CN112657732A - Automatic paint spraying assembly line for coal equipment - Google Patents

Abstract

The invention discloses an automatic paint spraying assembly line for coal equipment, which has the technical scheme that the automatic paint spraying assembly line comprises a primer spraying chamber, wherein a workpiece primer is sprayed in the primer spraying chamber; the primer drying chamber is used for drying the workpiece sprayed with the primer; the finish paint spraying chamber is used for spraying finish paint on the workpiece; a finish drying chamber in which the finish is dried; the paint spraying robots are respectively arranged in the primer spraying chamber and the finish spraying chamber and are respectively used for primer paint spraying and finish paint spraying; the transport trolley is used for transporting the sprayed workpiece; the transfer platform is used for transferring the transport trolley; the travelling bogie transports the workpiece, the paint spraying robot sprays paint to the workpiece, the drying room dries the painted workpiece without manual painting, the spraying efficiency is improved, and the influence on the health of operators is reduced.

Description

Automatic paint spraying assembly line for coal equipment

Technical Field

The invention relates to the technical field of workpiece paint spraying, in particular to an automatic paint spraying assembly line of coal mining equipment.

Background

The existing mechanical structure production process works as, in order to achieve a good antirust effect, paint is mostly required to be sprayed on the surface of a workpiece, and the antirust effect of the workpiece is achieved by spraying the paint.

During the existing workpiece paint spraying process, mostly manual painting is carried out, and during the manual painting, a water-flowing type painting mode is also adopted, the workpiece is hung on a hook at the bottom of a conveying chain, workers paint the hung workpiece during the paint spraying, and after the painting is finished, the workpiece is conveyed to a drying chamber through the conveying chain for drying treatment; however, the workpiece is sprayed manually, which has the problems of low spraying efficiency and easy influence on the health of operators.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide an automatic paint spraying assembly line for coal equipment, wherein a conveying trolley is used for conveying workpieces, a paint spraying robot is used for spraying paint on the workpieces, a drying room is used for drying the painted workpieces, manual paint spraying is not needed, the paint spraying efficiency is improved, and the influence on the health of operators is reduced.

In order to achieve the purpose, the invention provides the following technical scheme: an automatic spray painting assembly line for coal equipment, comprising:

a primer spraying chamber, wherein the workpiece primer is sprayed;

the primer drying chamber is used for drying the workpiece sprayed with the primer;

the finish paint spraying chamber is used for spraying finish paint on the workpiece;

a finish drying chamber in which the finish is dried;

the paint spraying robots are respectively arranged in the primer spraying chamber and the finish spraying chamber and are respectively used for primer paint spraying and finish paint spraying;

the transport trolley is used for transporting the sprayed workpiece;

the transfer platform is used for transferring the transport trolley;

the primer spraying chamber and the primer spraying chamber form a primer spraying line, the finish spraying chamber and the finish drying chamber form a finish spraying line, the workpiece is transported on the primer spraying line or the finish spraying line by the transport trolley, and the transport trolley on the finish spraying line is transported to the primer spraying line by the transport platform.

By adopting the technical scheme, a transport trolley loaded with a workpiece to be sprayed is sent to a primer spraying line, the transport trolley transports the workpiece to a primer spraying chamber, a spraying robot sprays primer on the workpiece under the control of a preset program, after the spraying is finished, the workpiece is transported to a primer drying chamber through the transport trolley, the primer on the workpiece is dried, the workpiece after the primer is dried enters a transfer platform under the action of the transport trolley, then is transported to a finish spraying line through the transfer platform, then is sent to a finish spraying chamber, a paint spraying robot sprays finish on the workpiece under the control of the preset program, the workpiece after the finish spraying is sent to the finish drying chamber for drying, and the dried workpiece is sent out from the finish spraying line; the spraying process is carried out through the robot that sprays paint, need not artifical direct spraying to realize the transportation to the work piece through travelling bogie and transportation platform, improved the efficiency of spraying, and reduced the healthy influence to operating personnel.

