CN117512519B - Coating equipment for metal plate processing and application method thereof - Google Patents

Abstract

The invention discloses coating equipment for metal plate processing and a using method thereof, and the coating equipment comprises a basic material guide mechanism for conveying, wherein the basic material guide mechanism comprises a base plate, a coating operation mechanism is arranged on the left side of the top of the base plate, guide sliding grooves are formed in two sides of the top of the base plate, and a first sliding seat and a second sliding seat are respectively and slidably arranged on the two guide sliding grooves. According to the coating equipment for metal plate processing and the application method thereof, the third fluted disc and the half fluted disc can be separated after the first arc plate is pressed by the upper plate, so that the second arc frame can be turned over for blanking, the third fluted disc and the half fluted disc can be meshed again after the second arc plate is pressed by the lower plate, the second arc frame and the first arc frame are driven to fold, the plate for feeding is conveniently guided, the labor cost is effectively reduced, and the whole production efficiency is improved smoothly in the process.

Description

Coating equipment for metal plate processing and application method thereof

Technical Field

The invention relates to the technical field of metal plate coating, in particular to coating equipment for metal plate processing and a using method thereof.

Background

Vacuum coating is a method for forming a thin film by heating a metal or non-metal material under high vacuum condition, evaporating and condensing the metal or non-metal material on the surface of a plated metal, semiconductor or insulator, such as vacuum aluminizing, vacuum chromeplating and the like, and is an important aspect of the field of vacuum application, and is a new technology for preparing the thin film for scientific research and practical production by taking vacuum technology as a basis, utilizing a physical or chemical method, absorbing a series of new technologies such as electron beams, molecular beams, ion beams, plasma beams, radio frequency, magnetic control and the like.

The prior art mostly uses a pre-buried coating furnace when coating a film on a metal plate, the plate is fixed on an annular frame in a surrounding manner, and then the plate is placed in the furnace for heating by using a lifting device, so that the function of coating the film on the plate can be effectively achieved, but the prior art has obvious defects in practical use, such as:

The length of the plate is longer when the existing coating furnace is used, so that the diameter of the annular fixing frame in the coating furnace is larger, four to five persons are required to lift the plate at the same time when the plate is fed and discharged, and then the plate is fixed on the surface of the annular frame in a surrounding manner, so that a large amount of manpower is required to be consumed for operating when the plate is coated, the cost is increased, the efficiency is low, and meanwhile, danger is easy to occur due to too short distance between a worker and a furnace body during feeding and discharging;

Therefore, a plating device for processing metal plates, which can automatically feed and discharge plates, is designed to solve the defects.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a coating device for metal plate processing and a use method thereof, and solves the problem that the loading and unloading of the existing metal plate coating device are complicated and a large amount of manpower is consumed.

In order to achieve the above purpose, the invention is realized by the following technical scheme: the utility model provides a metal sheet processing is with coating film equipment, includes the basic guide mechanism that is used for conveying, basic guide mechanism includes the bed plate, and the coating film operating device is installed in the left side at bed plate top.

Preferably, guide grooves are formed in two sides of the top of the base plate, a first sliding seat and a second sliding seat are respectively and slidably mounted in the guide grooves, the top of the first sliding seat is fixedly connected with a blanking table through a support, the rear portion of an inner cavity of the blanking table is rotationally connected with a first rotating rod through a bearing piece, the first rotating rod is provided with a plurality of first rotating rods, the front end of each first rotating rod penetrates through the blanking table and extends to the front portion of the blanking table, the left side of the surface of the blanking table is fixedly connected with a motor through the support, an output shaft of the motor is fixedly connected with a first rotating rod through a coupler, the first rotating rod is fixedly connected with the left side of the first rotating rod, a plurality of first rotating rods are in transmission connection with through a first belt pulley and a first belt, the left side of the surface of the blanking table is rotationally connected with a second rotating rod through a bearing piece, and the surfaces of the second rotating rod and the first rotating rod are fixedly connected with a first fluted disc meshed with each other.

Preferably, the top of unloading platform is through support fixed mounting there being the material loading platform, the rear side of material loading platform inner chamber is connected with the second bull stick through bearing spare rotation, and the second bull stick is provided with a plurality of, the equal fixed mounting in surface of second bull stick and first bull stick has the cylinder, the front end of second bull stick runs through the material loading platform and extends to the front side of material loading platform, a plurality of through second belt and second belt pulley transmission connection between the second bull stick, leftmost through third belt pulley and third belt transmission connection between second bull stick and the second bull stick, the top fixed mounting of material loading platform has the hot air blower, and installs the spray tube in the bottom of hot air blower, and the bottom of spray tube runs through the material loading platform and extends to the inboard of material loading platform, the equal slidable mounting of bottom of unloading platform and material loading platform inner chamber has the guide bar through seting up opening, two the top of guide bar is fixed mounting respectively first arc board and second arc board, the top of cylinder is seted up and is used the arc mouth with first arc board and second arc board cooperation.

Preferably, the bottom fixedly connected with pull-up plate that is located on top the slide bar, fixedly connected with first spring between the bottom of pull-up plate and material loading platform, the front portion fixedly connected with of pull-up plate presses the pole, the surface of material loading platform is connected with the leading wheel through the support rotation, press fixedly connected with cable between pole and the lower part slide bar, and the cable laminates mutually with the leading wheel, the left front portion fixedly connected with backup pad in bed plate top, the surface fixedly connected with of backup pad erects the slide bar, the equal slidable mounting in upper portion and the lower part on upright slide bar surface has the sliding sleeve piece, the cover is equipped with the second spring on upright slide bar's surface and between two sliding sleeve pieces.

Preferably, the left side on backup pad surface is connected with the second dwang through seting up the opening rotation, the surface of second dwang, first dwang and two sliding sleeve pieces all is provided with the fourth belt pulley, a plurality of through fourth belt transmission connection between the fourth belt pulley, the rear end fixedly connected with multiangle pole of second dwang, the below fixed mounting at backup pad rear portion has the button, the top of second slide is through support fixedly connected with pressurized frame, and through support fixedly connected between pressurized frame and the unloading platform, fixedly connected with third spring between the inner wall of second slide and guide chute.

Preferably, the coating operation mechanism comprises a coating furnace, the coating furnace is fixedly arranged on the left side of the top of the base plate through a bracket, a guiding cross column is fixedly connected to the rear part of an inner cavity of the coating furnace, a sleeve frame barrel is slidably arranged on the surface of the guiding cross column, an annular hollow door frame is fixedly arranged at the front end of the sleeve frame barrel, an annular frame is fixedly connected to the rear part of the annular hollow door frame, a polygonal rotary drum matched with the polygonal rod is rotatably connected to the rear part of the inner side of the annular hollow door frame through a bearing piece, the front end of the polygonal rotary drum penetrates through the annular hollow door frame and extends to the front part of the annular hollow door frame, a third rotary rod is rotatably connected to the upper part between the front part and the rear part of the inner cavity of the annular hollow door frame, and a second fluted disc meshed with each other is fixedly connected to the surfaces of the polygonal rotary drum and the third rotary rod.

