CN113118071A - Processing apparatus before to carborundum micro-reaction board low temperature welding - Google Patents

Abstract

The invention relates to the field of silicon carbide, in particular to a processing device for a silicon carbide micro-reaction plate before low-temperature welding. The technical problem is as follows: provided is a processing device before low-temperature welding of a silicon carbide micro-reaction plate. The technical scheme is as follows: a processing device before low-temperature welding of a silicon carbide micro-reaction plate comprises a fixed frame, a coating edge cleaning mechanism, a material supplementing and trimming mechanism and the like; the fixing frame is connected with the coating edge cleaning mechanism; the fixing frame is connected with the material supplementing and trimming mechanism; the conveying and plasticity mechanism is connected with the coating edge cleaning mechanism. The invention realizes the cleaning work of the coating flowing out of the coating part of the silicon carbide micro-reaction plate coated with the coating, and can also recover the lost coating after cleaning, and can ensure that the thickness of the coating meets the standard after recovering.

Description

Processing apparatus before to carborundum micro-reaction board low temperature welding

Technical Field

The invention relates to the field of silicon carbide, in particular to a processing device for a silicon carbide micro-reaction plate before low-temperature welding.

Background

The micro-reactor is used as an important chemical process strengthening device, so that chemical reaction can be carried out in a micron-scale space, the heat transfer efficiency and the mass transfer efficiency are fully improved, the reaction conversion rate and the selectivity are greatly improved, the volume of the reactor is reduced, the integration level and the safety of the reaction process are improved, and the production purposes of energy conservation and consumption reduction in the chemical industry are realized. In the field of fine chemical engineering, the temperature requirements of many reactions are very strict, many media often have strong acid or strong base characteristics, and higher pressure is generated in the reaction process, so that the requirements on the core component of a reactor, namely a silicon carbide micro-reaction plate are extremely high.

Before the silicon carbide micro-reaction plate is welded at low temperature, a welding part needs to be coated with specific paint to meet the welding requirement, the assembly has extremely high requirements, and certain standards are provided for the position and the thickness of the paint, so that after the existing device is used for coating the silicon carbide micro-reaction plate, the micro-reaction plate is still in a primary processing state, the surface of the micro-reaction plate usually has uneven positions, when the coating position is uneven, large marks on the surface of the coating micro-reaction plate can flow out, the later welding is affected, and the reaction plate is more likely to be damaged completely.

Therefore, there is a need for a device that can clean the coating material flowing out from the edge of the coating material of the silicon carbide micro-reaction plate after the coating material, and repair the lost coating material, thereby ensuring that the thickness of the coating material meets the standard.

Disclosure of Invention

In order to overcome the defects that after the existing device coats the micro reaction plate, the surface of the micro reaction plate is still in a primary processing state, so that the surface of the micro reaction plate usually has some uneven positions, when the coating position has the unevenness, a large mark on the surface of the coated micro reaction plate can flow out, the later welding is influenced, and the reaction plate is more likely to be completely damaged, the technical problem is as follows: provided is a processing device before low-temperature welding of a silicon carbide micro-reaction plate.

The technical scheme is as follows: a processing device before low-temperature welding of a silicon carbide micro-reaction plate comprises a fixed frame, a controller, a conveying and plasticity mechanism, a coating edge cleaning mechanism and a material supplementing and trimming mechanism; the fixed frame is connected with the controller; the fixed frame is connected with the conveying and plastic mechanism; the fixing frame is connected with the coating edge cleaning mechanism; the fixing frame is connected with the material supplementing and trimming mechanism; the conveying and plasticity mechanism is connected with the coating edge cleaning mechanism.