The invention is further configured to: the transport platform is provided with two, and one of them transport platform is used for transporting the travelling bogie on the lacquer spraying line to priming paint spraying line, and another transport platform is used for transporting the travelling bogie that treats the spraying work piece to priming paint spraying line and is used for receiving the travelling bogie that transports the work piece that the stoving finishes on the finish paint spraying line.

The invention is further configured to: the finish paint spraying line and the primer paint spraying line both comprise a conveying track, the conveying track penetrates through a paint spraying chamber and a drying chamber on the spraying line, and a conveying trolley is used for conveying workpieces on the conveying track;

the transfer platform is provided with a transfer track which can be in butt joint with the transfer tracks on the two spraying lines.

The invention is further configured to: the primer leveling chamber is positioned between the primer spraying chamber and the primer drying chamber and is used for leveling a workpiece sprayed with the primer;

and the finish paint leveling chamber is positioned between the finish paint spraying chamber and the finish paint drying chamber and is used for leveling a workpiece sprayed with the finish paint.

By adopting the technical scheme, the leveling treatment is to store the wet paint in a closed, clean and air-flowing room for 5-10 min, the leveling purpose is to volatilize the solvent volatile gas on the surface of the wet paint, and the wet film can be leveled while volatilizing the gas, so that the flatness and the glossiness of the paint film are ensured.

The invention is further configured to: the paint is dried by hot air in the primer drying chamber and the finish drying chamber, and the air flowing directions in the primer drying chamber and the finish drying chamber are the same;

in the primer drying chamber, an air inlet channel enters the primer drying chamber from the bottom of the primer drying chamber, and then hot air is exhausted from the top of the primer drying chamber.

Through adopting above-mentioned technical scheme, hot-air gets into from the drying chamber bottom, dries the work piece in the middle of the process that rises.

The invention is further configured to: the primer drying chamber is provided with two air inlet channels, and when the transport trolley is positioned in the primer drying chamber, the air inlet parts of the two air inlet channels are respectively positioned at the two sides of the bottom of the transport trolley.

The invention is further configured to: the hot air curtain machine is used for introducing hot air into the air inlet channel, and the primer drying chamber and the finish drying chamber are both provided with two hot air curtain machines.

Through adopting above-mentioned technical scheme, hot-blast curtain machine can reduce the thermal overflow of drying chamber air inlet department.

The invention is further configured to: the paint drying device further comprises a heating chamber which is used for heating air and sending the heated air to the primer drying chamber and the finish drying chamber.

The invention is further configured to: the heating chamber is provided with an air return channel, and air heated in the heating chamber is pumped out and conveyed to an air inlet position of the heating chamber to be mixed with supplemented fresh air.

The invention is further configured to: the heating chamber heats air entering the heating chamber by means of burners.

In summary, compared with the prior art, the invention has the following beneficial effects: the method comprises the steps that a transport trolley loaded with a workpiece to be sprayed is sent to a primer spraying line, the transport trolley transports the workpiece to a primer spraying chamber at present, a spraying robot sprays primer on the workpiece under the control of a preset program, the workpiece is conveyed to a primer drying chamber through the transport trolley after spraying is finished, the primer on the workpiece is dried, the workpiece after drying the primer enters a transfer platform under the action of the transport trolley, then the workpiece is transported to a finish spraying line through the transfer platform, then the workpiece is sent to the finish spraying chamber, the spraying robot sprays finish on the workpiece under the control of the preset program, the workpiece after finish spraying is sent to the finish drying chamber for drying, and the dried workpiece is sent out from the finish spraying line; the spraying process is carried out through the robot that sprays paint, need not artifical direct spraying to realize the transportation to the work piece through travelling bogie and transportation platform, improved the efficiency of spraying, and reduced the healthy influence to operating personnel.

Drawings

FIG. 1 is a schematic view of the overall structure of the embodiment;

fig. 2 is a schematic view of an exhaust gas treatment device of an embodiment.

In the figure: 1. a primer spraying chamber; 2. a primer leveling chamber; 3. a primer drying chamber; 4. a finish paint spraying chamber; 5. a finish paint leveling chamber; 6. a finish drying chamber; 7. a transfer platform; 8. a tail gas treatment device; 81. an adsorption chamber; 811. a delivery line; 82. a catalytic combustor; 83. a connecting pipe; 84. an air intake line; 85. a gas return line.