Preferably, the upside fixed mounting at annular cavity door frame rear portion has the linkage arc frame, the left side of linkage arc frame is through fixed block fixedly connected with and annular frame first arc type frame that cooperatees and use, the right side of first arc type frame is through bearing piece rotation connection has the second arc type frame, and the front end fixedly connected with third bull stick of second arc type frame, the front end of third bull stick runs through annular cavity door frame and extends to the inboard of annular cavity door frame, the surface of third bull stick just is located the inside sliding mounting of annular cavity door frame has the fixture block sleeve, the surface slidable mounting of horizontal guide arm has the linkage board of right side between annular cavity door frame inner chamber front portion and the rear portion, the linkage board passes through bearing piece rotation connection with the linkage sleeve, the front portion cover on horizontal guide arm surface is equipped with the fourth spring, the rear portion fixedly connected with first arc piece of board, the rear portion fixedly connected with half fluted disc on fixture block surface, the bottom fixedly connected with baffle of fixture block sleeve, annular cavity door frame front portion and rear portion and the fourth bull stick are located the cooperation between the fourth arc board and the fourth arc board fixedly connected with the baffle, and the fifth arc board fixedly connected with the baffle.

Preferably, a fourth rotating rod is rotatably connected between the front part and the rear part of the inner cavity of the annular hollow door frame through a bearing piece, a third fluted disc meshed with the semi-fluted disc is fixedly connected to the surface of the fourth rotating rod, the fourth rotating rod is connected with the third rotating rod through a fifth belt pulley and a fifth belt transmission, a vertical pressing rod matched with the pressing rod for use is slidably mounted on the right side of the rear part of the inner cavity of the annular hollow door frame through a sliding sleeve seat, a second arc block matched with the first arc block for use is fixedly connected to the bottom of the vertical pressing rod, a sixth spring is sleeved on the surface of the vertical pressing rod, a fifth rotating rod is rotatably connected between the front part and the rear part of the inner cavity of the linked arc frame through a bearing piece, a plurality of fifth rotating rods are arranged, a rubber wheel is fixedly connected to the surface of the fifth rotating rod, a plurality of fifth rotating rods are connected with the fifth rotating rod through a sixth belt pulley and a sixth belt transmission, the front end of the fifth rotating rod sequentially penetrates through the annular hollow door frame and the inner side of the annular hollow door frame and extends to the inner side of the annular hollow door frame through the seventh belt pulley, and the left side of the annular hollow door frame is fixedly connected with the annular hollow door frame through the seventh belt transmission seat, and the top of the annular hollow door frame is fixedly connected with the annular hollow door frame through the annular guide frame through the seventh belt transmission seat, and the seventh connecting frame is fixedly connected with the top of the annular hollow door frame and the hollow door frame.

The invention also provides a use method of the coating equipment for processing the metal plate, which comprises the following steps:

S1, before use, the annular frame is positioned at the inner side of the coating furnace, at the moment, the inside of the coating furnace is coated with a metal plate, then the motor is started to drive the second rotating rod and the roller to rotate anticlockwise by utilizing the transmission of the third belt and the second belt, at the moment, the plate at the top is driven to move leftwards, meanwhile, the hot air blower is started to blow away impurities on the surface of the plate through blowing of the spray pipe, the motor is stopped when the plate moves to the left side and is in close contact with the first arc plate, then the coating of the plate inside the coating furnace is waited for completion, and then the step S2 is carried out;

S2, after the coating processing time of the coating furnace reaches, a starting cylinder pushes the annular frame out of the coating furnace under the limit of the guide cross column, the polygonal rod is inserted into the inner side of the polygonal rotary drum for butt joint in the process that the annular hollow door frame is pushed to move forward, the arc-shaped guide seat is inserted into the pressed frame and extrudes the pressed frame after the annular hollow door frame is completely moved to the limit position, the whole basic material guide mechanism is driven to move left to enable the blanking table and the feeding table to be close to the annular frame, meanwhile, the annular hollow door frame presses a button to start a motor, the roller on the inner side of the blanking table is enabled to rotate clockwise through the meshing of the first fluted disc after the motor is started, the roller on the inner side of the feeding table is enabled to rotate anticlockwise, and the polygonal rotary drum is also driven to rotate due to the butt joint of the polygonal rod and the polygonal rotary drum, The rotation of the polygonal rotary drum drives the third fluted disc to rotate clockwise under the transmission of the fifth belt pulley and the fifth belt, the meshing of the two second fluted discs and the transmission of the seventh belt enable the fifth rotary rod to rotate and drive the plurality of rubber wheels to rotate clockwise under the transmission of the sixth belt pulley, the plate at the top of the feeding table moves leftwards under the transmission of the roller, the plate can press the first arc plate to descend and pull the inhaul cable to enable the second arc plate to ascend through the pressing rod in the leftwards moving process, the vertical compression rod can be pressed to push the second arc block to extrude with the first arc block after the pressing rod descends, the first arc block can drive the linkage plate to push the half fluted disc and the baffle forwards together under the limit of the transverse guide rod after being extruded, at the moment, the half fluted disc is separated from the third fluted disc, the baffle is separated from the arc stop block, the second arc-shaped frame is turned ninety degrees to open and is lapped on the upper part of the left side of the blanking table under the action of the fixed limit of the arc stop block and the weight of the plate due to the fact that the clamping block sleeve loses the fixed limit of the arc stop block, the second arc-shaped frame is turned over and simultaneously drives the half fluted disc and the baffle to rotate clockwise to enable teeth to face the top by utilizing the clamping block sleeve, one end of the plate at the top of the feeding table enters the bottom of the linkage arc frame through the transmission of the roller in the process, after the plate contacts with the rubber wheels, the rotation of the plurality of rubber wheels clamps the plate to push the plate to move continuously, and finally the plate is inserted into the inner side of the first arc-shaped frame under the rotation guide of the rubber wheels, After the plate enters the first arc-shaped frame, the plate which is completely plated can be extruded and pushed, so that the plate moves on the inner sides of the first arc-shaped frame and the second arc-shaped frame, one end on the right side moves out of the inner side of the second arc-shaped frame and is lapped on the top of the blanking table, along with the entering of the plate at the top, the lower plate continuously withdraws from the first arc-shaped frame and the second arc-shaped frame, the upper plate and the majority of the lower plate enter the first arc-shaped frame and are still a small section at the top of the first arc-shaped frame, the weight born by the second arc-shaped plate is larger than that of the first arc-shaped plate, the second arc-shaped plate is pushed down and then can be pulled to push the rod and the first arc-shaped plate to rise through a inhaul cable, The vertical compression bar is not pressed against the vertical compression bar after rising, the vertical compression bar drives the second arc block to rise under the elasticity of the sixth spring and not to press the first arc block, the linkage plate pushes the baffle plate and the half fluted disc to synchronously move backwards under the thrust of the fourth spring, the half fluted disc is meshed with a third fluted disc which rotates slowly when moving backwards, the third fluted disc drives the half fluted disc to rotate anticlockwise after the meshing is completed, the second arc frame is driven to reversely rotate and be in butt joint with the first arc frame again, teeth are separated from the third fluted disc after the half fluted disc rotates to the limit position, the baffle plate is fixed by the arc stop block after rotating vertically, the third fluted disc can only idle and not drive the half fluted disc to rotate, After the second arc-shaped frame is turned over and restored, the rest small section of steel plate slides and breaks away when the second arc-shaped frame is lifted, at the moment, the plate continuously moves on the inner side of the first arc-shaped frame under the drive of the rubber wheel until the plate is inserted into the inner side of the second arc-shaped frame, at the moment, loading and unloading of the plate are completed, and then the step S3 is carried out;

