame (3), the limiting frame (4) is fixedly connected with the middle of the front part of the supporting bottom frame (3), the middle part of the limiting frame (4) is connected with the fixed guide rail (5), the positioning bottom plate (6) is rotatably arranged on the fixed guide rail (5), the installation disc (61) is rotatably arranged on the positioning bottom plate (6), the feeding valve (7) is used for painting a water pipe, and is characterized by further comprising a driving mechanism (8) and a liquid inlet mechanism (9), the driving mechanism (8) used for providing power is arranged on the installation top plate (2), a liquid inlet mechanism (9) for discharging paint is arranged between the driving mechanism (8) and the installation top plate (2) and between the driving mechanism and the protection bottom box (1).

2. The omnibearing water pipe painting device according to claim 1, wherein the driving mechanism (8) comprises a servo motor (81), a driving shaft (82), a reversing bevel gear (83) and a positioning vertical shaft (84), the servo motor (81) is fixedly connected to the rear portion of the mounting top plate (2), the driving shaft (82) is connected to an output shaft of the servo motor (81), the positioning vertical shaft (84) is rotatably arranged on the left side of the rear portion of the mounting top plate (2), the reversing bevel gear (83) is connected to the lower portion of the positioning vertical shaft (84) and the front portion of the driving shaft (82), and the two reversing bevel gears (83) are meshed with each other.

3. The omnibearing water pipe painting device according to claim 2, wherein the liquid inlet mechanism (9) comprises a fixed bottom frame (91), a guide cylinder (92), a hollow vertical pipe (93), a synchronous belt component (94) and a liquid inlet shunt pipe (96), the fixed bottom frame (91) is fixedly connected to the rear side of the outer top of the installation top plate (2), the hollow vertical pipe (93) is rotatably arranged between the protection bottom box (1) and the rear part of the installation top plate (2) in a bilateral symmetry mode, the synchronous belt component (94) is connected between the upper parts of the hollow vertical pipes (93) on the left side and the right side and the upper part of the positioning vertical shaft (84), the guide cylinder (92) is connected to the upper part of the hollow vertical pipe (93), the liquid inlet shunt pipe (96) is connected between the guide cylinders (92) on the left side and the right side, and the hollow vertical pipe (93) is fixedly connected with the feeding valve (7).

4. The omnibearing water pipe painting device according to claim 3, further comprising a clamping mechanism (10) for limiting the position of the water pipe, wherein the clamping mechanism (10) comprises an anti-skid circular plate (101), a clamping vertical plate (102), telescopic sleeves (103), positioning springs (104), a limiting inclined rod (105), an auxiliary roller (106), a positioning slider (107), a first reset guide post (108), a first reset spring (109) and a hinge rod (1010), the mounting circular plate (61) is internally and fixedly connected with the telescopic sleeves (103) at intervals, every three telescopic sleeves (103) form a group, the anti-skid circular plate (101) is fixedly connected between the top ends of the three telescopic sleeves (103), the anti-skid circular plate (101) is provided with three clamping vertical plates (102) for limiting the water pipe at intervals in a sliding manner, the three positioning springs (104) are fixedly connected between the bottom of the anti-skid circular plate (101) and the inside of the mounting circular plate (61) at even intervals, positioning springs (104) are located in the telescopic sleeve (103), hinge rods (1010) are fixedly connected in the mounting disc (61) at intervals, every three hinge rods (1010) form a group, limiting inclined rods (105) are hinged to the middle portions of the hinge rods (1010), auxiliary rollers (106) are rotatably arranged on the inner sides of the limiting inclined rods (105), the auxiliary rollers (106) are in contact with the anti-slip circular plate (101), a first reset guide pillar (108) is fixedly connected to the lower portion of the clamping vertical plate (102), positioning sliders (107) are slidably arranged on the first reset guide pillar (108), adjacent positioning sliders (107) are fixedly connected with the limiting inclined rods (105), a first reset spring (109) is wound on the first reset guide pillar (108), one end of the first reset spring (109) is connected with the positioning slider (107), and the other end of the first reset spring (109) is connected with the clamping vertical plate (102).

5. The omnibearing water pipe painting device according to claim 4, further comprising a rotating mechanism (11) for driving the positioning bottom plate (6) to rotate, wherein the rotating mechanism (11) comprises a worm (111), a driven worm wheel (112), a rotating vertical shaft (113), a positioning guide block (114), a second reset guide post (115) and a second reset spring (116), the worm (111) is fixedly connected to the front end of the driving shaft (82), the rotating vertical shaft (113) for driving is rotatably arranged in the middle of the protective bottom box (1), the rotating vertical shaft (113) is rotatably connected with the mounting disc (61), the rotating vertical shaft (113) is fixedly connected with the positioning bottom plate (6), the driven worm wheel (112) is fixedly connected to the upper portion of the rotating vertical shaft (113), the driven worm wheel (112) is meshed with the worm (111), four positioning guide blocks (114) are fixedly connected to the inside of the mounting disc (61) at intervals, second reset guide posts (115) are fixedly connected to the inside of the positioning bottom plate (6) at intervals, every two second reset guide posts (115) form a group, every two second reset guide posts (115) are connected with the positioning guide block (114) in a sliding mode, a second reset spring (116) is wound on each second reset guide post (115), one end of each second reset spring (116) is connected with the positioning guide block (114), and the other end of each second reset spring (116) is connected with the positioning bottom plate (6).