Detailed Description

In order to make the technical solutions of the present invention better understood, the following description of the technical solutions of the present invention with reference to the accompanying drawings of the present invention is made clearly and completely, and other similar embodiments obtained by a person of ordinary skill in the art without any creative effort based on the embodiments in the present application shall fall within the protection scope of the present application. In addition, directional terms such as "upper", "lower", "left", "right", etc. in the following embodiments are directions with reference to the drawings only, and thus, the directional terms are used for illustrating the present invention and not for limiting the present invention.

The invention is further described with reference to the drawings and the preferred embodiments.

Example (b): an automatic paint spraying assembly line for coal equipment is shown in figure 1 and comprises a primer spraying line for spraying primer on a workpiece, a finish spraying line for spraying finish on the workpiece, a transport trolley for loading the workpiece to move on the primer spraying line and the finish spraying line, and a transfer platform 7 for transporting the transport trolley between the primer spraying line and the finish spraying line. The primer spraying line comprises a primer spraying chamber 1 for accommodating a workpiece to be subjected to primer spraying and a primer drying chamber 3 for drying the workpiece sprayed with the primer; the finish paint spraying line comprises a finish paint spraying chamber 4 for accommodating workpieces to be sprayed with finish paint and a finish paint spraying chamber 4 for drying the workpieces sprayed with the finish paint. Paint spraying robots for spraying paint are arranged in the primer spraying room 1 and the finish spraying room 4, and the paint spraying robots spray paint on the workpiece according to a pre-stored program.

The workpiece is transported on a primer spraying line through a transport trolley, the workpiece enters a primer spraying chamber 1 to be sprayed with primer, then enters a primer drying chamber 3 to be dried, the transport trolley moves to a transfer platform 7 after being dried, the transport trolley is conveyed to a finish spraying line through the transfer platform 7, the workpiece enters a finish spraying chamber 4 to be sprayed with finish on the finish spraying line, then enters a finish drying chamber 6 to finish the drying of the finish, and the workpiece is conveyed out of the finish spraying line after being dried to finish the workpiece spraying.

Preferably, in this embodiment, the transfer platforms 7 are two, the two transfer platforms 7 are respectively the first transfer platform 7 and the second transfer platform 7, the first transfer platform 7 is used for transporting the transport trolley between the primer spraying line and the finish spraying line, and the second transfer platform 7 is used for transporting the transport trolley for transporting the workpiece to be sprayed to the primer spraying line and receiving the transport trolley for transporting the dried workpiece on the finish spraying line. Specifically, in this embodiment, the first transferring platform 7 is located at one end of the primer spraying line close to the primer drying chamber 3, and meanwhile, the first transferring platform 7 is located at one end of the finish spraying line close to the finish spraying chamber 4; the second transports platform 7 and is located the priming paint spraying line and is close to 1 one end in priming paint spray booth, and simultaneously, the second transports platform 7 and is located the finish paint spraying line and is close to 6 one ends in finish paint drying chamber. Specifically, one end of the second transfer platform 7, which is close to the finish paint drying chamber 6, is a loading and unloading station, the workpiece to be sprayed is conveyed to the transport trolley at the station, and the workpiece after spraying is taken down from the transport trolley at the station.

Preferably, in the embodiment, the top coat spraying line further comprises a top coat leveling chamber 5, the primer spraying line further comprises a primer leveling chamber 2, the primer leveling chamber 2 and the top coat leveling chamber 5 are used for leveling a sprayed paint film, the leveling treatment is to store the paint film in a closed, clean and air-flowing chamber for 5-10 min, the leveling purpose is to volatilize solvent volatile gas on the surface of wet paint, and the wet film can be leveled while volatilizing the solvent volatile gas, so that the flatness and the glossiness of the paint film are ensured. After the primer leveling chamber 2 and the finish leveling chamber 5 are arranged, the quality of a paint film can be greatly improved.