S3, after loading and unloading of the plate to be completed, the cylinder is restarted to pull the annular hollow door frame to move backwards, the arc guide seat and the pressed frame fall off, the unloading platform and the loading platform move rightwards under the thrust of the third spring and cannot collide with the annular hollow door frame, the coating process is carried out again when the annular frame completely enters the coating furnace, the motor continues to rotate to move the steel plate at the top of the unloading platform rightwards, and meanwhile, the top of the loading platform continues to move the plate to the left for standby, and then the plate stops.

Preferably, in the step S2, the fourth belt can be kept in a tight state all the time by the sliding sleeve block and the fourth belt pulley under the elasticity of the second spring when the blanking table and the feeding table move.

Advantageous effects

The invention provides a coating device for processing a metal plate and a using method thereof. Compared with the prior art, the method has the following beneficial effects.

(1) According to the coating equipment for processing the metal plate and the application method thereof, the basic material guide mechanism and the coating operation mechanism are used in a combined mode, the annular frame can be moved out of the coating furnace, the butt joint of the polygonal rod and the polygonal rotary drum and the butt joint of the arc guide seat and the compression frame are utilized, the blanking table and the feeding table are close to the annular frame, meanwhile, the connection in power is also carried out, the second arc frame can be opened by utilizing the cooperation between the structures after the motor is started, the plate is conveniently blanked, the rotation reset of the second arc frame is completed under the alternate action of the weight of the upper plate and the lower plate, and the guiding limit of the plate after feeding is ensured.

(2) According to the coating equipment for processing the metal plate and the application method thereof, the semi-toothed disc and the baffle which are matched with the third toothed disc and the arc stop block are arranged on the inner side of the annular hollow door frame, then the second arc block and the vertical compression rod are matched with the first arc plate and the second arc plate for use, the third toothed disc and the semi-toothed disc can be separated after the first arc plate is pressed by the upper plate, so that the second arc frame can be turned over and discharged, the third toothed disc and the semi-toothed disc can be meshed again after the second arc plate is pressed by the lower plate, the second arc frame and the first arc frame are driven to be folded, the plate for feeding is conveniently guided, the labor cost is effectively reduced, and the whole production efficiency is improved by smooth process.

(3) According to the coating equipment for processing the metal plate and the application method thereof, the linkage arc frame is arranged at the rear part of the annular hollow door frame, the plurality of fifth rotating rods which are mutually driven are arranged at the inner sides of the linkage arc frames, the rubber wheels are arranged on the surfaces of the fifth rotating rods and are driven by the motors, the plurality of rubber wheels can be synchronously driven to rotate after the annular hollow door frame is in power butt joint with the motors, the plate can be effectively pulled and inserted into the inner sides of the first arc frame and the second arc frame, and the stability and the integral efficiency of plate feeding are ensured.

(4) According to the coating equipment for processing the metal plate and the application method thereof, the first arc-shaped frame and the second arc-shaped frame are installed on the surface of the annular frame in a surrounding mode, the two structures can guide the plate when the plate is driven by the rubber wheel, the plate is fixed on the surface of the annular frame in an annular mode, shielding is avoided, and the quality of coating is effectively improved.

Drawings

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a schematic view of a basic material guiding mechanism structure of the present invention;

FIG. 3 is an enlarged view of a portion of the invention at A in FIG. 2;

FIG. 4 is a schematic view of a first arc plate, a second arc plate and a top pulling plate according to the present invention;

FIG. 5 is a schematic view of the heat blower, nozzle and sink structure of the present invention;

FIG. 6 is a schematic view of a fourth belt, multi-angle bar and button arrangement of the present invention;

FIG. 7 is a schematic view of a second carriage, compression frame and third spring structure of the present invention;

FIG. 8 is a schematic view of a base plate and chute structure of the present invention;

FIG. 9 is a schematic view of the structure of the coating furnace, guide cross-post and cylinder of the present invention;

FIG. 10 is a cross-sectional view of the annular hollow doorframe structure of the present invention;

FIG. 11 is an enlarged view of a portion of the invention at B in FIG. 9;

FIG. 12 is an enlarged view of a portion of FIG. 9C in accordance with the present invention

FIG. 13 is a schematic view of the structure of the sleeve, annular hollow door frame and annular frame of the present invention;

FIG. 14 is a schematic view of the first arc type frame, the second arc type frame and the third rotating rod structure of the present invention;

FIG. 15 is a schematic view of a first arc block, half-toothed disc and baffle structure of the present invention;

FIG. 16 is a schematic view of a fourth lever, arc stop and fifth spring arrangement of the present invention;

Fig. 17 is a cross-sectional view of the linked arc frame structure of the present invention.

