CN114289226A - Automobile coating equipment in intelligent manufacturing field - Google Patents

Abstract

The invention relates to the technical field of coating equipment, in particular to automobile coating equipment in the field of intelligent manufacturing, which comprises a conveying mechanism and a coating component, wherein the conveying mechanism is also provided with a first brush head component, a lifting component, a cleaning component and a drying component, the cleaning component cleans a workpiece polished by a friction mechanism by placing the workpiece on the conveying mechanism, so that dust and impurities cannot be remained on the surface of the workpiece, the subsequent coating effect is improved, a coating agent is sprayed on the workpiece by the coating component, the first brush head component is driven by the lifting component to be matched with the size of the workpiece, the first brush head component is driven to uniformly coat the surface of the workpiece, the coating agent is uniformly attached to the workpiece, marks left on the surface of vehicle paint due to non-uniform coating are reduced, the coating effect is further improved, and finally the workpiece is driven by the conveying mechanism to be displaced to the drying component, and drying the workpiece through the drying assembly so as to complete the whole coating process.

Description

Automobile coating equipment in intelligent manufacturing field

Technical Field

The invention relates to the technical field of coating equipment, in particular to automobile coating equipment in the field of intelligent manufacturing.

Background

The automobile coating is a common automobile maintenance project at present, is a protection technology for automobile paint, an inorganic coating layer is formed on the surface of the automobile paint after the automobile coating, and the inorganic coating layer is tightly combined with the automobile paint, so that the hardness and the smoothness of the paint surface are improved, the paint surface is completely isolated from air, the coating does not fall off under no external force factor, and the glossiness of the surface of the automobile paint can be improved.

Chinese patent cn202110297165.x mentions a coating apparatus for smart equipment manufacturing process, comprising: the bottom plate, transport the mechanism, friction mechanism and spout membrane mechanism, it moves through the work piece that transport mechanism drove the needs coating film, polish to the work piece through friction mechanism earlier, the rethread spouts membrane mechanism spouts the membrane to it, dry to the work piece at last, but this equipment does not clean just drying to the coating agent of spraying on the work piece after spouting the membrane of membrane mechanism, and equipment process friction mechanism's processing back, the work piece is not cleaned, a large amount of dusts and granule can be remained on the surface of work piece, thereby influence the effect of coating film.

Disclosure of Invention

Based on this, it is necessary to provide an automobile coating device in the intelligent manufacturing field aiming at the problems in the prior art.

The utility model provides an automobile coating equipment in intelligence field of making, includes conveying mechanism and coating film subassembly, conveying mechanism is last still to be provided with first brush head subassembly, be used for driving first brush head subassembly the lifting unit, be used for carrying out clear clean subassembly and be used for carrying out the stoving subassembly of drying to the work piece after the coating film to the work piece, clean subassembly, lifting unit and stoving subassembly set gradually in its top along conveying mechanism's direction of transmission, and first brush head subassembly is located lifting unit, and first brush head subassembly is connected with lifting unit transmission.

Preferably, the lifting assembly comprises a movable plate, a first lead screw, a first rotary driver, a base and three guide pillars, the base is located at the bottom of the conveying mechanism, the three guide pillars and the first lead screw are in a vertical state and located at four end corners of the base respectively, the movable plate is horizontally sleeved on the three guide pillars and the first lead screw, the three guide pillars are connected with the movable plate in a sliding mode, the first lead screw is in threaded fit with the movable plate, the first brush head assembly is located on the movable plate, the first rotary driver is located below the base, and an output shaft of the first rotary driver penetrates through the base and is fixedly connected with the first lead screw.

Preferably, first subassembly of brushing includes first mounting bracket, first synchronous belt, the rotatory driver of second and round brush head, first mounting bracket is located the fly leaf, round brush head is located the bottom of first mounting bracket, it is cylindric structure to roll the brush head, the axis of rolling the brush head is parallel to each other with conveying mechanism's direction of transmission, the rotatory driver of second is located the top of first mounting bracket, the output shaft of the rotatory driver of second runs through the lateral wall of first mounting bracket, first synchronous belt cover is located on the output shaft of rolling brush head and the rotatory driver of second.