Preferably, in this embodiment, the top paint spraying line and the primer spraying line both include a transportation rail, and the transportation rail in the top paint spraying line is disposed along the length direction of the top paint spraying line and sequentially passes through the top paint spraying chamber 4, the top paint leveling chamber 5, and the top paint drying chamber 6. The conveying track in the primer spraying line is arranged along the length direction of the primer spraying line and sequentially penetrates through the primer spraying chamber 1, the primer leveling chamber 2 and the primer drying chamber 3. In order to realize the transfer of the transport trolley, a transfer track capable of being in butt joint with the transport track is arranged on the transfer platform 7, when one end of a finish paint spraying line moves on the transfer platform 7, the transfer track is aligned with the transport track on the finish paint spraying line, and the transport trolley can move between the transfer track and the transport track of the finish paint spraying line; when the transfer platform 7 moves to one end of the primer spraying line, the transfer track is aligned with the transport track on the primer spraying line, and the transport trolley can move between the transfer track and the transport track on the primer spraying line.

In the present embodiment, the primer drying chamber 3 and the finish drying chamber 6 both dry the paint film on the surface of the workpiece by flowing hot air, preferably, in the present embodiment, the structures of the primer drying chamber 3 and the finish drying chamber 6 and the flowing direction of the hot air are the same, and in the present embodiment, the primer drying chamber 3 is taken as an example for description. In the primer drying chamber 3, hot air enters from the bottom of the primer drying chamber 3, then flows upwards, and finally flows out from the top of the primer drying chamber 3. Specifically, in this embodiment, the primer drying chamber 3 is provided with two air inlet channels, air inlet ends of the two air inlet channels are arranged on the side wall of the primer drying chamber 3, air outlet ends of the air inlet channels are arranged at the bottom of the primer drying chamber 3, and the air outlet ends are respectively located at two sides of the transportation track, that is, when the transportation trolley is located in the primer drying chamber 3, hot air can flow out from two sides of the bottom of the transportation trolley; from the hot-air that the bottom both sides of travelling bogie flowed out, in the middle of the process that flows upwards, can be more abundant with the surface contact of work piece to make the more even quilt of work piece dry.

Preferably, in this embodiment, two hot air curtains are fixedly connected to two sides of the primer drying chamber 3, and the hot air curtains respectively introduce hot air into the two air inlet channels of the primer drying chamber 3, so that the hot air curtains can reduce the overflow of heat.

Preferably, a heating chamber is further provided in the present embodiment, and is used for heating air in a heating process, and sending the hot air into the air passages in the primer drying chamber 3 and the finish drying chamber 6; the heating chamber is provided with two air channels, the air channels are provided with burners for heating air, the burners heat the air in a heat exchange mode, and the heated air enters the heating chamber from the air channels; specifically, in the present embodiment, the air intake position of the heating chamber is located at the bottom of the heating chamber, and two air passages are provided in the present embodiment. The top of the heating chamber is provided with an air outlet channel which sends hot air into an air inlet channel of the primer drying chamber. The air return channel conveys the heated air in the heating chamber to the air channel

Preferably, in the embodiment, the heating chamber is provided with an air return channel, and the air return channel conveys part of the hot air in the heating chamber to the air inlet position of the air channel to mix the hot air with the fresh air; the mixed air is sent into the heating chamber through the air channel. In the present embodiment, the hot air introduced into the primer drying chamber 3 and the finish drying chamber 6 is directly discharged from the drying chambers after being dried, and is not circulated in the heating chamber, so that dust in the drying chambers can be prevented from being brought into the heating chambers, and the heated air in the drying chambers is discharged, so that the concentration of paint mist in the drying chambers can be reduced.

Preferably, in this embodiment, the primer drying chamber 3 and the finish drying chamber 6 are both provided with a combustible gas monitoring alarm for monitoring the concentration of the combustible gas in the drying chamber, and when the concentration of the combustible gas in the drying chamber reaches 25% of the lower explosion limit, the combustible gas monitoring alarm gives an alarm.

Preferably, the present embodiment further includes three tail gas treatment devices 8, one tail gas treatment device 8 is used for treating the tail gas of the primer drying chamber 3, one is used for treating the tail gas of the finish drying chamber 6, and one is used for treating the tail gas of the primer leveling chamber 2, the finish leveling chamber 5, the primer drying chamber 3 and the finish drying chamber 6.

