CN212092948U - Coating and paint spraying system - Google Patents

Abstract

The invention discloses a coating and paint spraying system, which comprises a paint spraying chamber and a water circulating device, wherein the water circulating device is arranged in the paint spraying chamber; the spray booth comprises a shell, an axial flow fan, a strip-shaped water storage tank, a steel screen plate, a water collecting tank, a conveying belt and a spray painting mechanism; the water circulation device comprises a recovery tank, a right side cover plate, a left side cover plate, a liquid inlet pipe, a recovery pipe, a filtering membrane plate, a rectangular frame plate, a suspension foam plate and an oil stain recovery pipe. The coating and paint spraying system is installed in a plug-in mode by utilizing the filtering membrane plate, is convenient for later-stage disassembly and maintenance, realizes manual isolation by the arranged fixed baffle and the plug-in baffle, and can be replaced and maintained without stopping; spraying water mist to the steel screen plate by using a water mist spray head so as to carry out water curtain adsorption on the passing air flow and fully adsorb the paint in the paint mist; utilize bar water storage box, steel mesh plate, water catch bowl and water smoke shower nozzle can form even water curtain on the steel mesh plate, and can collect the water resource and be used for cyclic utilization.

Description

Coating and paint spraying system

Technical Field

The invention relates to a coating and painting system, in particular to a coating and painting system.

Background

At present, in the current application formation process, because the spraying paint can produce a large amount of coating cloud, not only lead to the fact the health to the workshop personnel that spray paint influence, but also can cause environmental pollution. Therefore, it is necessary to design a paint spraying system capable of realizing rapid adsorption of paint mist, thereby meeting the requirement of environmental protection.

Disclosure of Invention

The invention has the following aims: the coating and painting system can realize quick adsorption of paint mist, thereby meeting the requirement of environmental protection.

The technical scheme is as follows: the invention provides a coating and paint spraying system, which comprises a paint spraying chamber and a water circulating device;

the spray booth comprises a shell, an axial flow fan, a strip-shaped water storage tank, a steel screen plate, a water collecting tank, a conveying belt and a spray painting mechanism;

a partition plate is vertically arranged in the shell to divide the interior of the shell into a left cavity and a right cavity; the axial flow fan is fixedly arranged on the partition plate, the air outlet is positioned in the left cavity, and the air inlet is positioned in the right cavity; a driving motor is arranged at the top of the outer side of the shell and drives the axial flow fan to rotate through a chain; the strip-shaped water storage tank is longitudinally and fixedly arranged on the inner top of the left cavity, and the water collecting tank is fixedly arranged on the inner bottom of the left cavity; the upper side edge of the steel screen plate is fixedly arranged on the lower side surface of the strip-shaped water storage tank, and the lower side edge of the steel screen plate is obliquely inserted into the upper opening of the water collecting tank; a water mist spray head for spraying water mist to the steel screen plate is communicated and arranged on the lower side surface of the strip-shaped water storage tank; a water inlet pipe communicated with the strip-shaped water storage tank and a water recovery pipe communicated with the water collecting tank are arranged at the rear side of the shell;

the front side and the rear side of the shell are provided with a feeding and discharging window communicated with the right cavity; the conveyer belt is longitudinally installed through the conveyer bracket, and the feeding side and the discharging side of the conveyer belt penetrate through the feeding and discharging windows at the front side and the rear side and are positioned outside the shell;

the paint spraying mechanism comprises a sleeve, a vertical pipe, a cross pipe frame, four suspension rods and four paint nozzles; the sleeve is vertically installed at the top of the right cavity in a penetrating manner, and a positioning bolt is screwed on the wall of the sleeve in a threaded manner; the upper end of the vertical pipe is provided with a limit convex ring, and the lower end of the vertical pipe penetrates through the sleeve and extends into the right cavity; positioning holes are arranged on the pipe wall of the vertical pipe at intervals, and a screw rod of a positioning bolt is inserted into the positioning holes; the center of the cross pipe frame is fixedly arranged on the lower end part of the vertical pipe; four suspension rods are respectively and vertically arranged on the lower side surfaces of the end parts of the four branches of the cross-shaped pipe frame; the lower end parts of the four suspension rods are respectively provided with a hinged seat, the four paint nozzles are respectively hinged on the four hinged seats, and the four paint nozzles are all positioned above the conveying belt; paint pipes of the four paint nozzles sequentially penetrate through the branch pipes and the vertical pipes of the cross-shaped pipe frame and are communicated to the outside of the shell;