6. The omnibearing water pipe painting device according to claim 5, further comprising a sealing mechanism (12) for sealing the cavity, wherein the sealing mechanism (12) comprises a protective shield cover (121), a fixed toothed disc (122), a mounting cover (123), a first reversing short shaft (124), a driven bevel gear (125), a transmission belt assembly (126), a second reversing short shaft (127), a positioning disc (128) with a column, a slotted vertical frame (129), a connecting transverse plate (1210), a sealing baffle (1211) and a rubber sealing box (1212), the protective shield cover (121) is fixedly connected to the middle of the top of the positioning bottom plate (6), the protective shield cover (121) is sleeved on the rotating vertical shaft (113), the fixed toothed disc (122) is embedded in the middle of the positioning bottom plate (6) in a bolt manner, the mounting cover (123) is fixedly connected to the middle of the protective bottom box (1), the first reversing short shaft (124) is rotatably arranged at the lower part of the mounting cover (123), a driven bevel gear (125) is fixedly connected to the middle of the first reversing short shaft (124), the driven bevel gear (125) is meshed with the fixed gear disc (122), a second reversing short shaft (127) is rotatably arranged on the upper portion of the mounting cover (123), a transmission belt assembly (126) is connected between the front portion of the second reversing short shaft (127) and the rear portion of the first reversing short shaft (124), the transmission belt assembly (126) is composed of two belt pulleys and a belt, one belt pulley is mounted on the front portion of the second reversing short shaft (127), one belt pulley is mounted on the rear portion of the second reversing short shaft (127), the belt is wound between the two belt pulleys, the transmission belt assembly (126) is located in the mounting cover (123), a column positioning disc (128) is fixedly connected to the rear portion of the second reversing short shaft (127), a slotted vertical frame (129) is slidably arranged in the middle of the protective bottom box (1), and the slotted vertical frame (129) is sleeved on the column positioning disc (128), the slotting vertical frame (129) is connected with the positioning disc (128) with the column in a sliding mode, the left side and the right side of the lower portion of the slotting vertical frame (129) are fixedly connected with connecting transverse plates (1210), sealing baffles (1211) used for sealing cavities are fixedly connected to the outer portions of the connecting transverse plates (1210), rubber sealing boxes (1212) are fixedly connected to the left side and the right side of the upper portion of the protective bottom box (1), and the rubber sealing boxes (1212) are connected with the sealing baffles (1211) in a sliding mode.

7. The omnibearing water pipe painting device according to claim 6, further comprising a positioning mechanism (13) for limiting, wherein the positioning mechanism (13) comprises a positioning short column (131), a positioning transverse plate (132), a third reset guide column (133), a third reset spring (134), a limiting soft rope (135), a guide wheel (136), a positioning cross bar (137), a fourth reset guide column (138) and a fourth reset spring (139), the positioning short column (131) is fixedly connected to the upper part of the outer side surface of the sealing baffle (1211), the third reset guide column (133) is fixedly connected to the front upper parts of the left and right symmetry of the protective bottom box (1), the positioning transverse plate (132) is slidably arranged on the third reset guide column (133), the positioning short column (131) contacts with the positioning transverse plate (132), the third reset guide column (133) is wound with the third reset spring (134), and one end of the third reset spring (134) is connected with the positioning transverse plate (132), the other end of a third reset spring (134) is connected with the protective bottom box (1), the left and right sides of the front part of the supporting bottom frame (3) are rotatably provided with guide wheels (136) used for guiding, the left and right sides of the front part of the supporting bottom frame (3) are symmetrically and fixedly connected with fourth reset guide columns (138) in the front and back directions, a positioning cross rod (137) used for limiting the positioning bottom plate (6) is arranged between the fourth reset guide columns (138) on the front and back sides in a sliding mode, the positioning cross rod (137) is in contact with the positioning bottom plate (6), a fourth reset spring (139) is wound on the fourth reset guide column (138), one end of the fourth reset spring (139) is connected with the positioning cross rod (137), the other end of the fourth reset spring (139) is connected with the supporting bottom frame (3), a limiting soft rope (135) is fixedly connected to the bottom of the positioning cross rod (132), and the tail end of the limiting soft rope (135) is wound with the guide wheels (136) and is fixedly connected with the positioning cross rod (137) on the same side.

8. The omnibearing water pipe painting device according to claim 7, further comprising a buffer mechanism (14) for sealing more completely, wherein the buffer mechanism (14) comprises a buffer bottom plate (141), a limit short column (142) and a buffer spring (143), three limit short columns (142) are arranged on the lower portion of the seal baffle (1211) in a sliding mode at intervals, the buffer bottom plate (141) for buffering is fixedly connected between the bottom ends of the three limit short columns (142), and the buffer spring (143) is fixedly connected between the top ends of the limit short columns (142) and the inside of the seal baffle (1211).

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