In the figure: 1. a basic material guiding mechanism; 2. a film plating operation mechanism; 101. a base plate; 102. a guide chute; 103. a first slider; 104. a blanking table; 105. a first rotating lever; 106. a motor; 107. a first rotating lever; 108. a second rotating lever; 109. a first pulley; 110. a first belt; 111. a first toothed disc; 112. a feeding table; 113. a second rotating rod; 114. a second belt; 115. a roller; 116. a third pulley; 117. a third belt; 118. a hot air blower; 119. a spray pipe; 120. a sinking port; 121. a slide guiding rod; 122. a first arc plate; 123. a second arc plate; 124. a pull-up plate; 125. a first spring; 126. pressing a pressing rod; 127. a guide wheel; 128. a guy cable; 129. a support plate; 130. a vertical sliding rod; 131. a sliding sleeve block; 132. a second spring; 133. a second rotating lever; 134. a fourth pulley; 135. a fourth belt; 136. a multi-angle bar; 137. a button; 138. a second slider; 139. a compression frame; 140. a third spring; 141. a second pulley; 201. a film plating furnace; 202. a guide cross column; 203. sleeving a frame cylinder; 204. an annular hollow door frame; 205. an annular frame; 206. a polygonal drum; 207. a third rotating lever; 208. a second toothed disc; 209. a first arc-shaped frame; 210. a second arc-shaped frame; 211. a third rotating rod; 212. a cartridge sleeve; 213. a transverse guide rod; 214. a linkage plate; 215. a fourth spring; 216. a first arc block; 217. semi-fluted disc; 218. a baffle; 219. a folding plate; 220. a fourth rotating lever; 221. an arc stopper; 222. a fifth spring; 223. a fourth rotating lever; 224. a fifth pulley; 225. a fifth belt; 226. a third toothed disc; 227. a vertical compression bar; 228. a second arc block; 229. a sixth spring; 230. linkage arc frame; 231. an arc-shaped guide seat; 232. a fifth rotating lever; 233. a rubber wheel; 234. a sixth pulley; 235. a sixth belt; 236. a seventh pulley; 237. a seventh belt; 238. and (3) a cylinder.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

Referring to fig. 1-17, the present invention provides a technical solution: the utility model provides a metal sheet processing is with coating film equipment, includes the basic guide mechanism 1 that is used for conveying, and basic guide mechanism 1 includes bed plate 101, and the coating film operating device 2 is installed on the left side at bed plate 101 top.

Referring to fig. 2, 3, 4, 5, 6 and 7, the overall structure of the basic material guiding mechanism 1 is shown, two sides of the top of the base plate 101 are provided with two sliding grooves 102, the two sliding grooves 102 are respectively slidably provided with a first sliding seat 103 and a second sliding seat 138, the top of the first sliding seat 103 is fixedly connected with a material discharging table 104 through a bracket, the rear part of the inner cavity of the material discharging table 104 is rotatably connected with a first rotating rod 105 through a bearing member, the first rotating rod 105 is provided with a plurality of rotating rods, the front end of the first rotating rod 105 penetrates through the material discharging table 104 and extends to the front part of the material discharging table 104, the left side of the surface of the material discharging table 104 is fixedly connected with a motor 106 through the bracket, The motor 106 is a servo motor, an output shaft of the motor 106 is fixedly connected with a first rotating rod 107 through a coupler, the first rotating rod 107 is fixedly connected with a first rotating rod 105 at the left side, a plurality of first rotating rods 105 are in transmission connection through a first belt pulley 109 and a first belt 110, the left side of the surface of the blanking table 104 is rotationally connected with a second rotating rod 108 through a bearing piece, the surfaces of the second rotating rod 108 and the first rotating rod 105 at the left side are fixedly connected with a first fluted disc 111 which is meshed with each other, the top of the blanking table 104 is fixedly provided with a feeding table 112 through a bracket, the inner side wall of the feeding table 112 is provided with balls for preventing a plate from being blocked by the impact of the inner wall, The rear side of the inner cavity of the feeding table 112 is rotationally connected with a second rotating rod 113 through a bearing piece, the second rotating rods 113 are provided with a plurality of second rotating rods 113, the surfaces of the second rotating rod 113 and the first rotating rod 105 are fixedly provided with rollers 115, the rollers 115 are made of rubber materials, the front end of the second rotating rod 113 penetrates through the feeding table 112 and extends to the front side of the feeding table 112, the plurality of second rotating rods 113 are in transmission connection through a second belt 114 and a second belt pulley 141, the leftmost second rotating rod 113 and the second rotating rod 108 are in transmission connection through a third belt pulley 116 and a third belt 117, the top of the feeding table 112 is fixedly provided with a hot air blower 118, The bottom of the hot blast blower 118 is provided with a spray pipe 119, the bottom end of the spray pipe 119 penetrates through the feeding table 112 and extends to the inner side of the feeding table 112, the bottoms of the inner cavities of the feeding table 112 and the discharging table 104 are respectively provided with a slide guiding rod 121 in a sliding manner through opening openings, the top ends of the two slide guiding rods 121 are respectively and fixedly provided with a first arc plate 122 and a second arc plate 123, the top of the roller 115 is provided with a sinking opening 120 matched with the first arc plate 122 and the second arc plate 123 for use, the first arc plate 122 and the second arc plate 123 are not completely contacted with the sinking opening 120, the bottom of the slide guiding rod 121 positioned at the upper part is fixedly connected with an upper pulling plate 124, a first spring 125 is fixedly connected between the upper pulling plate 124 and the bottom of the feeding table 112, a pressing rod 126 is fixedly connected at the front part of the upper pulling plate 124, a guide wheel 127 is rotatably connected on the surface of the feeding table 112 through a bracket, a pull rope 128 is fixedly connected between the pressing rod 126 and the lower guide rod 121, the pull rope 128 is a steel rope, the pull rope 128 is attached to the guide wheel 127, a supporting plate 129 is fixedly connected at the front part of the left side of the top of the base plate 101, a vertical sliding rod 130 is fixedly connected at the surface of the supporting plate 129, sliding sleeve blocks 131 are slidably arranged at the upper part and the lower part of the surface of the vertical sliding rod 130, The surface of the vertical sliding rod 130 and between the two sliding sleeve blocks 131 is sleeved with a second spring 132, the left side of the surface of the supporting plate 129 is rotatably connected with a second rotating rod 133 through an opening, the surfaces of the second rotating rod 133, the first rotating rod 107 and the two sliding sleeve blocks 131 are all provided with fourth belt pulleys 134, a plurality of fourth belt pulleys 134 are in transmission connection through a fourth belt 135, the rear end of the second rotating rod 133 is fixedly connected with a polygonal rod 136, the rear end of the polygonal rod 136 is arc-shaped and is convenient to butt joint, a button 137 is fixedly arranged below the rear part of the supporting plate 129, the top of the second sliding seat 138 is fixedly connected with a compression frame 139 through a bracket, and the compression frame 139 is fixedly connected with the blanking table 104 through a bracket, and a third spring 140 is fixedly connected between the second sliding seat 138 and the inner wall of the guide chute 102.