Referring to fig. 2, the exhaust gas treatment device 8 includes a plurality of adsorption chambers 81, a catalytic combustor 82, a heating device disposed in the catalytic combustor 82, and a catalytic combustion plate disposed in the catalytic combustor 82. In the present embodiment, the adsorption chamber 81 is provided with an adsorbent for adsorbing the organic gas in the exhaust gas, and preferably, in the present embodiment, activated carbon is used as the adsorbent for adsorbing the organic gas; a conveying pipeline 811 for conveying the tail gas into the adsorption chamber 81 and an air outlet pipeline for conveying the filtered air out are fixed on the adsorption chamber 81; a circulation line is provided between the catalytic combustor 82 and each adsorption chamber 81.

The tail gas is adsorbed by the single adsorption chamber 81, during adsorption, the conveying pipeline 811 and the gas outlet pipeline on the adsorption chamber 81 for adsorbing the tail gas are opened, the tail gas enters the adsorption chamber 81, after being adsorbed by the active carbon adsorbent in the adsorption chamber 81, the organic gas is adsorbed on the active carbon adsorbent, and the clean air is opened by the gas outlet pipeline; when the adsorbent in the adsorption chamber 81 is filled with organic gas, the feed line 811 and the gas outlet line of the adsorption chamber 81 are closed, and the feed line 811 and the gas outlet line of the other adsorption chamber 81 are opened to continue the adsorption operation. The circulation pipeline on the adsorption chamber 81 full of the organic gas is opened, the heating device in the catalytic combustion chamber 82 starts heating, the heat is transferred to the adsorbent of the adsorption chamber 81 through the air through the circulation of the circulation pipeline, the organic gas on the adsorbent is desorbed and flows to the catalytic combustion plate of the catalytic combustion chamber 82 through the circulation pipeline by heating, and when the temperature at the catalytic combustion plate reaches the decomposition temperature, the catalytic combustion plate catalyzes the organic gas to decompose and form carbon dioxide and water. After the desorption is completed, the gas outlet line of the adsorption chamber 81 is opened to discharge the generated gas.

In this embodiment, the catalytic combustion plate is filled with a catalyst for catalyzing the decomposition of the organic gas, and in particular, in this embodiment, the catalyst is a ceramic honeycomb precious metal catalyst. The ceramic honeycomb noble metal catalyst has long service life which can reach 12000 hours.

In this embodiment, the flow of gas is driven through the fan that sets up on the pipeline, and in this embodiment, explosion-proof fan is chooseed for use to the fan. In this embodiment, the conveying pipeline 811 is provided with a dry filter for filtering out foreign particles such as dust in the exhaust gas, so as to prevent the foreign particles from entering the adsorption chamber 81 and affecting the adsorption effect of the activated carbon adsorbent.

In this embodiment, the circulation line includes an intake line 84 and a return line 85, the intake line 84 sending gas from the catalytic combustor 82 to the adsorption chamber 81, and the return line 85 sending gas from the adsorption chamber 81 back to the catalytic combustor 82. Two connecting pipes 83 are fixedly connected to the catalytic combustor 82, wherein one connecting pipe 83 is connected to one end of a plurality of air inlet pipelines 84, and the other connecting pipe 83 is connected to a plurality of air return pipelines 85; the ends of the air inlet line 84 and the air return line 85 facing away from the connecting pipe 83 are fixedly connected to the adsorption chamber 81. In this embodiment, valves are disposed in the air inlet pipeline 84, the air return pipeline 85, the conveying pipeline 811, and the air outlet pipeline, and the valves are opened and closed to control the pipelines.

The working principle of the automatic spray painting production line of the coal machine when in use is as follows: the workpiece is transported on a primer spraying line through a transport trolley, the workpiece enters a primer spraying chamber 1 to be sprayed with primer, then enters a primer drying chamber 3 to be dried, the transport trolley moves to a transfer platform 7 after being dried, the transport trolley is conveyed to a finish spraying line through the transfer platform 7, the workpiece enters a finish spraying chamber 4 to be sprayed with finish on the finish spraying line, then enters a finish drying chamber 6 to finish the drying of the finish, and the workpiece is conveyed out of the finish spraying line after being dried to finish the workpiece spraying.