Preferably, the first brush head assemblies are provided with two, the two first brush head assemblies are arranged at the bottoms of the movable plates in a mirror image state, two sliding grooves are formed in the two movable plates and arranged along the width direction of the conveying mechanism, the two first mounting frames are respectively slidably arranged in the two sliding grooves, a driving assembly is arranged above one first mounting frame and comprises a second screw rod, a third rotary driver, a sliding block, a gear, a rotating shaft, two mounting plates and two racks, the two mounting plates are respectively arranged at two ends of one sliding groove in a vertical state, the second screw rod is rotatably arranged between the two mounting plates in a horizontal state, the third rotary driver is arranged on the outer side wall of one mounting plate, an output shaft of the third rotary driver penetrates through the mounting plates and is fixedly connected with the second screw rod, and the sliding block is fixedly connected to the first mounting frame, and the second screw rod penetrates through the sliding block to be in threaded fit with the sliding block, the rotating shaft is located at the bottom of the movable plate in a vertical state, the gear is sleeved on the rotating shaft, the two racks are located on two sides of the gear, the two racks are fixedly connected with the two first mounting frames respectively, and the gear is meshed with the two racks.

Preferably, the round brush head of first brush head subassembly has a plurality of, the top of rolling the brush head all is provided with the connecting rod that is vertical state, and the bottom of first mounting bracket is located all to the cover of all connecting rods, all overlaps on all connecting rods to be equipped with first elastic component, and all roll and connect through the second hold-in range between the brush head, and all roll the length direction of brush head along first mounting bracket and set gradually its bottom.

Preferably, a second brush head component is arranged beside the first brush head component and comprises a fourth rotary driver, a supporting plate and a bracket, the second mounting bracket, the gyro wheel, two second elastic components and two spliced poles, the support spanes in conveying mechanism's top, two spliced poles are the top that vertical state is located the second mounting bracket, two elastic components overlap respectively and locate on two spliced poles, the mounting bracket is through two spliced poles and support sliding connection, the gyro wheel is the bottom that the mounting bracket was located to the horizontality cover, the axis direction of gyro wheel and conveying mechanism's direction of transportation mutually perpendicular, the backup pad is the top that vertical state is located the support, fourth rotary actuator fixed connection is in the backup pad, fourth rotary actuator's output shaft runs through the backup pad, the output shaft of fourth rotary actuator and on the gyro wheel are located to the third hold-in range cover.

Preferably, the roller of the first brush head assembly and the roller of the second brush head assembly are made of elastic flexible materials.

Preferably, the coating assembly comprises a storage box, a spraying pipe and a plurality of nozzles, the storage box is located beside the conveying structure, the spraying pipe is located above the conveying mechanism in a horizontal state, the plurality of nozzles are evenly arranged at the bottom of the spraying pipe along the axis direction of the spraying pipe, and the spraying pipe is connected with the discharge box.

Preferably, the cleaning assembly comprises a vertical frame, a water spraying pipe, an air box and a plurality of water spraying ports, the vertical frame stretches over the conveying mechanism, the air box stretches over the conveying mechanism and is located on the side of the vertical frame, the water spraying pipe is located at the top end of the vertical frame in a horizontal state and is connected with an external water source, and the plurality of water spraying ports are evenly arranged at the bottom of the water spraying pipe along the axis direction of the water spraying pipe.

Preferably, the drying component is an infrared lamp, and the infrared lamp spans across the conveying mechanism and is located at the tail end of the conveying direction of the conveying mechanism.

Compared with the prior art, the beneficial effect of this application is:

1. this application is through placing the work piece on conveying mechanism, work piece after polishing is cleaned through clean subassembly, make the surface of work piece can't remain dust and impurity, promote subsequent coating film effect, rethread coating film subassembly carries out spraying coating film agent to the work piece, drive the size of first brush head subassembly matching work piece through lifting unit, it carries out even cleaning to drive first brush head subassembly to the surface of work piece, make the even surface of attaching to the work piece of coating film agent, reduce it and leave the seal of a government organization in old china owing to not scribbling the even surface that leads to car lacquer, thereby further promotion effect of coating film, drive work piece displacement to the stoving subassembly through conveying mechanism at last, dry to the work piece through the stoving subassembly, thereby accomplish whole coating film flow.

2. This application drives the rotation of first lead screw through first rotary actuator, and first lead screw drives the fly leaf, drives first brush head assembly through the fly leaf and goes up and down to make the work piece of the various sizes of laminating that first brush head assembly can be better, improve equipment's suitability.

3. This application drives first synchronous area through second rotary actuator, and first synchronous area drives and rolls the brush head, drives the surface contact who rolls brush head and work piece through lifting unit, paints the coating agent of spraying on the work piece evenly through rotatory round brush head to make coating agent can be even on attaching to the work piece, promote the coating film effect of work piece.

4. This application drives the second lead screw through third rotary actuator, the second lead screw drives the slider, the slider drives first mounting bracket and removes, corotation and reversal through third rotary actuator, can make first mounting bracket carry out reciprocating motion along the spout, thereby it rolls the brush head to drive through first mounting bracket, when rotatory the paining to the surface of work piece through rolling the brush head, promote the effect of paining through reciprocating motion, the rotation of gear is driven through the rack simultaneously, thereby the pivoted of gear has driven the rack of opposite side makes two first brush first subassembly alternative paint to the surface of work piece, make the coating film agent can be even adhere to on the work piece, further promotion work piece's coating film effect, drive two first brush first subassemblies through a drive assembly and remove together, the expenditure of cost has been reduced.