Referring to fig. 8, 9, 10, 11, 12, 13, 14 and 15, the overall structure of the coating operation mechanism 2 is shown, the coating operation mechanism 2 comprises a coating furnace 201, the coating furnace 201 is a horizontal furnace body, the coating furnace 201 is fixedly installed on the left side of the top of the base plate 101 through a bracket, the rear part of the inner cavity of the coating furnace 201 is fixedly connected with a guide cross column 202, the surface of the guide cross column 202 is slidably provided with a sleeve frame 203, the front end of the sleeve frame 203 is fixedly provided with an annular hollow door frame 204, the rear part of the annular hollow door frame 204 is fixedly connected with an annular frame 205, the rear part of the inner side of the annular hollow door frame 204 is rotationally connected with a polygonal rotary drum 206 matched with the polygonal rod 136 through a bearing piece, The front end of the polygonal rotary drum 206 penetrates through the annular hollow door frame 204 and extends to the front part of the annular hollow door frame 204, a third rotary rod 207 is rotatably connected to the upper part between the front part and the rear part of the inner cavity of the annular hollow door frame 204, second fluted discs 208 meshed with each other are fixedly connected to the surfaces of the polygonal rotary drum 206 and the third rotary rod 207, a linkage arc frame 230 is fixedly arranged on the upper side of the rear part of the annular hollow door frame 204, a first arc frame 209 matched with the annular frame 205 is fixedly connected to the left side of the linkage arc frame 230 through a fixed block, a second arc frame 210 is rotatably connected to the right side of the first arc frame 209 through a bearing piece, the front end of the second arc-shaped frame 210 is fixedly connected with a third rotating rod 211, the front end of the third rotating rod 211 penetrates through the annular hollow door frame 204 and extends to the inner side of the annular hollow door frame 204, a clamping block sleeve 212 is slidingly arranged on the surface of the third rotating rod 211 and positioned in the annular hollow door frame 204, a transverse guide rod 213 is fixedly connected to the right side between the front part and the rear part of the inner cavity of the annular hollow door frame 204, a linkage plate 214 is slidingly arranged on the surface of the transverse guide rod 213, the linkage plate 214 is rotationally connected with the clamping block sleeve 212 through a bearing piece, a fourth spring 215 is sleeved on the front part of the surface of the transverse guide rod 213, The rear part of the linkage plate 214 is fixedly connected with a first arc block 216, the rear part of the surface of the clamping block sleeve 212 is fixedly connected with a half fluted disc 217, the number of teeth of the half fluted disc 217 is only one quarter of the number of teeth of one circle, the bottom of the clamping block sleeve 212 is fixedly connected with a baffle 218, a folding plate 219 and a fourth rotating rod 220 are respectively and fixedly connected between the front part and the rear part of the inner cavity of the annular hollow door frame 204 and below the linkage plate 214, the surface of the fourth rotating rod 220 is rotatably connected with an arc stop 221 matched with the baffle 218, a fifth spring 222 is fixedly connected between the arc stop 221 and the folding plate 219, A fourth rotating rod 223 is rotatably connected between the front part and the rear part of the inner cavity of the annular hollow door frame 204 through a bearing piece, a third fluted disc 226 meshed with the half fluted disc 217 is fixedly connected on the surface of the fourth rotating rod 223, the fourth rotating rod 223 and the third rotating rod 207 are in transmission connection with a fifth belt 225 through a fifth belt pulley 224, a vertical compression rod 227 matched with the pressing rod 126 for use is slidably arranged on the right side of the rear part of the inner cavity of the annular hollow door frame 204 through a sliding sleeve seat, a second arc block 228 matched with the first arc block 216 for use is fixedly connected at the bottom end of the vertical compression rod 227, a sixth spring 229 is sleeved on the surface of the vertical compression rod 227, The sixth spring 229 is positioned between the top end of the vertical compression bar 227 and the sliding sleeve seat, can push the vertical compression bar 227 to rise upwards, a fifth rotation bar 232 is rotationally connected between the front part and the rear part of the inner cavity of the linkage arc frame 230 through a bearing piece, the fifth rotation bar 232 is provided with a plurality of, the surface of the fifth rotation bar 232 is fixedly connected with a rubber wheel 233, the plurality of fifth rotation bars 232 are in transmission connection with a sixth belt 235 through a sixth belt pulley 234, the front end of the left fifth rotation bar 232 sequentially penetrates through the linkage arc frame 230 and the annular hollow door frame 204 and extends to the inner side of the annular hollow door frame 204, the left fifth rotation bar 232 is in transmission connection with the third rotation bar 207 through a seventh belt pulley 236 and a seventh belt 237, the bottom of the annular hollow door frame 204 is fixedly connected with an arc-shaped guide seat 231 matched with the pressed frame 139 through a bracket, the top of the coating furnace 201 is fixedly connected with a cylinder 238, and the front end of the cylinder 238 is fixedly connected with the annular hollow door frame 204 through a fixed plate.

The invention also provides a use method of the coating equipment for processing the metal plate, which comprises the following steps:

S1, before use, the annular frame 205 is positioned at the inner side of the coating furnace 201, at the moment, the inside of the coating furnace 201 is coating a metal plate, then the motor 106 is started to drive the second rotating rod 113 and the roller 115 to rotate anticlockwise by utilizing the transmission of the third belt 117 and the second belt 114, at the moment, the top plate is driven to move leftwards, meanwhile, the hot air blower 118 is started to blow away impurities on the surface of the plate through blowing of the spray pipe 119, the motor 106 is stopped when the plate moves to the left side and is almost contacted with the first arc plate 122, then the completion of coating of the plate in the coating furnace 201 is waited, and then the step S2 is carried out;