Optionally, the conveying and plasticity mechanism comprises a placing plate, a simulated micro-reaction plate, a shaping frame, a U-shaped connecting frame, a first electric push rod, a second electric push rod, a first electric slide block, a first screw rod, a first driving wheel, a second driving wheel, a third driving wheel, a second screw rod, a fourth driving wheel, a first driving shaft, a first bevel gear, a second driving shaft, a fifth driving wheel, a sixth driving wheel, a third driving shaft, a first flat gear, a first polished rod and a second polished rod; a simulated micro-reaction plate is placed above the placing plate; the placing plate is screwed with the first screw rod and the second screw rod simultaneously; the placing plate is simultaneously in sliding connection with the first polished rod and the second polished rod; a shaping frame is arranged above the simulated micro-reaction plate; the shaping frame is connected with the U-shaped connecting frame; the U-shaped connecting frame is fixedly connected with the first electric push rod and the second electric push rod simultaneously; the first electric push rod and the second electric push rod are fixedly connected with the first electric slide block at the same time; the first electric sliding block is in sliding connection with the fixed frame; the first screw rod is fixedly connected with the first driving wheel and the second driving wheel through the connecting rod; the first screw rod is rotatably connected with the fixed frame through a connecting rod; the outer ring surface of the first driving wheel is in transmission connection with a fourth driving wheel through a belt; the outer ring surface of the second driving wheel is in transmission connection with a third driving wheel through a belt; the third driving wheel is fixedly connected with the second screw rod through a connecting rod; the second screw rod is rotatably connected with the fixed frame through a connecting rod; the fourth driving wheel is fixedly connected with the first driving shaft; the first transmission shaft is rotatably connected with the fixed frame through a connecting block; the first transmission shaft is fixedly connected with the first bevel gear; the first bevel gear is meshed with the second bevel gear; the second bevel gear is fixedly connected with the second transmission shaft; the second transmission shaft is rotatably connected with the fixed frame; the second transmission shaft is fixedly connected with a fifth transmission wheel; the outer ring surface of the fifth driving wheel is in transmission connection with the sixth driving wheel through a belt; the sixth driving wheel is fixedly connected with the third transmission shaft; the third transmission shaft is rotatably connected with the fixed frame; the third transmission shaft is fixedly connected with the first flat gear; the first flat gear is connected with the coating edge cleaning mechanism; the first polish rod and the second polish rod are connected with the fixing frame at the same time.

Optionally, the coating edge cleaning mechanism comprises a first connecting plate, a second electric slider, a third electric slider, a first motor, a second pinion, a fourth transmission shaft, a third pinion, a fifth transmission shaft, a sliding sleeve, a fan blade, a third electric push rod, a telescopic plate, a connecting column, a second connecting plate, a fourth electric slider, a fifth electric slider, a second motor, a fourth pinion, a fifth pinion, a sixth transmission shaft, a third connecting plate, an exhaust fan, a collecting bucket, a first air pipe, a second air pipe, a third air pipe, a fourth air pipe, a fifth air pipe, a telescopic rod and a rubber ball; the first connecting plate is fixedly connected with the second electric sliding block and the third electric sliding block; the first connecting plate is connected with a first motor; the first connecting plate is rotatably connected with the fourth transmission shaft through an L-shaped connecting block; the first connecting plate is rotatably connected with the fifth transmission shaft; the first connecting plate is fixedly connected with the third electric push rod; the first connecting plate is in contact with the connecting column; the second electric sliding block and the third electric sliding block are simultaneously in sliding connection with the fixed frame; the first motor is fixedly connected with the fourth transmission shaft through an output shaft; the fourth transmission shaft is fixedly connected with the second flat gear; the second flat gear is meshed with the first flat gear; a third flat gear is arranged on the side surface of the second flat gear; the third horizontal gear is fixedly connected with the sliding sleeve; the sliding sleeve is connected with the fifth transmission shaft; the sliding sleeve is connected with the third electric push rod through a connecting block; the fifth transmission shaft is fixedly connected with the expansion plate; the expansion plate is fixedly connected with the connecting column; the connecting column is fixedly connected with the second connecting plate; the second connecting plate is fixedly connected with the fourth electric sliding block and the fifth electric sliding block; the fourth electric slide block and the fifth electric slide block are fixedly connected with the third connecting plate at the same time; the second motor is connected with the third connecting plate; the second motor is fixedly connected with the fourth flat gear through an output shaft; the fourth flat gear is meshed with the fifth flat gear; the fifth flat gear is fixedly connected with the sixth transmission shaft; the sixth transmission shaft is rotatably connected with the third connecting plate; the sixth transmission shaft is fixedly connected with the fan blades and the telescopic rod through the connecting disc; the third connecting plate is fixedly connected with the exhaust fan through a connecting block; the third connecting plate is fixedly connected with the collecting barrel; the third connecting plate is fixedly connected with the second air pipe, the third air pipe and the fourth air pipe at the same time; the exhaust fan is connected with the first air pipe; the first air pipe is fixedly connected with the second air pipe, the third air pipe and the fourth air pipe at the same time; the first air pipe is fixedly connected with the collecting barrel through a short connecting pipe; the second air pipe is fixedly connected with the fifth air pipe; a plurality of groups of fifth air pipes are arranged below the second air pipe, the third air pipe and the fourth air pipe; the telescopic rod is fixedly connected with the rubber ball body; the second rubber ball of the telescopic rod is provided with a plurality of groups in an annular array on the connecting disc of the sixth transmission shaft and the telescopic rod.

