Coating spraying assembly based on track design and spraying process thereof
Technical Field
The invention relates to the technical field of paint spraying, in particular to a paint spraying assembly based on a track design and a paint spraying process thereof.
Background
In the building wall finishing process, the paint needs to be sprayed, and a spraying component needs to be used so that the paint spraying is uniform.
For example, publication (bulletin) numbers are: in the spraying device based on the building decoration material of CN217017147U, when the spraying device is convenient to move, the U-shaped frame is driven to move downwards to push the supporting legs to be supported on the ground through the contraction of the telescopic rod II during fixed-point work, so that stable parking can be realized, and the moving of a moving vehicle body is avoided; the two-dimensional space adjusting assembly is matched with the spraying rod, so that the technical little that the spraying head is driven to move in the two-dimensional space can be realized, the quick and uniform spraying of the building wall surface can be realized, and the vertical stroke of the spraying head can be improved by arranging the first telescopic rod.
The spraying head of the device is arranged on the track, so that the spraying head can be remotely controlled to realize the spraying of the paint, however, the spraying rod and the pump body of the device are connected through the hose, the hose can be bent in the process of reciprocating movement of the spraying head, the conveying of the paint is affected, the paint sprayed by the spraying head is uneven, and the quality of the paint spraying is affected.
Disclosure of Invention
The invention aims to provide a coating spraying assembly based on a track design and a spraying process thereof, so as to solve the problems in the process.
In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a coating spraying subassembly based on track design, coating spraying subassembly is including portable base, bin, inner chamber drainage board, control telescopic link, side riser, guide rail, rail inner slider, spraying pipe and spraying head, wherein the bin is installed on portable base, the inner chamber drainage board symmetry is installed in the inside of bin, wherein control telescopic link symmetry is installed on portable base, side riser is installed in the upside of control telescopic link, wherein guide rail installs between two side riser, rail inner slider sets up in guide rail's inside, wherein the spraying pipe is installed on rail inner slider, the upside at the spraying pipe is installed to the spraying head, wherein the upside of portable base is provided with adjustment slip subassembly, the downside of spraying pipe is provided with the pressure boost subassembly of taking a breath.
Preferably, the middle part of the storage box is penetrated and provided with a fixedly connected deep insertion pipe, wherein the lower side of the deep insertion pipe is provided with a fixedly connected bottom placement pipe, the bottom placement pipe is placed between two inner cavity drainage plates, the lower side of the bottom placement pipe is penetrated and provided with a through hole, and the upper side of the deep insertion pipe is provided with a concave groove.
Preferably, the inside of going into the intubate inserts and is provided with coupling hose, wherein the cover has upper portion spacer ring on the coupling hose, carry out fixed connection between upper portion spacer ring and the intubate in depth, wherein coupling hose inserts one side of going into the intubate inside and overlaps down the top spring, coupling hose's downside sets up fixed connection's slip inner panel, and wherein the slip inner panel is in the downside of top spring down, the upside of going into the intubate is provided with external screw thread.
Preferably, the side vertical plate close to the spraying pipe is provided with a transmission toothed plate fixedly connected, wherein one side of the transmission toothed plate is provided with a support vertical plate, the support vertical plate is fixed on the storage box, a movably connected bearing gear is arranged on the support vertical plate, one side of the bearing gear far away from the transmission toothed plate is provided with a vertically movable toothed plate, and the lower side of the vertically movable toothed plate is provided with a pressurizing push rod fixedly connected.
Preferably, the adjustment sliding assembly comprises an adjustment rotating pipe, an edge-to-chute, a regulating slide block, a branch connecting pipe, a sleeve joint correction ring, an angle protection pad, a limiting rotating ring, a locking ring and an embedded clamping ring, wherein the edge-to-chute is penetrated and arranged on the adjustment rotating pipe, the regulating slide block is arranged in the adjustment rotating pipe, the branch connecting pipe is embedded and fixed in the regulating slide block, the sleeve joint correction ring is uniformly arranged in the adjustment rotating pipe, the angle protection pad is fixed in the adjustment rotating pipe, the limiting rotating ring is sleeved on the adjustment rotating pipe, the locking ring is fixed on the lower side of the limiting rotating ring, and the embedded clamping ring is fixedly arranged on the adjustment rotating pipe.