the water circulation device comprises a recovery tank, a right side cover plate, a left side cover plate, a liquid inlet pipe, a recovery pipe, a filtering membrane plate, a rectangular frame plate, a suspended foam plate and an oil stain recovery pipe; a recovery corner area is integrally and communicated with the left side of the recovery tank; the right side cover plate is hinged to the right side edge of the recovery tank and is used for covering the upper part of the recovery tank; the left side cover plate is hinged to the left side edge of the recovery corner area and is used for covering the upper part of the recovery corner area; the liquid inlet pipe is fixedly arranged on the right side of the recovery tank and is communicated with the interior of the recovery tank; the recovery pipe is fixedly arranged on the left side of the recovery corner area, and a recovery strip-shaped hole is longitudinally formed in the upper pipe wall of the recovery pipe; a guide sliding strip is vertically arranged on the outer side surfaces of the front frame and the rear frame of the rectangular frame plate; a guide sliding chute is vertically arranged on the inner walls of the front side and the rear side of the recovery corner area and is positioned at an inlet communicated with the right side of the recovery corner area; the rectangular frame plate is longitudinally arranged at a right side communication inlet of the recovery corner area, and the two guide sliding strips are respectively embedded into the two guide sliding chutes in a sliding manner; the upper side of the left frame of the rectangular frame plate is higher than the upper side of the right frame, so that oil stains can be collected in the rectangular frame plate; the suspension foam board is fixedly arranged between the two guide sliding strips and is positioned below the rectangular frame plate; a suspension pipe is longitudinally arranged in the rectangular frame plate, and two ends of the suspension pipe are sealed; a strip-shaped collecting hole is longitudinally formed in the upper side wall of the suspension pipe; two ends of the suspension pipe are respectively provided with a suspension end block; a hose is communicated with the lower side of the suspension pipe and is installed on the suspension foam board in a penetrating manner; the oil stain recovery pipe is fixedly arranged on the recovery corner area in a penetrating mode, and the inner end part of the oil stain recovery pipe is communicated with the hose in a butt joint mode; side strip-shaped plates are obliquely arranged on the inner walls of the front side and the rear side of the recovery corner area, and two insertion grooves are arranged on the opposite inner sides of the two side strip-shaped plates; the front side and the rear side of the filtering membrane plate are inserted into the insertion grooves at the corresponding positions of the front side and the rear side, a fixed baffle and a drawing and inserting baffle are arranged in the other insertion groove in a close-fitting manner, the fixed baffle is fixedly arranged in the insertion grooves, and the drawing and inserting baffle is movably inserted into the insertion grooves; strip-shaped water passing holes are longitudinally formed in the fixed baffle and the inserting baffle, and the strip-shaped water passing holes in the fixed baffle and the inserting baffle are staggered and sealed after the inserting baffle is upwards drawn; the recovery strip-shaped holes on the recovery pipe are positioned on the left side of the filtering membrane plate;

the water inlet pipe is connected with the recovery pipe through a water inlet pipeline; the recycling water pipe is connected with the liquid inlet pipe through a recycling pipeline; and water pumps are respectively arranged on the water inlet pipeline and the recovery pipeline.

Furthermore, door plate sliding chutes are vertically arranged on the left side and the right side of the feeding and discharging window; the door plate chutes on the left side and the right side are provided with the door plate; two internal threaded pipes are arranged on the outer side of the window and door plate; a height locking bolt is screwed on the internal thread pipe, and the end part of the height locking bolt is pressed on the outer wall of the shell.

Furthermore, an air outlet pipeline is longitudinally arranged on the inner wall of the left side cavity, and a strip-shaped air suction opening is arranged on the lower side surface of the air outlet pipeline; an air outlet pipe communicated with the air outlet pipeline is arranged on the left side wall of the shell; the right side surface of the air outlet pipeline is provided with an inclined slope surface which is convenient for water drops to flow downwards.

Furthermore, clamping edge strips used for clamping the front side edge and the rear side edge of the steel mesh plate are arranged on the inner walls of the front side and the rear side of the shell.