Optionally, the material supplementing and trimming mechanism comprises a fourth electric push rod, a fourth connecting plate, an electric fan, a bevel edge plastic frame, an elastic foam body, a sixth electric slide block, a fifth electric push rod, a sixth electric push rod, a collecting frame, a raw material frame, a material conveying pipe, a paint spray head, a thickness processing plate and a bevel edge paint cleaner; the fourth electric push rod is fixedly connected with the fixed frame; the fourth electric push rod is fixedly connected with the fourth connecting plate; a group of fourth electric push rods is arranged at each of four corners of the fourth connecting plate; the fourth connecting plate is fixedly connected with the bevel edge plastic frame through a connecting block; the fourth connecting plate is in sliding connection with the sixth electric sliding block; the fourth connecting plate is fixedly connected with the fifth electric push rod and the sixth electric push rod through a connecting block; the side surface of the fourth connecting plate is provided with an electric fan; the electric fan is fixedly connected with the fixed frame through the L-shaped connecting block; three groups of electric fans are sequentially arranged on the L-shaped connecting block fixedly connected with the fixing frame from left to right; the bevel edge plastic frame is fixedly connected with the elastic foam body; the sixth electric slide block is fixedly connected with the raw material frame; the sixth electric slide block is fixedly connected with a connecting pipe between the second coating sprayer of the material conveying pipe; the sixth electric slide block is fixedly connected with the thickness processing plate; the sixth electric sliding block is fixedly connected with the bevel edge coating cleaner through a connecting block; the fifth electric push rod and the sixth electric push rod are fixedly connected with the collecting frame at the same time; the material frame is connected with the material conveying pipe; the material conveying pipe is fixedly connected with the coating nozzle through a connecting pipe; the coating shower nozzle is provided with nine groups from left to right at the conveying pipeline, and every group all carries out the rigid coupling through the connecting pipe.

Optionally, the four sides of the inner surface of the shaping frame correspond exactly to the coating locations of the simulated micro-reaction plate.

Optionally, a filter is arranged between the two connecting pipes above the collecting bucket and between the first air pipe and the pipe close to one side of the exhaust fan.

Optionally, the outer surface of the rubber sphere is provided with a plurality of sets of smaller rubber cylinders.

Alternatively, the area of the inner surface of the elastic foam body is just equal to the area of the outer surface of the shaping frame.

The invention has the following advantages:

1. in order to overcome the defect that after the existing device coats the micro reaction plate, because the micro reaction plate is still in a primary processing state, the surface of the micro reaction plate usually has some uneven positions, when the coating position has the uneven positions, larger marks on the surface of the coated micro reaction plate can flow out, so that the later welding is influenced, and the reaction plate is more likely to be completely damaged.

2. The invention designs a conveying and plasticity mechanism, a coating edge cleaning mechanism and a material supplementing and trimming mechanism: before the start of work, the silicon carbide micro-reaction plate coated with the materials is manually placed on a conveying and plastic mechanism, then a controller starts a device, the silicon carbide micro-reaction plate coated with the materials is fixed to a certain extent through the conveying and plastic mechanism, the coating part is subjected to plastic property, namely the coating part is ensured to conform to a qualified shape, then the conveying and plastic mechanism and the coating edge cleaning mechanism work together to drive the silicon carbide micro-reaction plate to move towards the direction close to the coating edge cleaning mechanism until the silicon carbide micro-reaction plate moves to a specified position, then the coating edge cleaning mechanism is used for cleaning the edge of the coating part of the silicon carbide micro-reaction plate to a certain extent, namely the flowing or overflowing coating is cleaned, and after the cleaning is finished, the conveying and plastic mechanism and the coating edge cleaning mechanism work together to convey the silicon carbide micro-reaction plate to the specified position of a material supplementing and trimming mechanism, and then repairing the lost raw materials by a material supplementing and trimming mechanism, namely ensuring that the thickness of the coating meets the standard, simultaneously carrying out certain treatment on the upper edge of the coating in the material supplementing process to ensure that the coating part is relatively flat after being cured, so that the later welding work cannot be influenced, after the coating is basically cured, conveying the silicon carbide micro-reaction plate back to the original position by the joint work of a conveying and plastic mechanism and a coating edge cleaning mechanism, and then manually taking the silicon carbide micro-reaction plate away.