Preferably, the regulating and controlling sliding block penetrates through the guiding chute, wherein the branch connecting pipe and the spraying pipe are fixedly connected, the connecting hose sequentially penetrates through the bent angle protection pad and is fixedly connected with the sleeve joint correction ring and the branch connecting pipe, the limiting swivel is in threaded connection with the deep insertion pipe by means of external threads, and the embedded clamping ring is located in the concave groove.
Preferably, the supercharging ventilation assembly comprises a containing cylinder, an air inlet, a first through cavity, a second through cavity, a middle partition plate and a penetrating groove, wherein the air inlet is formed in the containing cylinder in a penetrating mode, the first through cavity is formed in the containing cylinder, the second through cavity is formed in the containing cylinder, the middle partition plate is fixed in the containing cylinder, and the penetrating groove is formed in the middle partition plate in a penetrating mode.
Preferably, the accommodating cylinder is fixedly connected with the storage box, the pressurizing push rod is inserted into the accommodating cylinder, the extension frame is placed in the second through cavity, the extension frame is fixedly connected with the accommodating cylinder, the movably connected one-way valve plate is arranged in the accommodating cylinder, the fixedly connected guide rod is arranged on one side, far away from the extension frame, of the one-way valve plate, the protective frame is sleeved on one side, far away from the one-way valve plate, of the guide rod, and the built-in spring is placed in the protective frame.
Preferably, the middle part of middle part baffle runs through and is provided with the feeler lever, and wherein the downside of feeler lever sets up fixed connection's jam piece, the shape that the jam piece set up is spherical, and wherein the cover has reset spring on the feeler lever, the bilateral symmetry of feeler lever is provided with the limiting plate, and its limiting plate is fixed on holding the drum, set up fixed connection's side branch on the feeler lever, wherein side branch runs through one of them limiting plate setting.
A track design based paint spray assembly comprising the following spray process:
step one: spraying; the telescopic rod is controlled to move upwards with the telescopic spraying pipe, and meanwhile, the sliding block in the rail is arranged in the guide rail, so that the aim of adjusting the position of the spraying head is fulfilled;
step two: angle adjustment; the regulating and controlling sliding block can move along with the branch connecting pipe, is adjusted according to the position of the spraying pipe, and when the regulating and controlling sliding block is close to the bent angle protection pad, the lower ejection spring can push the sliding inner plate downwards, so that the connecting hose moves downwards in the penetrating pipe;
step three: pressurizing the cavity; the pressurizing push rod moves downwards, the internal pressure of the accommodating cylinder is increased at the moment, the blocking block is pushed up, and then air pressure enters the storage box through the air inlet hole, so that the purpose of pressurizing the inside of the storage box is achieved.
Compared with the prior art, the invention has the beneficial effects that:
when the position of the spraying pipe is adjusted, the adjusting and controlling sliding block can move along with the branch connecting pipe and is adjusted according to the position of the spraying pipe, and when the adjusting and controlling sliding block is close to the bent angle protection pad, the lower ejection spring can push the sliding inner plate downwards, so that the connecting hose moves downwards in the deep inserting pipe, the situation that the connecting hose bends is avoided, the connecting hose is effectively ensured to normally convey the paint, the paint can normally enter the spraying pipe, and the spraying head uniformly ejects the paint;
in addition, in the process of up-and-down movement of the spraying pipe, the pressurizing push rod moves downwards, the internal pressure of the accommodating cylinder is increased at the moment, so that the blocking block is pushed up, and then air pressure enters the storage box through the air inlet hole, so that the purpose of pressurizing the inside of the storage box is achieved, and the paint in the storage box is extracted.
Drawings
Fig. 1 is a schematic perspective view of the present invention.
FIG. 2 is a schematic diagram of a storage box according to the present invention in a right side view in half section.
FIG. 3 is a schematic perspective view of the invention in semi-section through a cannula.
Fig. 4 is a schematic perspective view of a connecting hose according to the present invention.
Fig. 5 is a schematic perspective view of a driving tooth plate of the present invention.
Fig. 6 is a schematic perspective view of a receiving gear according to the present invention.
Fig. 7 is a schematic view of a receiving cylinder of the present invention in a right side view, partly in cross-section.