S2, after the coating processing time of the coating furnace 201 reaches, the starting cylinder 238 pushes the annular frame 205 out of the coating furnace 201 under the limit of the guide cross column 202, the polygonal rod 136 is inserted into the inner side of the polygonal rotary drum 206 for butt joint in the process that the annular hollow door frame 204 is pushed to move forward, the arc guide seat 231 is inserted into the pressed frame 139 and is extruded after the arc guide seat is completely moved to the limit position, the whole basic material guiding mechanism 1 is driven to move left to enable the blanking table 104 and the feeding table 112 to be close to the annular frame 205, meanwhile, the annular hollow door frame 204 presses the button 137 to start the motor 106, the roller 115 on the inner side of the blanking table 104 is enabled to rotate clockwise through the engagement of the first fluted disc 111 after the motor 106 is started, The roller 115 at the inner side of the feeding table 112 rotates anticlockwise, and the polygonal drum 206 is also driven to rotate by the butt joint of the polygonal rod 136 and the polygonal drum 206, the rotation of the polygonal drum 206 drives the third fluted disc 226 to rotate clockwise under the transmission of the fifth belt pulley 224 and the fifth belt 225, and the meshing of the two second fluted discs 208 and the transmission of the seventh belt 237 drive the fifth rotating rod 232 to rotate and the transmission of the sixth belt pulley 234 drive the plurality of rubber wheels 233 to rotate clockwise, the plate at the top of the feeding table 112 moves leftwards under the transmission of the roller 115, the plate presses the first arc plate 122 to descend and pulls the pull rope 128 to lift the second arc plate 123 through the pressing rod 126 in the leftward moving process, The pressing rod 126 is pressed to push the vertical pressing rod 227 to push the second arc block 228 to extrude with the first arc block 216, the first arc block 216 is pressed to drive the linkage plate 214 to push the half fluted disc 217 and the baffle 218 forwards together under the limit of the transverse guide rod 213, at this time, the half fluted disc 217 is separated from the third fluted disc 226, the baffle 218 is separated from the arc stop block 221, the second arc frame 210 is turned over by ninety degrees under the weight of the clamping block sleeve 212 and the plate material, and is opened and lapped on the upper part of the left side of the blanking table 104, while the second arc frame 210 is turned over, the clamping block sleeve 212 is utilized to drive the half fluted disc 217 and the baffle 218 to rotate clockwise to make teeth face the top, One end of the plate at the top of the feeding table 112 enters the bottom of the linkage arc frame 230 through the transmission of the roller 115 in the process, after the plate contacts with the rubber wheels 233, the rotation of the plurality of rubber wheels 233 clamps the plate to push the plate to move continuously, finally the plate is inserted into the inner side of the first arc-shaped frame 209 under the rotation guide of the rubber wheels 233, the plate enters the first arc-shaped frame 209 to push the plate which is completely coated with the original film, the plate moves on the inner sides of the first arc-shaped frame 209 and the second arc-shaped frame 210, one end at the right side moves out of the inner side of the second arc-shaped frame 210 and is lapped on the top of the blanking table 104, Along with the entering of the top plate, the lower steel plate continuously withdraws from the first arc-shaped frame 209 and the second arc-shaped frame 210, when most of the area of the lower steel plate is positioned at the top of the blanking table 104 and presses the top of the second arc-shaped frame 123, and the upper plate and most of the entering first arc-shaped frame 209 are still a small section at the top of the first arc-shaped frame 122, at this time, the weight of the second arc-shaped frame 123 is greater than that of the first arc-shaped frame 122, the second arc-shaped frame 123 can pull the pressing rod 126 and the first arc-shaped frame 122 to rise through the inhaul cable 128 after being pressed down, the pressing rod 126 does not press the vertical pressing rod 227 any more after rising, the vertical pressing rod 227 drives the second arc-shaped block 228 to rise under the elasticity of the sixth spring 229 and does not press the first arc-shaped block 216 any more, At this time, the linkage plate 214 pushes the baffle 218 and the half-toothed disc 217 to move backward synchronously under the pushing force of the fourth spring 215, and the half-toothed disc 217 is meshed with the third toothed disc 226 which rotates slowly when moving backward, after the meshing is completed, the third toothed disc 226 drives the half-toothed disc 217 to rotate anticlockwise, drives the second arc-shaped frame 210 to rotate reversely and dock with the first arc-shaped frame 209 again, after the half-toothed disc 217 rotates to the limit position, the teeth are separated from the third toothed disc 226, and the baffle 218 is limited by the arc stop 221 to fix the half-toothed disc 217 and the clamping block sleeve 212 after rotating vertically, the third toothed disc 226 can idle and not drive the half-toothed disc 217 to rotate, After the second arc-shaped frame 210 is turned over and restored, the rest small section of steel plate slides and breaks away when the second arc-shaped frame 210 is lifted, and at the moment, the plate continues to move on the inner side of the first arc-shaped frame 209 under the driving of the rubber wheel 233 until the plate is inserted into the inner side of the second arc-shaped frame 210, at the moment, loading and unloading of the plate are completed, and then the step S3 is carried out;

In the step S2, the fourth belt 135 can be kept in a tight state all the time under the elasticity of the second spring 132 through the sliding sleeve block 131 and the fourth belt pulley 134 when the blanking table 104 and the loading table 112 move;

S3, the cylinder 238 is restarted to pull the annular hollow door frame 204 to move backwards after loading and unloading of the plate is finished, the arc guide seat 231 and the compression frame 139 are separated, the unloading platform 104 and the loading platform 112 move rightwards under the thrust of the third spring 140 and cannot collide with the annular hollow door frame 204, the coating process is performed again when the annular frame 205 completely enters the coating furnace 201, the motor 106 continues to rotate to move the steel plate at the top of the unloading platform 104 rightwards, and meanwhile, the top of the loading platform 112 continues to move the plate to the left for standby, and then the plate stops.

Claims (6)