3. The invention realizes the cleaning work of the coating flowing out of the coating part of the silicon carbide micro-reaction plate coated with the coating, and can also recover the lost coating after cleaning, and can ensure that the thickness of the coating meets the standard after recovering.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic perspective view of a portion of the present invention;

FIG. 3 is a perspective view of the transfer and plasticity mechanism of the invention;

FIG. 4 is a schematic perspective view of the paint edge cleaning mechanism of the present invention;

FIG. 5 is a schematic view of a first partial body configuration of the coating edge cleaning mechanism of the present invention;

FIG. 6 is a schematic view of a second partial body configuration of the coating edge cleaning mechanism of the present invention;

FIG. 7 is a perspective view of a third portion of the paint edge-cleaning mechanism of the present invention;

FIG. 8 is a perspective view of a fourth portion of the paint edge-cleaning mechanism of the present invention;

FIG. 9 is a schematic view of a fifth partial body of the coating edge cleaning mechanism of the present invention;

FIG. 10 is a schematic perspective view of the replenishing and trimming mechanism of the present invention;

FIG. 11 is a schematic view of a first partial body configuration of the replenishing and trimming mechanism of the present invention;

FIG. 12 is a schematic view of a second partial body structure of the replenishing and trimming mechanism of the present invention.

The meaning of the reference symbols in the figures: 1: mount, 2: controller, 3: conveying and plastic mechanism, 4: coating edge cleaning mechanism, 5: feed and trim mechanism, 301: placing plate, 302: simulated micro reaction plate, 303: shaping frame, 304: u-shaped link, 305: first electric putter, 306: second electric putter, 307: first electric slider, 308: first lead screw, 309: first drive wheel, 3010: second drive wheel, 3011: third drive wheel, 3012: second lead screw, 3013: fourth transmission wheel, 3014: first drive shaft, 3015: first bevel gear, 3016: second bevel gear, 3017: second drive shaft, 3018: fifth transmission wheel, 3019: sixth drive wheel, 3020: third propeller shaft, 3021: first spur gear, 3022: first polish rod, 3023: second polish rod, 401: first connecting plate, 402: second electric slider, 403: third electric slider, 404: first motor, 405: second spur gear, 406: fourth transmission shaft, 407: third spur gear, 408: fifth propeller shaft, 409: sliding sleeve, 4010: fan blade, 4011: third electric putter, 4012: expansion plate, 4013: spliced pole, 4014: second connecting plate, 4015: fourth electric slider, 4016: fifth electric slider, 4017: second motor, 4018: fourth flat gear, 4019: fifth flat gear, 4020: sixth propeller shaft, 4021: third connecting plate, 4022: exhaust fan, 4023: collection bucket, 4024: first air duct, 4025: second air duct, 4026: third ductwork, 4027: fourth air duct, 4028: fifth air duct, 4029: spring telescopic rod, 4030: rubber ball, 501: fourth electric putter, 502: fourth connecting plate, 503: electric fan, 504: bevel plastic frame, 505: elastic foam, 506: sixth electric slider, 507: fifth electric putter, 508: sixth electric putter, 509: collection frame, 5010: raw material frame, 5011: conveying pipe, 5012: coating nozzle, 5013: thickness treated plate, 5014: bevel edge paint cleaner.

Detailed Description

Reference herein to an embodiment means that a particular feature, structure, or characteristic described in connection with the embodiment can be included in at least one embodiment of the invention. The appearances of the phrase in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. It is explicitly and implicitly understood by one skilled in the art that the embodiments described herein can be combined with other embodiments.