5. This application drives the brush head through second rotary actuator, it is driven the rotation together to make all round brush heads through the connection of second hold-in range, setting through connecting rod and first elastic component, make all round brush heads respectively with the bottom elastic connection of first mounting bracket, make when paining to the work piece through first brush head subassembly, can match the work piece of different shapes through a plurality of round brush heads, laminating work piece that can be fine when the work piece is removed by conveying mechanism, ensure the effect of evenly paining the coating agent, the effect of buffering is played to pressure through setting up of first elastic component, effectual avoiding is because the surface of the too big first brush head subassembly fish tail work piece that leads to of pressure between the connection.

6. This application drives the rotation of third hold-in range through starting fourth rotary actuator, third hold-in range drives the gyro wheel, pass through conveying mechanism when the gyro wheel when the work piece, can drive the gyro wheel upward movement, paint the work piece secondary through rotatory gyro wheel, because the first axis of brushing the head and conveying mechanism's transmission direction is parallel to each other, and the axis direction of gyro wheel and conveying mechanism's direction of transportation mutually perpendicular, make the direction that the gyro wheel was paintd and the direction mutually perpendicular of painting of rolling the head, make that coating agent can be further paintd evenly, thereby promote the effect of coating agent on the work piece, setting through spliced pole and second elastic component, certain cushioning effect has been played, can not lead to the surface of work piece by the fish tail because of rigid connection.

7. This application is through the setting that the first brush head subassembly of rolling of first brush head subassembly and the gyro wheel of the first brush head subassembly were made for elastic flexible material for can play the effect of buffering energy-absorbing when rolling the surface contact of brush head and gyro wheel and work piece, alleviate equipment to the pressure of work piece surface, reduce the possibility that the work piece surface was by the fish tail.

8. This application stores the coating film agent through the storage case, with the coating film agent extraction to the spray pipe in, through opening a plurality of nozzles on the spray pipe, carries out even spraying coating film agent to the work piece through the nozzle, along with conveying mechanism's removal for the coating film agent can be sprayed on the surface of work piece.

9. This application is through in letting in the spray pipe with outside water source, a plurality of water jets through the spray pipe wash the work piece for granule and dust on the work piece of being polished by friction mechanism are washed, and rethread bellows is dried to the surface of work piece, weathers the water on work piece surface through wind-force, thereby promotes subsequent coating film effect, can also increase the brush head and clean the surface of work piece, further promotion cleaning performance.

10. This application maintains certain temperature through infrared lamp for the coating agent can be even by drying, can not produce burnt waste gas and charcoal dirt simultaneously, reduces the pollution of environment, and protection staff's safety increases membrane intensity through infrared lamp's stoving, promotes the effect of coating film.

Drawings

FIG. 1 is a perspective view of the present application in its entirety;

FIG. 2 is a side view of the entirety of the present application;

FIG. 3 is a perspective view of the lift assembly of the present application;

FIG. 4 is a perspective view of the drive assembly of the present application;

FIG. 5 is a bottom view of a portion of a first brushhead assembly of the present application;

FIG. 6 is a perspective view of a portion of a first brushhead assembly of the present application;

FIG. 7 is a side view of a first brush head assembly of the present application;

figure 8 is a perspective view of a second brush head assembly of the present application;

FIG. 9 is a perspective view of a portion of a second brushhead assembly of the present application;

fig. 10 is a schematic perspective view of a drying assembly of the present application;

FIG. 11 is a schematic perspective view of a coating assembly of the present application;

FIG. 12 is a perspective view of the cleaning assembly of the present application;

the reference numbers in the figures are:

1-a conveying mechanism;

2-coating the film assembly; 2 a-a material storage box; 2 b-a spray pipe; 2b 1-nozzle;

3-a first brushhead assembly; 3 a-a first mounting frame; 3a1 — second rotary drive; 3 b-a roller brush head; 3b 1-first timing belt; 3b2 — second timing belt; 3b 3-connecting rod; 3b4 — a first elastic member; 3 c-a drive assembly; 3c 1-second lead screw; 3c 2-third rotary drive; 3c3 — slide; 3c 4-gear; 3c 5-rack; 3c 6-axis of rotation; 3c 7-mounting plate; 3 d-a second brushhead assembly; 3d1 — fourth rotary drive; 3d 2-support plate; 3d 3-scaffold; 3d4 — second mount; 3d 5-roller; 3d6 — a second elastic member; 3d 7-connecting column; 3d 8-third timing belt;

4-a lifting assembly; 4 a-a movable plate; 4 b-a first rotary drive; 4b1 — first lead screw; 4 c-a base; 4c 1-guide posts; 4 d-a chute;

5-a cleaning component; 5 a-a vertical frame; 5 b-a water spray pipe; 5b 1-Water jet; 5 c-a wind box;

6-drying the component; 6 a-infrared lamp.