1. Coating equipment for sheet metal processing, including basic guide mechanism (1) that are used for conveying, its characterized in that: the basic material guiding mechanism (1) comprises a base plate (101), a coating operation mechanism (2) is arranged on the left side of the top of the base plate (101), the coating operation mechanism (2) comprises a coating furnace (201), the coating furnace (201) is fixedly arranged on the left side of the top of the base plate (101) through a bracket, the rear part of an inner cavity of the coating furnace (201) is fixedly connected with a guide cross column (202), a sleeve frame cylinder (203) is arranged on the surface of the guide cross column (202) in a sliding manner, an annular hollow door frame (204) is fixedly arranged at the front end of the sleeve frame cylinder (203), the rear part of the annular hollow door frame (204) is fixedly connected with an annular frame (205), the rear part of the inner side of the annular hollow door frame (204) is rotationally connected with a polygonal rotary drum (206) which is matched with the polygonal rod (136) for use through a bearing piece, the front end of the polygonal rotary drum (206) penetrates through the annular hollow door frame (204) and extends to the front part of the annular hollow door frame (204), the upper part between the front part and the rear part of the inner cavity of the annular hollow door frame (204) is rotationally connected with a third rotary rod (207), the surfaces of the polygonal rotary drum (206) and the third rotary rod (207) are fixedly connected with a second fluted disc (208) which is meshed with each other, The upper side of annular cavity door frame (204) rear portion fixed mounting has linkage arc frame (230), the left side of linkage arc frame (230) is through fixed block fixedly connected with and annular frame (205) first arc type frame (209) that cooperatees and use, the right side of first arc type frame (209) is connected with second arc type frame (210) through the bearing piece rotation, and the front end fixedly connected with third bull stick (211) of second arc type frame (210), the front end of third bull stick (211) runs through annular cavity door frame (204) and extends to the inboard of annular cavity door frame (204), fixture block sleeve (212) are installed in the surface of third bull stick (211) and the inside sliding that is located annular cavity door frame (204), The right side between the front part and the rear part of the inner cavity of the annular hollow door frame (204) is fixedly connected with a transverse guide rod (213), the surface of the transverse guide rod (213) is slidably provided with a linkage plate (214), the linkage plate (214) is rotationally connected with a clamping block sleeve (212) through a bearing piece, the front part of the surface of the transverse guide rod (213) is sleeved with a fourth spring (215), the rear part of the linkage plate (214) is fixedly connected with a first arc block (216), the rear part of the surface of the clamping block sleeve (212) is fixedly connected with a half fluted disc (217), the bottom of the clamping block sleeve (212) is fixedly connected with a baffle plate (218), A folding plate (219) and a fourth rotating rod (220) are fixedly connected between the front part and the rear part of the inner cavity of the annular hollow door frame (204) and below the linkage plate (214), an arc stop block (221) matched with the baffle plate (218) for use is rotationally connected to the surface of the fourth rotating rod (220), a fifth spring (222) is fixedly connected between the arc stop block (221) and the folding plate (219), a fourth rotating rod (223) is rotationally connected between the front part and the rear part of the inner cavity of the annular hollow door frame (204) through a bearing piece, a third fluted disc (226) meshed with the semi-fluted disc (217) is fixedly connected to the surface of the fourth rotating rod (223), The fourth rotating rod (223) and the third rotating rod (207) are in transmission connection with a fifth belt (225) through a fifth belt pulley (224), a vertical pressing rod (227) matched with the pressing rod (126) for use is slidably arranged on the right side of the rear part of the inner cavity of the annular hollow door frame (204) through a sliding sleeve seat, the bottom end of the vertical pressing rod (227) is fixedly connected with a second arc block (228) matched with the first arc block (216) for use, a sixth spring (229) is sleeved on the surface of the vertical pressing rod (227), a fifth rotating rod (232) is rotationally connected between the front part and the rear part of the inner cavity of the linkage arc frame (230) through a bearing part, the fifth rotating rods (232) are provided with a plurality of rubber wheels (233) fixedly connected with the surfaces of the fifth rotating rods (232), the plurality of fifth rotating rods (232) are in transmission connection through a sixth belt pulley (234) and a sixth belt (235), the front ends of the fifth rotating rods (232) on the left sequentially penetrate through the linkage arc frame (230) and the annular hollow door frame (204) and extend to the inner side of the annular hollow door frame (204), the fifth rotating rods (232) on the left are in transmission connection with the third rotating rods (207) through a seventh belt pulley (236) and a seventh belt (237), The bottom of the annular hollow door frame (204) is fixedly connected with an arc-shaped guide seat (231) matched with the pressed frame (139) for use through a bracket, the top of the coating furnace (201) is fixedly connected with a cylinder (238), the front end of the cylinder (238) is fixedly connected with the annular hollow door frame (204) through a fixed plate, both sides of the top of the base plate (101) are provided with guide sliding grooves (102), the two guide sliding grooves (102) are respectively provided with a first sliding seat (103) and a second sliding seat (138) in a sliding manner, the top of the first sliding seat (103) is fixedly connected with a blanking table (104) through a bracket, The rear part of the inner cavity of the blanking table (104) is rotationally connected with a first rotating rod (105) through a bearing piece, the first rotating rod (105) is provided with a plurality of first rotating rods, the front end of each first rotating rod (105) penetrates through the blanking table (104) and extends to the front part of the blanking table (104), the left side of the surface of the blanking table (104) is fixedly connected with a motor (106) through a bracket, the output shaft of the motor (106) is fixedly connected with a first rotating rod (107) through a coupler, the first rotating rod (107) is fixedly connected with the first rotating rod (105) on the left side, a plurality of first rotating rods (105) are in transmission connection through a first belt pulley (109) and a first belt (110), The left side on the surface of the blanking table (104) is rotationally connected with a second rotating rod (108) through a bearing piece, and the surfaces of the second rotating rod (108) and the left first rotating rod (105) are fixedly connected with a first fluted disc (111) which is meshed with each other.

2. The plating apparatus for metal plate processing according to claim 1, wherein: the top of the blanking table (104) is fixedly provided with a feeding table (112) through a bracket, the rear side of the inner cavity of the feeding table (112) is rotationally connected with a second rotating rod (113) through a bearing piece, the second rotating rod (113) is provided with a plurality of rollers (115) which are fixedly arranged on the surfaces of the second rotating rod (113) and the first rotating rod (105), the front end of the second rotating rod (113) penetrates through the feeding table (112) and extends to the front side of the feeding table (112), a plurality of second rotating rods (113) are in transmission connection through a second belt (114) and a second belt pulley (141), the leftmost side is in transmission connection through a third belt pulley (116) and a third belt pulley (117) between the second rotating rod (113) and the second rotating rod (108), the top of the feeding table (112) is fixedly provided with a hot air blower (118), the bottom of the hot air blower (118) is provided with a spray pipe (119), the bottom end of the spray pipe (119) penetrates through the feeding table (112) and extends to the front side of the feeding table (112), the upper inner side of the feeding table (112) is fixedly provided with a second guide plate (121) and the upper arc plate (121) is fixedly provided with two arc guide plates (121) which are respectively arranged at the top of the two arc guide plates (121), the top of the roller (115) is provided with a sinking opening (120) matched with the first arc plate (122) and the second arc plate (123).

3. A plating apparatus for metal plate processing according to claim 2, wherein: the bottom fixedly connected with pull-up plate (124) of slide bar (121) that is located on top, fixedly connected with first spring (125) between the bottom of pull-up plate (124) and material loading platform (112), the front portion fixedly connected with of pull-up plate (124) presses pole (126), the surface of material loading platform (112) is connected with leading wheel (127) through the support rotation, fixedly connected with cable (128) between pressing pole (126) and lower part slide bar (121), and cable (128) laminating with leading wheel (127), the anterior fixedly connected with backup pad (129) of bed plate (101) top left, the fixed surface of backup pad (129) is connected with perpendicular slide bar (130), the upper portion and the equal slidable mounting in lower part on perpendicular slide bar (130) surface have sliding sleeve piece (131), the cover is equipped with second spring (132) between perpendicular slide bar (130) surface and being located two sliding sleeve pieces (131).

4. A plating apparatus for metal plate processing according to claim 3, wherein: the left side on backup pad (129) surface is rotated through seting up the opening and is connected with second dwang (133), the surface of second dwang (133), first dwang (107) and two sliding sleeve piece (131) all is provided with fourth belt pulley (134), a plurality of through fourth belt (135) transmission connection between fourth belt pulley (134), the rear end fixedly connected with multiangle pole (136) of second dwang (133), the below fixed mounting at backup pad (129) rear portion has button (137), the top of second slide (138) is through support fixedly connected with pressurized frame (139), and through support fixed connection between pressurized frame (139) and blanking platform (104), fixedly connected with third spring (140) between the inner wall of second slide (138) and guide chute (102).