Example 1

A processing device before low-temperature welding of a silicon carbide micro-reaction plate is shown in figures 1-12 and comprises a fixed frame 1, a controller 2, a conveying and plastic mechanism 3, a coating edge cleaning mechanism 4 and a material supplementing and trimming mechanism 5; the fixed frame 1 is connected with the controller 2; the fixed frame 1 is connected with a conveying and plastic mechanism 3; the fixed frame 1 is connected with a coating edge cleaning mechanism 4; the fixed frame 1 is connected with a material supplementing and trimming mechanism 5; the conveying and plasticity mechanism 3 is connected with a coating edge cleaning mechanism 4.

The working principle is as follows: before the start of the operation, the silicon carbide micro-reaction plate coated with the materials is manually placed on a conveying and plastic mechanism 3, then a controller 2 is used for starting the device, the silicon carbide micro-reaction plate coated with the materials is fixed to a certain extent through the conveying and plastic mechanism 3, the coating part is subjected to plasticity, namely, the coating part is ensured to conform to a qualified shape, then the conveying and plastic mechanism 3 and the coating edge cleaning mechanism 4 work together to drive the silicon carbide micro-reaction plate to move towards the direction close to the coating edge cleaning mechanism 4 until the silicon carbide micro-reaction plate moves to a specified position, then the coating edge cleaning mechanism 4 is used for cleaning the edge of the coating part of the silicon carbide micro-reaction plate to a certain extent, namely, the flowing or overflowing coating is cleaned, and after the cleaning is finished, the conveying and plastic mechanism 3 and the coating edge cleaning mechanism 4 work together to convey the silicon carbide micro-reaction plate to the specified position of a material supplementing and trimming mechanism 5, then, repairing the lost raw materials by a material supplementing and trimming mechanism 5, namely ensuring that the thickness of the coating meets the standard, and simultaneously carrying out certain treatment on the upper edge of the coating in the material supplementing process to ensure that the coating part is relatively flat after being cured, so that the later welding work cannot be influenced, after the coating is basically cured, conveying the silicon carbide micro-reaction plate back to the original position by the joint work of a conveying and plastic mechanism 3 and a coating edge cleaning mechanism 4, and then manually taking the silicon carbide micro-reaction plate away; the invention realizes the cleaning work of the coating flowing out of the coating part of the silicon carbide micro-reaction plate coated with the coating, and can also recover the lost coating after cleaning, and can ensure that the thickness of the coating meets the standard after recovering.

The conveying and plasticizing mechanism 3 comprises a placing plate 301, a simulated micro-reaction plate 302, a shaping frame 303, a U-shaped connecting frame 304, a first electric push rod 305, a second electric push rod 306, a first electric slide block 307, a first screw rod 308, a first transmission wheel 309, a second transmission wheel 3010, a third transmission wheel 3011, a second screw rod 3012, a fourth transmission wheel 3013, a first transmission shaft 3014, a first bevel gear 3015, a second bevel gear 3016, a second transmission shaft 3017, a fifth transmission wheel 3018, a sixth transmission wheel 3019, a third transmission shaft 3020, a first flat gear 3021, a first polished rod 3022 and a second polished rod 3023; a simulated micro-reaction plate 302 is arranged above the placing plate 301; the placing plate 301 is screwed with the first lead screw 308 and the second lead screw 3012 at the same time; the placing plate 301 is simultaneously connected with the first and second polish rods 3022 and 3023 in a sliding manner; a shaping frame 303 is arranged above the simulated micro-reaction plate 302; the shaping frame 303 is connected with a U-shaped connecting frame 304; the U-shaped connecting frame 304 is fixedly connected with the first electric push rod 305 and the second electric push rod 306 at the same time; the first electric push rod 305 and the second electric push rod 306 are fixedly connected with the first electric slide block 307 at the same time; the first electric slide block 307 is connected with the fixed frame 1 in a sliding way; the first lead screw 308 is fixedly connected with the first driving wheel 309 and the second driving wheel 3010 through a connecting rod; the first screw rod 308 is rotatably connected with the fixed frame 1 through a connecting rod; the outer ring surface of the first driving wheel 309 is in transmission connection with a fourth driving wheel 3013 through a belt; the outer ring surface of the second driving wheel 3010 is in transmission connection with a third driving wheel 3011 through a belt; the third driving wheel 3011 is fixedly connected with the second lead screw 3012 through a connecting rod; the second lead screw 3012 is rotatably connected with the fixed mount 1 through a connecting rod; the fourth driving wheel 3013 is fixedly connected to the first driving shaft 3014; the first transmission shaft 3014 is rotatably connected with the fixed frame 1 through a connecting block; the first transmission shaft 3014 is fixedly connected to the first bevel gear 3015; the first bevel gear 3015 meshes with the second bevel gear 3016; the second bevel gear 3016 is fixedly connected to the second transmission shaft 3017; the second transmission shaft 3017 is rotatably connected with the fixed frame 1; the second transmission shaft 3017 is fixedly connected with the fifth transmission wheel 3018; the outer ring surface of the fifth driving wheel 3018 is in transmission connection with the sixth driving wheel 3019 through a belt; the sixth driving wheel 3019 is fixedly connected with the third transmission shaft 3020; the third transmission shaft 3020 is rotatably connected to the fixed frame 1; the third transmission shaft 3020 is fixedly connected to the first flat gear 3021; the first flat gear 3021 is connected to the paint edge cleaning mechanism 4; the first and second polished rods 3022 and 3023 are simultaneously connected to the fixed frame 1.