Furthermore, a heat exchange bent pipe is arranged in the recovery tank; and a heat exchange inlet and a heat exchange outlet which are communicated with the two ends of the heat exchange bent pipe are arranged on the outer side of the recovery tank.

Furthermore, a horizontal support rod which is horizontally arranged in the transverse direction and the longitudinal direction is arranged at the upper opening of the recovery tank; the lower side of the cover plate is supported on the horizontal support rod.

Furthermore, a sealing strip is arranged on the side edge of the right side cover plate; a sealing groove is formed in the side edge of the left side cover plate; after the right side apron and the left side apron lid close, the sealing strip imbeds in the seal groove.

Further, a lifting lug convenient for lifting is arranged at the upper edge of the pulling and inserting baffle.

Furthermore, the peripheries of the recovery tank and the recovery corner area are coated with heat-insulating protective layers.

Compared with the prior art, the invention has the beneficial effects that: the filtering membrane plates are mounted in a plug-in mode, so that later-period disassembly and maintenance are facilitated, manual isolation is realized through the arranged fixed baffle and the plug-in baffle, and the filtering membrane plates can be replaced and maintained without stopping; the suspension of the rectangular frame plate along with the water level can be realized by the arrangement of the suspension foam plate, the guide sliding strips and the guide sliding grooves, so that the paint on the upper layer is collected in the rectangular frame plate, and the paint in the gaps of the front side and the rear side of the rectangular frame plate can be blocked by the arrangement of the two guide sliding strips; the suspension end blocks are arranged at two ends of the suspension pipe, so that the suspension pipe can float up and down along with the height of the paint layer, and the paint layer is effectively sucked out; spraying water mist to the steel screen plate by using a water mist spray head so as to carry out water curtain adsorption on the passing air flow and fully adsorb the paint in the paint mist; the hot air mechanism can be used for drying the sprayed paint and can be matched with the axial flow fan to form an airflow loop at the same time, and redundant paint mist is blown to the steel screen plate for adsorption; the strip-shaped water storage tank, the steel mesh plate, the water collecting tank and the water mist spray head are utilized to form a uniform water curtain on the steel mesh plate, and water resources can be collected for cyclic utilization; the height adjustment of the four paint nozzles can be realized by utilizing the matching installation of the sleeve, the vertical pipe, the positioning bolt and the positioning hole; four paint nozzles are respectively installed on the four hinged seats in a hinged mode, so that the paint spraying angles of the four paint nozzles can be conveniently adjusted, and the paint spraying requirements of various types of workpieces are met.

Drawings

FIG. 1 is a schematic sectional view of a spray booth according to the present invention;

FIG. 2 is a schematic structural diagram of the water circulation device of the present invention;

FIG. 3 is a left side view of the inserting baffle of the present invention;

fig. 4 is a schematic structural diagram of the rectangular frame plate created by the present invention.

Detailed Description

The technical solutions of the present invention will be described in detail below with reference to the accompanying drawings, but the scope of the present invention is not limited to the embodiments.

Example 1:

as shown in fig. 1 to 3, the coating and painting system of the present invention includes: comprises a paint spraying chamber and a water circulating device;

the spray booth comprises a shell 50, an axial flow fan 40, a strip-shaped water storage tank 38, a steel mesh plate 30, a water collecting tank 31, a conveying belt 35 and a spray painting mechanism;

a partition plate 34 is vertically arranged in the shell 50 to divide the interior of the shell 50 into a left cavity and a right cavity; the axial flow fan 40 is fixedly arranged on the partition plate 34, an air outlet is positioned in the left cavity, and an air inlet is positioned in the right cavity; a driving motor 42 is installed at the top of the outer side of the shell 50, and the driving motor 42 drives the axial flow fan 40 to rotate through a chain 43; the strip-shaped water storage tank 38 is longitudinally and fixedly arranged on the inner top of the left cavity, and the water collecting tank 31 is fixedly arranged on the inner bottom of the left cavity; the upper side edge of the steel mesh plate 30 is fixedly arranged on the lower side surface of the strip-shaped water storage tank 38, and the lower side edge of the steel mesh plate 30 is obliquely inserted into the upper opening of the water collecting tank 31; a water mist spray head 39 for spraying water mist to the steel mesh plate 30 is communicated with the lower side surface of the strip-shaped water storage tank 38; a water inlet pipe 41 communicated with the strip-shaped water storage tank 38 and a water recovery pipe 32 communicated with the water collection tank 31 are arranged at the rear side of the shell 50;