5. A method of using a plating apparatus for sheet metal processing as defined in claim 4, the method is characterized in that: the method specifically comprises the following steps:

S1, before use, an annular frame (205) is positioned at the inner side of a coating furnace (201), at the moment, the inside of the coating furnace (201) is used for coating a metal plate, then a motor (106) is started to drive a second rotating rod (113) and a roller (115) to rotate anticlockwise by utilizing the transmission of a third belt (117) and a second belt (114), at the moment, a plate at the top is driven to move leftwards, a hot air blower (118) is started to blow away impurities on the surface of the plate by blowing through a spray pipe (119), the motor (106) is stopped when the plate moves to the left side and is almost contacted with a first arc plate (122), then the coating of the plate inside the coating furnace (201) is waited for completion, and then the step S2 is carried out;

S2, after the coating processing time of the coating furnace (201) is reached, a starting cylinder (238) pushes the annular frame (205) out of the coating furnace (201) under the limit of the guide cross column (202), the polygonal rod (136) is inserted into the inner side of the polygonal rotary drum (206) for butt joint in the process that the annular hollow door frame (204) is pushed to move forward, after the annular hollow door frame (204) is completely moved to the limit position, the arc-shaped guide seat (231) is inserted into the compression frame (139) and extrudes the compression frame, the whole basic guide mechanism (1) is driven to move left to enable the blanking table (104) and the feeding table (112) to be close to the annular frame (205), meanwhile, the annular hollow door frame (204) presses a button (137) to start a motor (106), After the motor (106) is started, the roller (115) at the inner side of the blanking table (104) rotates clockwise through the meshing of the first fluted disc (111), the roller (115) at the inner side of the feeding table (112) rotates anticlockwise, the polygonal rotary drum (206) is also driven to rotate due to the butt joint of the polygonal rod (136) and the polygonal rotary drum (206), the rotation of the polygonal rotary drum (206) drives the third fluted disc (226) to rotate clockwise under the transmission of the fifth belt pulley (224) and the fifth belt (225), the fifth rotary rod (232) rotates due to the meshing of the two second fluted discs (208) and the transmission of the seventh belt (237) and drives a plurality of rubber wheels (233) to rotate clockwise under the transmission of the sixth belt pulley (234), The plate at the top of the feeding table (112) moves leftwards under the transmission of the roller (115), the plate can press the first arc plate (122) to descend in the leftwards moving process and pull the stay cable (128) to enable the second arc plate (123) to ascend through the pressing rod (126), the vertical pressing rod (227) can be pressed to push the second arc block (228) to be extruded with the first arc block (216) after the pressing rod (126) descends, the first arc block (216) can drive the linkage plate (214) to push the half fluted disc (217) and the baffle plate (218) forwards together under the limit of the transverse guide rod (213) after being extruded, at the moment, the half fluted disc (217) is separated from the third fluted disc (226), The baffle plate (218) is separated from the arc stop block (221), the clamping block sleeve (212) loses the fixed limit of the arc stop block (221), the second arc-shaped frame (210) is turned ninety degrees to open and is lapped on the upper part of the left side of the blanking table (104) under the action of the weight of the plate, the second arc-shaped frame (210) is turned over and simultaneously drives the half fluted disc (217) and the baffle plate (218) to rotate clockwise by utilizing the clamping block sleeve (212) to enable teeth to face to the top, one end of the plate at the top of the feeding table (112) enters the bottom of the linkage arc frame (230) through the transmission of the roller (115), After the plate contacts with the rubber wheels (233), the rotation of the plurality of rubber wheels (233) clamps the plate to push the plate to move continuously, the plate is finally inserted into the inner side of the first arc-shaped frame (209) under the rotation guide of the rubber wheels (233), the plate enters the first arc-shaped frame (209) and then presses and pushes the steel plate which is completely coated, the steel plate moves on the inner sides of the first arc-shaped frame (209) and the second arc-shaped frame (210), one end on the right side moves out of the inner side of the second arc-shaped frame (210) and is lapped on the top of the blanking table (104), along with the entering of the top plate, the lower steel plate continuously withdraws from the first arc-shaped frame (209) and the second arc-shaped frame (210), When the most area of the lower steel plate is positioned at the top of the blanking table (104) and presses the top of the second arc plate (123), and the upper plate and most of the upper plate enter the first arc frame (209) and leave a small section at the top of the first arc plate (122), the weight born by the second arc plate (123) is larger than that of the first arc plate (122), the second arc plate (123) can pull the pressing rod (126) and the first arc plate (122) to rise through the inhaul cable (128) after being pressed down, the pressing rod (126) does not press the vertical pressing rod (227) any more after rising, the vertical pressing rod (227) drives the second arc block (228) to rise under the elasticity of the sixth spring (229) and does not press the first arc block (216), At this time, the linkage plate (214) pushes the baffle plate (218) and the half-toothed disc (217) to move backwards synchronously under the pushing force of the fourth spring (215), the half-toothed disc (217) is meshed with the third toothed disc (226) which rotates slowly when moving backwards, the third toothed disc (226) drives the half-toothed disc (217) to rotate anticlockwise after the meshing is completed, the second arc-shaped frame (210) is driven to rotate anticlockwise and is in re-butt joint with the first arc-shaped frame (209), the teeth are separated from the third toothed disc (226) after the half-toothed disc (217) rotates to the limit position, the baffle plate (218) is limited by the arc stop block (221) after rotating vertically to fix the half-toothed disc (217) and the clamping block sleeve (212), The third fluted disc (226) can only idle without driving the half fluted disc (217) to rotate, after the second arc-shaped frame (210) is turned over and recovered, a small section of the rest steel plate slides and breaks away when the second arc-shaped frame (210) is lifted, at the moment, the plate continues to move on the inner side of the first arc-shaped frame (209) under the driving of the rubber wheel (233) until the plate is inserted into the inner side of the second arc-shaped frame (210), at the moment, the loading and unloading of the plate are finished, and then the step S3 is carried out;

S3, a cylinder (238) is restarted to pull the annular hollow door frame (204) to move backwards after loading and unloading of the plate to be completed, the arc guide seat (231) and the compression frame (139) are separated, the unloading platform (104) and the loading platform (112) move rightwards under the thrust of the third spring (140) and cannot collide with the annular hollow door frame (204), the coating process is carried out again when the annular frame (205) completely enters the coating furnace (201), the motor (106) continues to rotate to move the steel plate at the top of the unloading platform (104) rightwards, and meanwhile, the top of the loading platform (112) continues to move the plate to the left for standby, and then the operation is stopped.

6. A metal according to claim 5 a use method of coating equipment for processing plates, the method is characterized in that: in the step S2, when the blanking table (104) and the feeding table (112) move, the fourth belt (135) can be kept in a tight state all the time under the elasticity of the second spring (132) through the sliding sleeve block (131) and the fourth belt pulley (134).