Detailed Description

For further understanding of the features and technical means of the present invention, as well as the specific objects and functions attained by the present invention, the present invention will be described in further detail with reference to the accompanying drawings and detailed description.

As shown in fig. 1-12, the present application provides: the utility model provides an automobile coating equipment in intelligence field of making, includes conveying mechanism 1 and coating film subassembly 2, still be provided with first brush head assembly 3 on conveying mechanism 1, be used for driving first brush head assembly 3 lift assembly 4, be used for carrying out clear clean subassembly 5 and be used for carrying out the stoving subassembly 6 of drying to the work piece after the coating film to the work piece, clean subassembly 5, lift assembly 4 and stoving subassembly 6 set gradually in its top along conveying mechanism 1's transmission direction, first brush head assembly 3 is located lift assembly 4, and first brush head assembly 3 is connected with lift assembly 4 transmission.

Based on the above embodiment, the technical problem that this application wants to solve is that the coating agent of spraying on the work piece is not wiped just is dried after spouting the membrane of membrane mechanism, and the equipment is through the processing of rubbing mechanism, and the work piece is not cleaned, and a large amount of dust and granule can remain on the surface of work piece to influence the effect of coating film. For this reason, this application is through placing the work piece on conveying mechanism 1, the work piece of polishing to friction mechanism through clean subassembly 5 cleans, make the surface of work piece can't remain dust and impurity, promote subsequent coating film effect, rethread coating film subassembly 2 carries out the spraying coating film agent to the work piece, drive the size that first brush head subassembly 3 matees the work piece through lifting unit 4, drive first brush head subassembly 3 and carry out even wiping to the surface in the work piece, make the even surface of attaching to the work piece of coating film agent, reduce it and leave the seal of a government organization in old china owing to not scribbling the even surface that leads to the car lacquer, thereby further promotion coating film's effect, drive work piece displacement to drying assembly 6 through conveying mechanism 1 at last, dry to the work piece through drying assembly 6, thereby accomplish whole coating film flow.

As shown in fig. 3, further: the lifting assembly 4 comprises a movable plate 4a, a first screw rod 4b1, a first rotary driver 4b, a base 4c and three guide posts 4c1, the base 4c is located at the bottom of the conveying mechanism 1, the three guide posts 4c1 and the first screw rod 4b1 are vertically located at four corners of the base 4c respectively, the movable plate 4a is horizontally sleeved on the three guide posts 4c1 and the first screw rod 4b1, the three guide posts 4c1 are slidably connected with the movable plate 4a, the first screw rod 4b1 is in threaded fit with the movable plate 4a, the first brush head assembly 3 is located on the movable plate 4a, the first rotary driver 4b is located below the base 4c, and an output shaft of the first rotary driver 4b penetrates through the base 4c and is fixedly connected with the first screw rod 4b 1.

Based on the above embodiments, the technical problem that the present application intends to solve is to allow the first brush head assembly 3 to match workpieces of different sizes. For this reason, this application is through starting first rotary actuator 4b, the output shaft of first rotary actuator 4b has driven the rotation of the first lead screw 4b1 rather than fixed connection, the rotation of first lead screw 4b1 has driven the fly leaf 4a rather than screw-thread fit, fly leaf 4a moves along the axis direction of three guide pillars 4c1, three guide pillars 4c1 have played the effect of direction, drive first brush head assembly 3 through fly leaf 4a and go up and down, thereby make first brush head assembly 3 can be better the work piece of laminating various sizes, improve the suitability of equipment.

As shown in fig. 3-7, further: first brush head assembly 3 includes first mounting bracket 3a, first synchronous belt 3b1, second rotary drive ware 3a1 and round brush head 3b, first mounting bracket 3a is located fly leaf 4a, round brush head 3b is located the bottom of first mounting bracket 3a, round brush head 3b be cylindric structure, the axis of round brush head 3b is parallel to each other with conveying mechanism 1's transmission direction, second rotary drive ware 3a1 is located the top of first mounting bracket 3a, the output shaft of second rotary drive ware 3a1 passes through the lateral wall of first mounting bracket 3a, first synchronous belt 3b1 cover is located on round brush head 3b and the output shaft of second rotary drive ware 3a 1.