the front and back sides of the shell 50 are provided with a feeding and discharging window 36 communicated with the right cavity; the conveyer belt 35 is longitudinally installed through the conveyer bracket 33, and the feeding side and the discharging side of the conveyer belt 35 penetrate through the feeding and discharging windows 36 on the front side and the rear side and are positioned outside the shell 50;

the paint spraying mechanism comprises a sleeve 44, a vertical pipe 45, a cross pipe frame 53, four suspension rods 54 and four paint nozzles 56; the sleeve 44 is vertically installed at the top of the right cavity in a penetrating manner, and a positioning bolt 47 is screwed on the wall of the sleeve 44; the upper end of the vertical pipe 45 is provided with a limit convex ring 46, and the lower end of the vertical pipe 45 penetrates through the sleeve 44 and extends into the right cavity; positioning holes 48 are arranged on the pipe wall of the vertical pipe 45 at intervals, and the screw rod of the positioning bolt 47 is inserted into the positioning holes 48; the center of the cross pipe frame 53 is fixedly arranged on the lower end part of the vertical pipe 45; four suspension rods 54 are vertically arranged on the lower side surfaces of the four branch end parts of the cross pipe frame 53 respectively; the lower end parts of the four suspension rods 54 are respectively provided with a hinged seat 55, the four paint nozzles 56 are respectively hinged on the four hinged seats 55, and the four paint nozzles 56 are all positioned above the conveyer belt 35; the paint pipes 57 of the four paint nozzles 56 sequentially penetrate through the branch pipes of the cross-shaped pipe frame 53 and the vertical pipes 45 and are communicated to the outside of the shell 50;

the water circulation device comprises a recovery tank 1, a right side cover plate 4, a left side cover plate 8, a liquid inlet pipe 18, a recovery pipe 6, a filtering membrane plate 59, a rectangular frame plate 22, a suspended foam plate 20 and an oil stain recovery pipe 15; a recovery corner area 3 is integrally and communicated with the left side of the recovery tank 1; the right side cover plate 4 is hinged at the right side edge of the recovery tank 1 and is used for covering the upper part of the recovery tank 1; the left side cover plate 8 is hinged to the left side edge of the recovery corner area 3 and is used for covering the upper part of the recovery corner area 3; the liquid inlet pipe 18 is fixedly arranged at the right side of the recovery tank 1 and is communicated with the interior of the recovery tank 1; the recovery pipe 6 is fixedly arranged at the left side of the recovery corner area 3, and a recovery strip-shaped hole 7 is longitudinally arranged on the upper pipe wall of the recovery pipe 6; the outer side surfaces of the front frame and the rear frame of the rectangular frame plate 22 are both vertically provided with a guide sliding strip 21; a guide sliding groove is vertically arranged on the inner walls of the front side and the rear side of the recovery corner area 3 and is positioned at the inlet communicated with the right side of the recovery corner area 3; the rectangular frame plate 22 is longitudinally arranged at a right side communication inlet of the recovery corner area 3, and the two guide sliding strips 21 are respectively embedded into the two guide sliding chutes in a sliding manner; the height of the upper side edge of the left frame of the rectangular frame plate 22 is higher than that of the upper side edge of the right frame, so that oil stains can be collected in the rectangular frame plate 22; the suspension foam board 20 is fixedly arranged between the two guide sliding strips 21 and is positioned below the rectangular frame plate 22; a suspension pipe 13 is longitudinally arranged in the rectangular frame plate 22, and two ends of the suspension pipe 13 are sealed; a strip-shaped collecting hole 61 is longitudinally arranged on the upper side wall of the suspension pipe 13; two ends of the suspension pipe 13 are provided with a suspension end block 12; a hose 25 is communicated with the lower side of the suspension pipe 13, and the hose 25 is penetratingly mounted on the suspension foam board 20; the oil stain recovery pipe 15 is fixedly arranged on the recovery corner area 3 in a penetrating way, and the inner end part of the oil stain recovery pipe 15 is communicated with the hose 25 in a butt joint way; the inner walls of the front side and the rear side of the recovery corner area 3 are both obliquely provided with side strip-shaped plates 24, and the opposite inner sides of the two side strip-shaped plates 24 are both provided with two insertion grooves; the front side and the rear side of the filtering membrane plate 59 are inserted into the insertion grooves at the corresponding positions of the front side and the rear side, a fixed baffle 14 and a drawing and inserting baffle 10 are arranged in the other insertion groove in a close-fitting manner, the fixed baffle 14 is fixedly arranged in the insertion grooves, and the drawing and inserting baffle 10 is movably inserted in the insertion grooves; strip-shaped water through holes 23 are longitudinally formed in the fixed baffle plate 14 and the inserting baffle plate 10, and the strip-shaped water through holes 23 in the fixed baffle plate 14 and the inserting baffle plate 10 are staggered and sealed after the inserting baffle plate 10 is upwards drawn; the recovery strip-shaped holes 7 on the recovery pipe 6 are positioned on the left side of the filtering membrane plate 59;