Fig. 8 is a schematic perspective view of a pressing rod according to the present invention.
Fig. 9 is an enlarged schematic view of the invention at a in fig. 3.
Fig. 10 is an enlarged schematic view of fig. 7 at B in accordance with the present invention.
In the figure: 1. a mobile base; 11. a storage tank; 1101. deep into the cannula; 1102. placing a pipe at the bottom; 1103. a through hole; 1104. a concave groove; 1105. a connecting hose; 1106. an upper spacer ring; 1107. a lower top spring; 1108. sliding the inner plate; 1109. an external thread; 12. an inner cavity drainage plate; 13. controlling a telescopic rod; 14. a side vertical plate; 1401. a drive tooth plate; 1402. a supporting vertical plate; 1403. a receiving gear; 1404. moving the toothed plate up and down; 1405. a pressurizing push rod; 15. a guide rail; 16. a rail inner slide; 17. a spray pipe; 18. a spray head; 2. adjusting the rotating tube; 21. a longitudinal chute; 22. a regulating and controlling sliding block; 23. a branch connecting pipe; 24. sleeving a correction ring; 25. corner protection pad; 26. limiting the swivel; 27. a locking ring; 28. embedding a clamping ring; 3. a receiving cylinder; 31. an air inlet hole; 32. a first through cavity; 33. a second through cavity; 3301. an extension frame; 3302. a one-way valve plate; 3303. a guide bar; 3304. a protective frame; 3305. a built-in spring; 34. a middle partition plate; 3401. a touch-up rod; 3402. a blocking block; 3403. a return spring; 3404. a limiting plate; 3405. a side strut; 35. and (5) penetrating the groove.
Detailed Description
Features and exemplary embodiments of various aspects of the invention are described in detail below. In the following detailed description, numerous specific details are set forth in order to provide a thorough understanding of the invention. It will be apparent, however, to one skilled in the art that the present invention may be practiced without some of these specific details. The following description of the embodiments is merely intended to provide a better understanding of the invention by showing examples of the invention. The present invention is in no way limited to any particular configuration and algorithm set forth below, but rather covers any modification, substitution, and improvement of elements, components, and algorithms without departing from the spirit of the invention. In the drawings and the following description, well-known structures and techniques have not been shown in order to avoid unnecessarily obscuring the present invention.
Referring to fig. 1 to 10, the present invention provides a technical solution: including coating spraying subassembly, its characterized in that: the paint spraying assembly comprises a movable base 1, a storage box 11, an inner cavity drainage plate 12, a control telescopic rod 13, side vertical plates 14, a guide rail 15, an in-rail sliding block 16, a spraying pipe 17 and a spraying head 18, wherein the storage box 11 is arranged on the movable base 1, the inner cavity drainage plate 12 is symmetrically arranged in the storage box 11, the control telescopic rod 13 is symmetrically arranged on the movable base 1, the side vertical plates 14 are arranged on the upper side of the control telescopic rod 13, the guide rail 15 is arranged between the two side vertical plates 14, the in-rail sliding block 16 is arranged in the guide rail 15, the spraying pipe 17 is arranged on the in-rail sliding block 16, the spraying head 18 is arranged on the upper side of the spraying pipe 17, an adjusting sliding assembly is arranged on the upper side of the movable base 1, and a pressurizing and ventilating assembly is arranged on the lower side of the spraying pipe 17. The side vertical plate 14 is provided with a movably connected driving screw, the driving screw is driven to rotate by a motor, the driving screw is in threaded connection with the inner sliding block 16 in the rail, the spraying pipe 17 is connected with the inner sliding block 16 in the rail by a buckle, the inner cavity drainage plate 12 is a triangular plate, the inner cavity drainage plate 12 can drain paint in the storage box 11, the paint is concentrated in the middle of the storage box 11, and the spraying pipe 17 is a telescopic pipeline.
The middle part of the storage box 11 is penetrated and is provided with a fixedly connected deep insertion pipe 1101, wherein the lower side of the deep insertion pipe 1101 is provided with a fixedly connected bottom placement pipe 1102, the bottom placement pipe 1102 is placed between the two inner cavity drainage plates 12, the lower side of the bottom placement pipe 1102 is penetrated and provided with a through hole 1103, and the upper side of the deep insertion pipe 1101 is provided with a concave groove 1104. The deep insertion pipe 1101 is connected with the storage tank 11 through screws, wherein the deep insertion pipe 1101 is connected with the pump body, the through hole 1103 is formed downwards on the bottom placing pipe 1102, and paint can conveniently enter the bottom placing pipe 1102 through the through hole 1103.