Based on the above embodiments, the technical problem that the present application intends to solve is to uniformly coat the workpiece on which the coating agent is sprayed. For this reason, this application is through starting second rotary actuator 3a1, the output shaft of second rotary actuator 3a1 has driven the rotation of first synchronous belt 3b1, first synchronous belt 3b1 has driven the rotation of round brush head 3b, drive the surface contact of round brush head 3b and work piece through lifting unit 4, it is even to scribble the coating agent of spraying on the work piece through rotatory round brush head 3b, thereby make the coating agent can be even attached to on the work piece, promote the coating effect of work piece.

As shown in fig. 3-7, further: the first brush head assemblies 3 are provided with two, the two first brush head assemblies 3 are located at the bottom of a movable plate 4a in a mirror image state, two sliding grooves 4d arranged along the width direction of the conveying mechanism 1 are arranged on the two movable plates 4a, two first mounting frames 3a are respectively slidably located in the two sliding grooves 4d, a driving assembly 3c is arranged above one first mounting frame 3a, the driving assembly 3c comprises a second screw rod 3c1, a third rotary driver 3c2, a sliding block 3c3, a gear 3c4, a rotary shaft 3c6, two mounting plates 3c7 and two racks 3c5, the two mounting plates 3c7 are both vertically located at two ends of one sliding groove 4d, the second screw rod 3c1 is horizontally and rotatably located between two mounting plates 3c7, the third rotary driver 3c2 is located on the outer side wall of one mounting plate 3c7, an output shaft of the third rotary driver 3c2 penetrates through the mounting plate 3c7 to be fixedly connected with the second lead screw 3c1, the slider 3c3 is fixedly connected to the first mounting frame 3a, the second lead screw 3c1 penetrates through the slider 3c3 to be in threaded fit with the first lead screw, the rotary shaft 3c6 is vertically positioned at the bottom of the movable plate 4a, the gear 3c4 is sleeved on the rotary shaft 3c6, the two racks 3c5 are positioned at two sides of the gear 3c4, the two racks 3c5 are respectively and fixedly connected with the two first mounting frames 3a, and the gear 3c4 is meshed with the two racks 3c 5.

Based on the above embodiments, the technical problem that the present application intends to solve is to improve the coating effect of the coating agent. For this purpose, the present application starts the third rotary driver 3c2, the output shaft of the third rotary driver 3c2 drives the second lead screw 3c1 fixedly connected with the third rotary driver, the rotation of the second lead screw 3c1 drives the slider 3c3 in threaded fit with the third lead screw, since the slider 3c3 is fixedly connected with one of the first mounting brackets 3a, the slider 3c3 drives the first mounting bracket 3a to move along the direction of the chute 4d, the first mounting bracket 3a can reciprocate along the chute 4d by the forward rotation and reverse rotation of the third rotary driver 3c2, so that the reciprocating motion of the roller head 3b is driven by the movement of the first mounting bracket 3a, the smearing effect is improved by the reciprocating motion while the surface of the workpiece is smeared by the roller head 3b, and at the same time, since the movement of the first mounting bracket 3a drives the rack 3c5 fixedly connected with the upper side of the first mounting bracket 3a to move, the rack 3c5 moves to drive the gear 3c4 meshed with the rack to rotate, the gear 3c4 rotates on the rotating shaft 3c6, the gear 3c4 rotates to drive the rack 3c5 meshed with the rack on the other side to move, so that the two first brush head assemblies 3 are alternately coated on the surface of a workpiece, the coating agent can be uniformly attached to the workpiece, the coating effect of the workpiece is further improved, and the two first brush head assemblies 3 are driven to move together by one driving assembly 3c, so that the cost is reduced.

As shown in fig. 3-7, further: first brush head assembly 3's round brush head 3b has a plurality of, round brush head 3 b's top all is provided with the connecting rod 3b3 that is vertical state, and the bottom of first mounting bracket 3a is all located to all connecting rods 3b3 cover, all overlaps on all connecting rods 3b3 to be equipped with first elastic component 3b4, all roll and connect through second hold-in range 3b2 between the brush head 3b, and all round brush head 3b have set gradually its bottom along the length direction of first mounting bracket 3 a.

Based on the above embodiments, the technical problem that the present application intends to solve is that the roller brush head 3b can better conform to the surface of workpieces with different shapes and sizes. For this reason, this application drives the rotation of one of them brush head 3b through second rotary actuator 3a1, make all brush heads 3b driven the rotation together through the connection of second hold-in range 3b2, through the setting of connecting rod 3b3 and first elastic component 3b4, make all brush heads 3b respectively with the bottom elastic connection of first mounting bracket 3a, make when smearing the work piece through first brush head subassembly 3, can match the work piece of different shapes through a plurality of brush heads 3b, laminating work piece that can be fine when the work piece is moved by conveying mechanism 1, ensure the effect of evenly scribbling the coating agent, play the effect of buffering to pressure through the setting of first elastic component 3b4, effectual avoid leading to the surface of first brush head subassembly 3 fish tail work piece because pressure is too big between the connection.