the water inlet pipe 41 is connected with the recovery pipe 6 through a water inlet pipeline; the recycling water pipe 32 is connected with the liquid inlet pipe 18 through a recycling pipeline; and water pumps are respectively arranged on the water inlet pipeline and the recovery pipeline.

The filtering membrane plates 59 are mounted in a plug-in mode, so that later-period disassembly and maintenance are facilitated, manual isolation is realized through the arranged fixed baffle 14 and the plug-in baffle 10, and the filtering membrane plates 59 do not need to be stopped when being replaced and maintained; the suspension of the rectangular frame plate 22 along with the water level can be realized by the arrangement of the suspension foam plate 20, the guide sliding strips 21 and the guide sliding grooves, so that the paint on the upper layer is collected in the rectangular frame plate 22, and the paint blocking at the gaps of the front side and the rear side of the rectangular frame plate 22 can be realized by the arrangement of the two guide sliding strips 21; the suspension end blocks 12 are arranged at two ends of the suspension pipe 13, so that the suspension pipe 13 can float up and down along with the height of the paint layer, and the paint layer is effectively sucked out; the water mist spray head 39 is used for spraying water mist to the steel screen plate 30, so that passing air flow is subjected to water curtain adsorption, and paint in the paint mist can be fully adsorbed; the hot air mechanism can be used for drying the sprayed paint and can be matched with the axial flow fan 40 to form an airflow loop at the same time, and redundant paint mist is blown to the steel screen plate 30 for adsorption; a uniform water curtain can be formed on the steel mesh plate 30 by utilizing the strip-shaped water storage tank 38, the steel mesh plate 30, the water collecting tank 31 and the water spray nozzle 39, and water resources can be collected for cyclic utilization; the height adjustment of the four paint nozzles 56 can be realized by the matching installation of the sleeve 44, the vertical pipe 45, the positioning bolt 47 and the positioning hole 48; the four paint nozzles 56 are respectively hinged on the four hinge seats 55, so that the paint spraying angles of the four paint nozzles 56 can be conveniently adjusted, and the paint spraying requirements of various types of workpieces are met.

Further, door plate sliding chutes 52 are vertically arranged on the left side and the right side of the feeding and discharging window 36; the door plate sliding grooves 52 on the left and right sides are provided with door plates 58; two internally threaded tubes 51 are provided on the outer side of the window and door panel 58; a height locking bolt 49 is threadedly mounted on the internally threaded pipe 51, and an end of the height locking bolt 49 is pressed against the outer wall of the housing 1. The locking height of the window plate 58 is adjusted by the height locking bolt 49, so that the locking height can be adjusted according to the size of a workpiece, and the heat loss at the feeding and discharging window 36 is reduced.

Furthermore, an air outlet pipeline 26 is longitudinally arranged on the left inner wall of the left cavity, and a strip-shaped air suction opening 29 is arranged on the lower side surface of the air outlet pipeline 26; an air outlet pipe 27 communicated with the air outlet pipeline 26 is arranged on the left side wall of the shell 50; the right side of the outlet duct 26 is provided with an inclined ramp 28 to facilitate the downward flow of water droplets. The air outlet pipe 26 and the air outlet pipe 27 can be used for discharging purified air conveniently, and the inclined slope 28 can be used for facilitating water drops to flow downwards.