The inside of going deep into the intubate 1101 inserts and is provided with coupling hose 1105, wherein the cover has upper spacer 1106 on the coupling hose 1105, carries out fixed connection between upper spacer 1106 and the going deep into intubate 1101, and wherein coupling hose 1105 inserts the inside one side of going deep into intubate 1101 and overlaps down top spring 1107, and the downside of coupling hose 1105 sets up fixed connection's slip inner panel 1108, and wherein slip inner panel 1108 is in the downside of bottom top spring 1107, and the upside of going deep into intubate 1101 is provided with external screw thread 1109. The lower top spring 1107 is located between the upper spacer 1106 and the sliding inner plate 1108, and the lower top spring 1107 can push the sliding inner plate 1108 downwards, so that the connecting hose 1105 can move to penetrate into the cannula 1101, and the connecting hose 1105 can be stored and placed conveniently.
A fixedly connected drive toothed plate 1401 is arranged close to the side riser 14 of the spray tube 17, wherein a support riser 1402 is arranged on one side of the drive toothed plate 1401, the support riser 1402 is fixed on the storage tank 11, wherein a movably connected receiving gear 1403 is arranged on the support riser 1402, an up-and-down movement toothed plate 1404 is arranged on the side of the receiving gear 1403 away from the drive toothed plate 1401, and a fixedly connected pressurizing push rod 1405 is arranged on the lower side of the up-and-down movement toothed plate 1404. The pressing push rod 1405 is provided with a T-shape, and when the telescopic rod 13 is controlled to move upward with the side vertical plate 14, the transmission gear plate 1401 moves with the side vertical plate 14, further, the transmission gear plate 1401 rotates with the receiving gear 1403, and then the receiving gear 1403 moves downward with respect to the up-and-down movement gear 1404, and further, the pressing push rod 1405 also moves downward.
The adjusting sliding component comprises an adjusting rotating pipe 2, an edge chute 21, a regulating slide block 22, a branch connecting pipe 23, a sleeve joint correction ring 24, an angle protection pad 25, a limiting rotating ring 26, a locking ring 27 and an embedded clamping ring 28, wherein the edge chute 21 is penetrated and arranged on the adjusting rotating pipe 2, the regulating slide block 22 is arranged in the adjusting rotating pipe 2, the branch connecting pipe 23 is embedded and fixed in the regulating slide block 22, the sleeve joint correction ring 24 is uniformly arranged in the adjusting rotating pipe 2, the angle protection pad 25 is fixed in the adjusting rotating pipe 2, the limiting rotating ring 26 is sleeved on the adjusting rotating pipe 2, the locking ring 27 is fixed on the lower side of the limiting rotating ring 26, and the embedded clamping ring 28 is fixedly arranged on the adjusting rotating pipe 2. The adjustment rotating pipe 2 and the limiting rotating ring 26 can rotate, and the sleeve correction ring 24 cannot be fixedly connected with the adjustment rotating pipe 2.
The regulating slide block 22 is arranged along the direction slide groove 21 in a penetrating way, wherein the branch connecting pipe 23 is fixedly connected with the spraying pipe 17, the connecting hose 1105 sequentially penetrates through the bent angle protection pad 25 and is fixedly connected with the branch connecting pipe 23 through the sleeve joint correction ring 24, the limiting swivel 26 is in threaded connection with the deep insertion pipe 1101 by means of the external threads 1109, and the embedded clamping ring 28 is positioned in the concave groove 1104. After the restraining swivel 26 is connected to the deep cannula 1101, a movable connection between the adjustment swivel 2 and the deep cannula 1101 is possible, i.e. an angular adjustment of the adjustment swivel 2 may take place.