As shown in fig. 8 and 9, further: the side of the first brush head component 3 is further provided with a second brush head component 3d, the second brush head component 3d comprises a fourth rotary driver 3d1, a supporting plate 3d2, a bracket 3d3, a second mounting frame 3d4, a roller 3d5, two second elastic pieces 3d6 and two connecting columns 3d7, the bracket 3d3 spans above the conveying mechanism 1, the two connecting columns 3d7 are vertically positioned at the top of the second mounting frame 3d4, the two elastic pieces are respectively sleeved on the two connecting columns 3d7, the mounting frame is slidably connected with the bracket 3d3 through the two connecting columns 3d7, the roller 3d5 is horizontally sleeved at the bottom of the mounting frame, the axial direction of the roller 3d5 is perpendicular to the conveying direction of the conveying mechanism 1, the supporting plate 3d2 is vertically positioned at the top end of the bracket 3d3, the fourth rotary driver 3d1 is fixedly connected to the supporting plate 3d2, and the supporting plate 3d1 of the supporting plate 3d2, the third timing belt 3d8 is sleeved on the output shaft of the fourth rotary driver 3d1 and the roller 3d 5.

Based on the above embodiments, the technical problem that the application wants to solve is to improve the coating effect by more uniformly coating the coating agent. For this purpose, the application starts the fourth rotary driver 3d1, the output shaft of the fourth rotary driver 3d1 drives the third synchronous belt 3d8 fixedly connected with the fourth rotary driver to rotate, the third synchronous belt 3d8 drives the roller 3d5 to rotate, the roller 3d5 is initially positioned on the conveying mechanism 1, when the workpiece passes through the roller 3d5 by the conveying mechanism 1, the roller 3d5 is driven to move upwards, the workpiece is coated for the second time by the rotating roller 3d5, because the axis of the roller head 3b of the first brush head assembly 3 is parallel to the conveying direction of the conveying mechanism 1, and the axis direction of the roller 3d5 is perpendicular to the conveying direction of the conveying mechanism 1, the coating direction of the roller 3d5 is perpendicular to the coating direction of the roller head 3b, so that the coating agent can be further coated uniformly, thereby improving the effect of the coating agent on the workpiece, through the setting of spliced pole 3d7 and second elastic component 3d6 for gyro wheel 3d5 and support 3d3 elastic connection, make the work piece through, the mounting bracket can extrude second elastic component 3d6, make the mounting bracket remove along the axis direction of spliced pole 3d7, played certain cushioning effect, can not lead to the surface of work piece by the fish tail because of rigid connection.

Further: the rolling brush head 3b of the first brush head assembly 3 and the roller 3d5 of the second brush head assembly 3d are made of elastic flexible materials.

Based on the above embodiments, the technical problem that the present application intends to solve is that the roller head 3b of the first brush head assembly 3 and the roller 3d5 of the second brush head assembly 3d may be damaged by paint and the surface of the workpiece may be scratched due to excessive hardness while working. For this reason, the rolling brush head 3b of the first brush head assembly 3 and the roller 3d5 of the second brush head assembly 3d are made of elastic flexible materials, so that the rolling brush head 3b and the roller 3d5 can play a role of buffering and absorbing energy when contacting with the surface of the workpiece, the pressure of the device on the surface of the workpiece is relieved, and the possibility of scratching the surface of the workpiece is reduced.

As shown in fig. 11, further: coating film subassembly 2 includes storage case 2a, spray tube 2b and a plurality of nozzle 2b1, and storage case 2a is located conveying structure's side, and spray tube 2b is the horizontal state and is located conveying mechanism 1's top, and a plurality of nozzle 2b1 evenly sets up in spray tube 2 b's bottom along spray tube 2 b's axis direction, and spray tube 2b is connected with ejection of compact case.

Based on the above embodiments, the technical problem that the present application intends to solve is to perform film coating on a workpiece. Therefore, the coating agent is stored in the storage box 2a, the coating agent is extracted into the spraying pipe 2b, the plurality of nozzles 2b1 on the spraying pipe 2b are opened, the coating agent is uniformly sprayed on the workpiece through the nozzles 2b1, and the coating agent can be sprayed on the surface of the workpiece along with the movement of the conveying mechanism 1.