Further, clamping bars 37 for clamping the front and rear sides of the steel mesh plate 30 are provided on the front and rear inner walls of the case 50. The steel mesh plate 30 can be fixed by being limited by the holding edge strip 37.

Further, a heat exchange bent pipe 5 is arranged in the recovery tank 1; and a heat exchange inlet 16 and a heat exchange outlet 17 which are communicated with the two ends of the heat exchange bent pipe 5 are arranged on the outer side of the recovery tank 1. The heat exchange can be realized by utilizing the heat exchange bent pipe 5, and the high-temperature energy of the circulating water is fully utilized.

Furthermore, a horizontal support rod 19 which is horizontally arranged in the transverse direction and the longitudinal direction is arranged at the upper opening of the recovery tank 1; the underside of the cover plate 4 is supported on a horizontal support bar 19. The lower side of the right side cover plate 4 can be supported by a horizontal support rod 19.

Further, a sealing strip 60 is arranged on the side edge of the right side cover plate 4; a sealing groove 9 is formed in the side edge of the left side cover plate 8; after the right side cover plate 4 and the left side cover plate 8 are closed, the sealing strip 60 is embedded in the sealing groove 9. By means of the sealing strip 60 cooperating with the sealing groove 9, sealing of the joint is enabled.

Further, a pulling projection 11 for facilitating pulling is provided at an upper edge of the drawer baffle 10. The lifting lug 11 can be used for conveniently and vertically pulling and inserting the control pulling and inserting file 10.

Further, the peripheries of the recovery tank 1 and the recovery corner area 3 are coated with a heat-insulating protective layer 2. Utilize the heat preservation protective layer 2 can realize the heat preservation effect, reduce the heat and give off.

When the coating and paint spraying system disclosed by the invention is used, the rectangular frame plate 22 with the height of the upper side edge of the left frame higher than that of the upper side edge of the right frame is utilized, so that the upper paint can be collected in the rectangular frame plate 22, the upper paint is ensured not to float to the recovery corner area 3, then enters the suspension pipe 13 from the strip-shaped collecting hole 61, and then the floating paint is discharged along the hose 25 and the oil stain recovery pipe 15; the right side cover plate 4 can be used for realizing heat preservation at the upper opening of the recovery tank 1 and preventing odor from diffusing; the circulating water can be filtered by using the filtering membrane plate 59, so that the recycled water resource is ensured to have better cleanliness, and the requirement of cyclic utilization is met; the water mist spray head 39 is used for spraying water mist to the steel screen plate 30, so that passing air flow is subjected to water curtain adsorption, and paint in the paint mist can be fully adsorbed; the hot air mechanism can be used for drying the sprayed paint and can be matched with the axial flow fan 40 to form an airflow loop at the same time, and redundant paint mist is blown to the steel screen plate 30 for adsorption; a uniform water curtain can be formed on the steel mesh plate 30 by utilizing the strip-shaped water storage tank 38, the steel mesh plate 30, the water collecting tank 31 and the water spray nozzle 39, and water resources can be collected for cyclic utilization; the four paint nozzles 56 are respectively hinged on the four hinge seats 55, so that the paint spraying angles of the four paint nozzles 56 can be conveniently adjusted, and the paint spraying requirements of various types of workpieces are met; the conveying belt 35 is used for conveying the workpieces, and flowing-water type paint spraying and drying are achieved.

As mentioned above, although the invention has been shown and described with reference to certain preferred embodiments, it should not be construed as being limited thereto. Various changes in form and detail may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (9)