The above description is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above embodiments, and all technical solutions belonging to the idea of the present invention belong to the protection scope of the present invention. It should be noted that modifications and embellishments within the scope of the invention may occur to those skilled in the art without departing from the principle of the invention, and are considered to be within the scope of the invention.

Claims (10)

1. a coal machine equipment automatic painting assembly line, is characterized in that: comprise: A primer spraying room (1), in which the workpiece primer is sprayed; Primer drying chamber (3), in which the workpiece that has been sprayed with primer is dried; a topcoat spraying room (4), in which the workpiece topcoat is sprayed; topcoat drying chamber (6), in which drying of topcoat is carried out; a painting robot, which is respectively arranged in the primer spraying room (1) and the topcoat spraying room (4), and is used for primer spraying and topcoat spraying respectively; Transport trolley, which is used to transport the painted workpiece; and a transfer platform (7) for transferring the transport trolley; The primer spraying room (1) and the primer spraying room (1) form a primer spraying line, and the topcoat spraying room (4) and the topcoat drying room (6) form a topcoat spraying line. For transportation on the spraying line or on the topcoat spraying line, the transfer platform (7) transfers the topcoat spraying line transport trolley to the primer spraying line. 2. The coal machine equipment automatic paint spraying assembly line according to claim 1, is characterized in that: described transfer platform (7) is provided with two, and wherein one transfer platform (7) is used for transferring paint spraying line transport trolley to In the primer spraying line, another transfer platform (7) is used to transfer the transport trolley for transporting the workpieces to be sprayed to the primer spraying line and receive the transport trolley for transporting the dried workpieces on the topcoat spraying line. 3. coal machine equipment automatic paint spraying assembly line according to claim 1, is characterized in that: described topcoat spraying line and primer spraying line all comprise transportation track, and transportation track passes through the paint spraying room and the drying room on the spraying line , the transport trolley transports workpieces on the transport track; The transfer platform (7) is provided with a transfer track that can be docked with the transport tracks on the two spraying lines. 4. coal machine equipment automatic paint spraying assembly line according to claim 1 is characterized in that: also comprise primer leveling chamber (2), it is located between primer spray chamber (1) and primer drying chamber (3) It is used for leveling the workpieces sprayed with primer; and a topcoat leveling room (5), which is located between the topcoat spraying room (4) and the topcoat drying room (6), and is used for leveling the workpieces sprayed with topcoat. 5. coal machine equipment automatic paint spraying assembly line according to claim 1, is characterized in that: described primer drying chamber (3) and described topcoat drying chamber (6) dry paint by hot air, and the primer The air flow directions in the paint drying chamber (3) and the topcoat drying chamber (6) are the same; In the primer drying chamber (3), the air intake passage enters the primer drying chamber (3) from the bottom of the primer drying chamber (3), and then heats the primer drying chamber (3) from the top of the primer drying chamber (3). Air is exhausted. 6. The coal machine equipment automatic paint spraying assembly line according to claim 5 is characterized in that: the primer drying chamber (3) is provided with two air intake passages, and when the transport trolley is in the primer drying chamber (3) , the air intakes of the two air intake passages are located on both sides of the bottom of the transport trolley, respectively. 7. coal machine equipment automatic paint spraying assembly line according to claim 6, is characterized in that: also comprise hot air curtain machine, it is used for feeding hot air into air inlet channel, primer drying chamber (3) and topcoat The drying chamber (6) is provided with two hot air curtains. 8. coal machine equipment automatic paint spraying assembly line according to claim 1, is characterized in that: also comprise heating chamber, it is used to heat air, and the gas of heating is sent into primer drying chamber (3) and Topcoat drying chamber (6). 9. The automatic paint spraying line for coal machine equipment according to claim 8, characterized in that: the heating chamber is provided with a return air passage, and the air heated in the heating chamber is drawn out and transported to the heating chamber air intake position and supplemented fresh Air mix. 10 . The automatic paint spraying line for coal machine equipment according to claim 8 , wherein the heating chamber heats the air entering the heating chamber through a burner. 11 .

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