As shown in fig. 12, further: cleaning assembly 5 includes grudging post 5a, spray pipe 5b, bellows 5c and a plurality of water jet 5b1, and grudging post 5a spanes in conveying mechanism 1's top, and bellows 5c spanes in conveying mechanism 1's top and is located the side of grudging post 5a, and spray pipe 5b is the horizontal state and is located the top of grudging post 5a, and spray pipe 5b is connected with outside water supply, and a plurality of water jet 5b1 is along the even setting in its bottom of the axis direction of spray pipe 5 b.

Based on the above-described embodiments, the technical problem that the present application intends to solve is to clean the surface of the workpiece by the cleaning assembly 5. For this reason, this application supports spray pipe 5b through grudging post 5a, through in letting in spray pipe 5b with outside water source, water through in the spray pipe 5b lets in a plurality of water jets 5b1, the rethread is a plurality of water jets 5b1 wash the work piece, make granule and dust on the work piece of being polished by friction mechanism washed away, rethread bellows 5c dries to the surface of work piece, through wind-force with the water on work piece surface weathers, thereby promote subsequent coating film effect, can also increase the brush head and wipe the surface of work piece, further promotion cleaning effect.

As shown in fig. 10, further: the drying component 6 is an infrared lamp 6a, and the infrared lamp 6a spans on the conveying mechanism 1 and is located at the tail end of the conveying direction of the conveying mechanism 1.

Based on the embodiment, the technical problem that this application wants to solve is to the work piece after the coating film is dried. For this reason, this application maintains certain temperature through infrared lamp 6a for the coating agent can be even by drying, can not produce burning waste gas and charcoal dirt simultaneously, reduces the pollution of environment, and protection staff's safety increases membrane intensity through infrared lamp 6 a's stoving, promotes the effect of coating film.

The above examples, which are intended to represent only one or more embodiments of the present invention, are described in greater detail and with greater particularity, and are not to be construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. The utility model provides an automobile coating equipment in intelligence field of making, includes conveying mechanism (1) and coating film subassembly (2), a serial communication port, still be provided with first brush subassembly (3) on conveying mechanism (1), be used for driving lift subassembly (4) of first brush subassembly (3), be used for carrying out clear clean subassembly (5) and be used for carrying out stoving subassembly (6) of drying to the work piece after the coating film to the work piece, clean subassembly (5), lift subassembly (4) and stoving subassembly (6) set gradually in its top along the direction of transmission of conveying mechanism (1), first brush subassembly (3) are located lift subassembly (4), and first brush subassembly (3) are connected with lift subassembly (4) transmission.

2. The automobile film coating device in the intelligent manufacturing field according to claim 1, wherein the lifting assembly (4) comprises a movable plate (4a), a first screw rod (4b1), a first rotary driver (4b), a base (4c) and three guide posts (4c1), the base (4c) is located at the bottom of the conveying mechanism (1), the three guide posts (4c1) and the first screw rod (4b1) are vertically located at four corners of the base (4c), the movable plate (4a) is horizontally sleeved on the three guide posts (4c1) and the first screw rod (4b1), the three guide posts (4c1) are slidably connected with the movable plate (4a), the first screw rod (4b1) is in threaded fit with the movable plate (4a), the first brush head assembly (3) is located on the movable plate (4a), and the first rotary driver (4b) is located below the base (4c), the output shaft of the first rotary driver (4b) penetrates through the base (4c) and is fixedly connected with the first screw rod (4b 1).

3. The automobile coating equipment in the intelligent manufacturing field is characterized in that, first brush head subassembly (3) include first mounting bracket (3a), first synchronous belt (3b1), second rotary drive ware (3a1) and roll brush head (3b), first mounting bracket (3a) are located fly leaf (4a), roll brush head (3b) and be located the bottom of first mounting bracket (3a), roll brush head (3b) be cylindric structure, the axis of rolling brush head (3b) is parallel to each other with the direction of transmission of conveying mechanism (1), second rotary drive ware (3a1) are located the top of first mounting bracket (3a), the output shaft of second rotary drive ware (3a1) passes through the lateral wall of first mounting bracket (3a), first synchronous belt (3b1) cover is located and is rolled on brush head (3b) and the output shaft of second rotary drive ware (3a 1).