1. A coating and painting system is characterized in that: comprises a paint spraying chamber and a water circulating device;

the spray booth comprises a shell (50), an axial flow fan (40), a strip-shaped water storage tank (38), a steel mesh plate (30), a water collecting tank (31), a conveying belt (35) and a spray painting mechanism;

a partition plate (34) is vertically arranged in the shell (50) to divide the interior of the shell (50) into a left cavity and a right cavity; the axial flow fan (40) is fixedly arranged on the partition plate (34), an air outlet is positioned in the left cavity, and an air inlet is positioned in the right cavity; a driving motor (42) is installed at the top of the outer side of the shell (50), and the driving motor (42) drives the axial flow fan (40) to rotate through a chain (43); the strip-shaped water storage tank (38) is longitudinally and fixedly arranged on the inner top of the left cavity, and the water collecting tank (31) is fixedly arranged on the inner bottom of the left cavity; the upper side edge of the steel mesh plate (30) is fixedly arranged on the lower side surface of the strip-shaped water storage tank (38), and the lower side edge of the steel mesh plate (30) is obliquely inserted into the upper opening of the water collecting tank (31); a water mist spray head (39) for spraying water mist to the steel mesh plate (30) is communicated and arranged on the lower side surface of the strip-shaped water storage tank (38); a water inlet pipe (41) communicated with the strip-shaped water storage tank (38) and a water recovery pipe (32) communicated with the water collecting tank (31) are arranged at the rear side of the shell (50);

the front side and the rear side of the shell (50) are provided with a feeding and discharging window (36) communicated with the right cavity; the conveyer belt (35) is longitudinally installed through the conveyer bracket (33), and the feeding side and the discharging side of the conveyer belt (35) penetrate through the feeding and discharging windows (36) on the front side and the rear side and are positioned outside the shell (50);

the paint spraying mechanism comprises a sleeve (44), a vertical pipe (45), a cross pipe frame (53), four suspension rods (54) and four paint nozzles (56); the sleeve (44) is vertically installed at the top of the right cavity in a penetrating manner, and a positioning bolt (47) is screwed on the pipe wall of the sleeve (44); a limiting convex ring (46) is arranged at the upper end of the vertical pipe (45), and the lower end of the vertical pipe (45) penetrates through the sleeve (44) and extends into the right cavity; positioning holes (48) are arranged on the pipe wall of the vertical pipe (45) at intervals, and a screw rod of a positioning bolt (47) is inserted into the positioning holes (48); the center of the cross pipe frame (53) is fixedly arranged on the lower end part of the vertical pipe (45); four suspension rods (54) are respectively vertically arranged on the lower side surfaces of the four branch end parts of the cross-shaped pipe frame (53); the lower end parts of the four suspension rods (54) are respectively provided with a hinged seat (55), the four paint nozzles (56) are respectively hinged on the four hinged seats (55), and the four paint nozzles (56) are all positioned above the conveyer belt (35); paint pipes (57) of the four paint nozzles (56) sequentially penetrate through branch pipes of the cross-shaped pipe frame (53) and the vertical pipe (45) and are communicated to the outside of the shell (50);

the water circulation device comprises a recovery tank (1), a right side cover plate (4), a left side cover plate (8), a liquid inlet pipe (18), a recovery pipe (6), a filtering membrane plate (59), a rectangular frame plate (22), a suspended foam plate (20) and an oil stain recovery pipe (15); a recovery corner area (3) is integrally and communicated with the left side of the recovery tank (1); the right side cover plate (4) is hinged to the right side edge of the recovery tank (1) and is used for covering the recovery tank (1); the left side cover plate (8) is hinged and installed at the left side edge of the recovery corner area (3) and is used for covering the upper part of the recovery corner area (3); the liquid inlet pipe (18) is fixedly arranged on the right side of the recovery tank (1) and is communicated with the interior of the recovery tank (1); the recovery pipe (6) is fixedly arranged at the left side of the recovery corner area (3), and a recovery strip-shaped hole (7) is longitudinally arranged on the upper pipe wall of the recovery pipe (6); the outer side surfaces of the front and rear frames of the rectangular frame plate (22) are both vertically provided with a guide sliding strip (21); a guide sliding chute is vertically arranged on the inner walls of the front side and the rear side of the recovery corner area (3) and positioned at the inlet communicated with the right side of the recovery corner area (3); the rectangular frame plate (22) is longitudinally arranged at a right side communication inlet of the recovery corner area (3), and the two guide sliding strips (21) are respectively embedded into the two guide sliding chutes in a sliding manner; the height of the upper side edge of the left frame of the rectangular frame plate (22) is higher than that of the upper side edge of the right frame, so that oil stains can be collected in the rectangular frame plate (22); the suspension foam plate (20) is fixedly arranged between the two guide sliding strips (21) and is positioned below the rectangular frame plate (22); a suspension pipe (13) is longitudinally arranged in the rectangular frame plate (22), and two ends of the suspension pipe (13) are sealed; a strip-shaped collecting hole (61) is longitudinally arranged on the upper side wall of the suspension pipe (13); two ends of the suspension pipe (13) are respectively provided with a suspension end block (12); a hose (25) is communicated with the lower side of the suspension pipe (13), and the hose (25) is installed on the suspension foam board (20) in a penetrating manner; the oil stain recovery pipe (15) is fixedly arranged on the recovery corner area (3) in a penetrating way, and the inner end part of the oil stain recovery pipe (15) is communicated with the hose (25) in a butt joint way; side strip-shaped plates (24) are obliquely arranged on the inner walls of the front side and the rear side of the recovery corner area (3), and two insertion grooves are arranged on the opposite inner sides of the two side strip-shaped plates (24); the front side and the rear side of the filtering membrane plate (59) are inserted into the insertion grooves at the corresponding positions of the front side and the rear side, a fixed baffle (14) and a drawing and inserting baffle (10) are arranged in the other insertion groove in a close-fitting manner, the fixed baffle (14) is fixedly arranged in the insertion grooves, and the drawing and inserting baffle (10) is movably inserted into the insertion grooves; strip-shaped water passing holes (23) are longitudinally formed in the fixed baffle (14) and the inserting baffle (10), and the strip-shaped water passing holes (23) in the fixed baffle (14) and the inserting baffle (10) are staggered and sealed after the inserting baffle (10) is upwards drawn; the recovery strip-shaped holes (7) on the recovery pipe (6) are positioned on the left side of the filtering membrane plate (59);