When the position of the spraying pipe 17 is adjusted, the adjusting and controlling sliding block 22 can move along the branch connecting pipe 23 and is adjusted according to the position of the spraying pipe 17, and when the adjusting and controlling sliding block 22 is close to the corner protecting pad 25, the lower top spring 1107 can push the sliding inner plate 1108 downwards, so that the connecting hose 1105 moves downwards in the inside of the inserting pipe 1101, the situation that the connecting hose 1105 bends is avoided, the connecting hose 1105 is effectively ensured to convey the paint normally, the paint can enter the inside of the spraying pipe 17 normally, the spraying head 18 can evenly spray the paint, and in the moving process of the spraying pipe 17, the adjusting rotating pipe 2 can rotate, and the reciprocating movement of the spraying pipe 17 is facilitated.
The supercharging ventilation assembly comprises a containing cylinder 3, an air inlet hole 31, a first through cavity 32, a second through cavity 33, a middle partition plate 34 and a penetrating groove 35, wherein the air inlet hole 31 is formed in the containing cylinder 3 in a penetrating mode, the first through cavity 32 is formed in the containing cylinder 3, the second through cavity 33 is formed in the containing cylinder 3, the middle partition plate 34 is fixed in the containing cylinder 3, and the penetrating groove 35 is formed in the middle partition plate 34 in a penetrating mode. The accommodating cylinder 3 is intercommunicated with the inside of the storage tank 11 by means of the air intake hole 31, the second through cavity 33 is intercommunicated with the outside air, and the middle partition 34 is obliquely below the second through cavity 33.
The accommodating cylinder 3 is fixedly connected with the storage box 11, the pressurizing push rod 1405 is inserted into the accommodating cylinder 3, the extension frame 3301 is placed in the second through cavity 33, the extension frame 3301 is fixedly connected with the accommodating cylinder 3, the movably connected check valve plate 3302 is arranged in the accommodating cylinder 3, the fixedly connected guide rod 3303 is arranged on one side, far away from the extension frame 3301, of the check valve plate 3302, the protective frame 3304 is sleeved on one side, far away from the check valve plate 3302, of the guide rod 3303, and the built-in spring 3305 is placed in the protective frame 3304. The protective frame 3304 is connected to the housing cylinder 3 by a torsion spring, and the guide rod 3303 is located outside the built-in spring 3305 inside the protective frame 3304.
The middle part of middle part baffle 34 runs through and is provided with conflict pole 3401, and the shape that conflict pole 3401 set up is T shape, and wherein the downside of conflict pole 3401 sets up fixed connection's jam piece 3402, and the shape that jam piece 3402 set up is the sphere, and wherein the cover has reset spring 3403 on the conflict pole 3401, and the bilateral symmetry of conflict pole 3401 is provided with limiting plate 3404, and its limiting plate 3404 is fixed on holding drum 3, sets up fixed connection's side branch 3405 on the conflict pole 3401, and wherein side branch 3405 runs through one of them limiting plate 3404 setting. The side struts 3405 make abutting contact with the side of the protective frame 3304 remote from the guide bar 3303.
When the spray head 18 moves upward, the pressurizing rod 1405 moves downward, the internal pressure of the accommodating cylinder 3 increases at this time, so that the blocking block 3402 is pushed up, then air pressure enters into the interior of the storage tank 11 through the air inlet hole 31, the purpose of pressurizing the interior of the storage tank 11 is achieved, paint in the interior of the storage tank 11 is facilitated to be extracted, when the spray head 18 moves upward, the pressurizing rod 1405 sucks air in the interior of the accommodating cylinder 3, negative pressure is formed in the interior of the accommodating cylinder 3, the check valve plate 3302 rotates, external air enters into the interior of the accommodating cylinder 3, supplementary air further, the guide rod 3303 is pushed up, the internal spring 3305 deforms with the accumulating force, so that the side supporting rod 3405 receives upward pushing force, and the blocking block 3402 is tightly attached to the accommodating cylinder 3.
The different technical features presented in the different embodiments may be combined to advantage. Other variations to the disclosed embodiments can be understood and effected by those skilled in the art in view of the drawings, the description, and the claims. In the claims, the term "comprising" does not exclude other means or steps; the indefinite article "a" does not exclude a plurality; the terms "first," "second," and the like, are used for designating a name and not for indicating any particular order. Any reference signs in the claims shall not be construed as limiting the scope. The functions of the various elements presented in the claims may be implemented by means of a single hardware or software module. The presence of certain features in different dependent claims does not imply that these features cannot be combined to advantage.