4. The automobile film coating device in the intelligent manufacturing field is characterized in that the number of the first brush head assemblies (3) is two, the two first brush head assemblies (3) are located at the bottom of the movable plate (4a) in a mirror image state, the two movable plates (4a) are provided with two sliding grooves (4d) arranged along the width direction of the conveying mechanism (1), the two first mounting frames (3a) are respectively slidably located in the two sliding grooves (4d), a driving assembly (3c) is arranged above one first mounting frame (3a), the driving assembly (3c) comprises a second screw rod (3c1), a third rotary driver (3c2), a sliding block (3c3), a gear (3c4), a rotating shaft (3c6), two mounting plates (3c7) and two racks (3c5), the two mounting plates (3c7) are both located at two ends of one sliding groove (4d) in a vertical state, the second screw rod (3c1) is positioned between two mounting plates (3c7) in a horizontal state in a rotatable manner, the third rotary driver (3c2) is positioned on the outer side wall of one mounting plate (3c7), the output shaft of the third rotary driver (3c2) penetrates through the mounting plate (3c7) to be fixedly connected with the second screw rod (3c1), the slider (3c3) is fixedly connected onto the first mounting frame (3a), and the second screw rod (3c1) penetrates through the slider (3c3) to be matched with the screw thread thereof, the rotating shaft (3c6) is positioned at the bottom of the movable plate (4a) in a vertical state, the gear (3c4) is sleeved on the rotating shaft (3c6), the two racks (3c5) are positioned at two sides of the gear (3c4), and the two racks (3c5) are respectively fixedly connected with the two first mounting racks (3a), and the gear (3c4) is meshed with the two racks (3c 5).

5. The automobile coating equipment in the intelligent manufacturing field is characterized in that the number of the rolling brush heads (3b) of the first brush head assembly (3) is multiple, the top of each rolling brush head (3b) is provided with a connecting rod (3b3) in a vertical state, all the connecting rods (3b3) are sleeved at the bottom of the first mounting frame (3a), all the connecting rods (3b3) are sleeved with first elastic pieces (3b4), all the rolling brush heads (3b) are connected through second synchronous belts (3b2), and all the rolling brush heads (3b) are sequentially provided with bottoms in the length direction of the first mounting frame (3 a).

6. The automobile film coating equipment in the intelligent manufacturing field of claim 3, wherein a second brush head assembly (3d) is further arranged beside the first brush head assembly (3), the second brush head assembly (3d) comprises a fourth rotary driver (3d1), a supporting plate (3d2), a bracket (3d3), a second mounting rack (3d4), a roller (3d5), two second elastic members (3d6) and two connecting columns (3d7), the bracket (3d3) spans above the conveying mechanism (1), the two connecting columns (3d7) are vertically positioned at the top of the second mounting rack (3d4), the two elastic members are respectively sleeved on the two connecting columns (3d7), the two connecting columns (3d7) are slidably connected with the mounting rack (3d3) through the two connecting columns, the roller (3d5) is horizontally sleeved at the bottom of the mounting rack, the axial direction of the roller (3d5) is perpendicular to the conveying direction of the conveying mechanism (1), the supporting plate (3d2) is located at the top end of the support (3d3) in a vertical state, the fourth rotary driver (3d1) is fixedly connected to the supporting plate (3d2), the output shaft of the fourth rotary driver (3d1) penetrates through the supporting plate (3d2), and the third synchronous belt (3d8) is sleeved on the output shaft of the fourth rotary driver (3d1) and the roller (3d 5).

7. The automobile film coating equipment in the intelligent manufacturing field is characterized in that the roller head (3b) of the first brush head assembly (3) and the roller (3d5) of the second brush head assembly (3d) are made of elastic flexible materials.

8. The automobile coating device in the intelligent manufacturing field according to any one of claims 1 to 7, wherein the coating assembly (2) comprises a storage tank (2a), a spraying pipe (2b) and a plurality of nozzles (2b1), the storage tank (2a) is located beside the conveying structure, the spraying pipe (2b) is located above the conveying mechanism (1) in a horizontal state, the plurality of nozzles (2b1) are uniformly arranged at the bottom of the spraying pipe (2b) along the axial direction of the spraying pipe (2b), and the spraying pipe (2b) is connected with the discharge tank.

9. The automobile film coating device in the intelligent manufacturing field according to any one of claims 1 to 7, wherein the cleaning assembly (5) comprises a stand (5a), a water spraying pipe (5b), an air box (5c) and a plurality of water spraying ports (5b1), the stand (5a) spans over the conveying mechanism (1), the air box (5c) spans over the conveying mechanism (1) and is located beside the stand (5a), the water spraying pipe (5b) is located at the top end of the stand (5a) in a horizontal state, the water spraying pipe (5b) is connected with an external water source, and the plurality of water spraying ports (5b1) are uniformly arranged at the bottom of the water spraying pipe (5b) along the axial direction of the water spraying pipe.

10. An automobile coating device in the intelligent manufacturing field according to any one of claims 1 to 7, wherein the drying component (6) is an infrared lamp (6a), and the infrared lamp (6a) spans the conveying mechanism (1) and is positioned at the tail end of the conveying direction of the conveying mechanism (1).

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