the water inlet pipe (41) is connected with the recovery pipe (6) through a water inlet pipeline; the recycling water pipe (32) is connected with the liquid inlet pipe (18) through a recycling pipeline; and water pumps are respectively arranged on the water inlet pipeline and the recovery pipeline.

2. The paint spraying system of claim 1 wherein: door plate sliding chutes (52) are vertically arranged on the left side and the right side of the feeding and discharging window (36); the left and right door plate sliding grooves (52) are provided with window door plates (58); two internal threaded pipes (51) are arranged on the outer side of the window and door plate (58); a height locking bolt (49) is screwed on the internal thread pipe (51), and the end part of the height locking bolt (49) is pressed on the outer wall of the shell (50).

3. The paint spraying system of claim 1 wherein: an air outlet pipeline (26) is longitudinally arranged on the left inner wall of the left cavity, and a strip-shaped air suction opening (29) is arranged on the lower side surface of the air outlet pipeline (26); an air outlet pipe (27) communicated with the air outlet pipeline (26) is arranged on the left side wall of the shell (50); the right side surface of the air outlet pipeline (26) is provided with an inclined slope surface (28) which is convenient for water drops to flow downwards.

4. The paint spraying system of claim 1 wherein: clamping edge strips (37) used for clamping the front side edge and the rear side edge of the steel mesh plate (30) are arranged on the inner walls of the front side and the rear side of the shell (50).

5. The paint spraying system of claim 1 wherein: a heat exchange bent pipe (5) is arranged in the recovery tank (1); the outer side of the recovery tank (1) is provided with a heat exchange inlet (16) and a heat exchange outlet (17) which are communicated with the two ends of the heat exchange elbow pipe (5).

6. The paint spraying system of claim 1 wherein: a horizontal support rod (19) which is horizontally arranged in the transverse direction and the longitudinal direction is arranged at the upper opening of the recovery tank (1); the lower side of the cover plate (4) is supported on a horizontal support bar (19).

7. The paint spraying system of claim 1 wherein: a sealing strip (60) is arranged on the side edge of the right side cover plate (4); a sealing groove (9) is arranged on the side edge of the left side cover plate (8); after the right side cover plate (4) and the left side cover plate (8) are closed, the sealing strip (60) is embedded into the sealing groove (9).

8. The paint spraying system of claim 1 wherein: a lifting lug (11) convenient for lifting is arranged at the upper edge of the pull-plug baffle (10).

9. The paint spraying system of claim 1 wherein: the peripheries of the recovery tank (1) and the recovery corner area (3) are coated with heat-insulating protective layers (2).

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