Before the operation, the coated simulation micro-reaction plate 302 is placed above the placing plate 301, that is, placed in a placing frame arranged on the placing plate 301, then the first electric sliding block 307 starts to operate, the shaping frame 303 to the first electric sliding block 307 is driven to move downwards until the bottom surface of the shaping frame 303 just contacts with the simulation micro-reaction plate 302, and the height of the shaping frame 303 is equal to the height of the coating to be coated, then the first electric push rod 305 and the second electric push rod 306 operate simultaneously, the U-shaped connecting frame 304 is driven to move towards the direction close to the first electric sliding block 307 until the U-shaped connecting frame 304 is completely separated from the shaping frame 303, then the first flat gear 3021 is driven to rotate by the coating edge cleaning mechanism 4, the first flat gear 3021 drives the sixth driving wheel 3019 by the third driving shaft 3020, the sixth driving wheel 3019 drives the fifth driving wheel 3018 to rotate, the fifth driving wheel 3018 drives the second driving shaft 3017 by the second driving shaft 3017, the second transmission shaft 3017 drives the second bevel gear 3016 to rotate, the second bevel gear 3016 drives the first transmission shaft 3014 through the first bevel gear 3015, the first transmission shaft 3014 drives the fourth transmission wheel 3013 to rotate, the fourth transmission wheel 3013 drives the first lead screw 308 through the first transmission wheel 309, the first lead screw 308 drives the second transmission wheel 3010 to rotate, the second transmission wheel 3010 drives the second lead screw 3012 through the third transmission wheel 3011, that is, the placing plate 301, the simulated micro-reaction plate 302 and the shaping frame 303 are driven to move to the designated position of the coating edge cleaning mechanism 4 through the joint work of the first lead screw 308 and the second lead screw 3012, then the coating edge cleaning mechanism 4 cleans the coating at one edge position, after the cleaning is finished, the coating edge cleaning mechanism 4 drives the first lead screw 308 and the second lead screw 3012 to drive the placing plate 301, the simulated micro-reaction plate 302 and the shaping frame 303 to move to the designated position of the feeding and trimming mechanism 5, then the coating is supplemented and trimmed by a supplementing and trimming mechanism 5, the coating is cured, and the coating is conveyed back to the original position by a first lead screw 308 and a second lead screw 3012 after the coating is cured; this mechanism accomplishes the transport and plastic working of the simulated micro reaction plate 302.

The paint edge cleaning mechanism 4 comprises a first connecting plate 401, a second electric slider 402, a third electric slider 403, a first motor 404, a second flat gear 405, a fourth transmission shaft 406, a third flat gear 407, a fifth transmission shaft 408, a sliding sleeve 409, fan blades 4010, a third electric push rod 4011, a telescopic plate 4012, a connecting column 4013, a second connecting plate 4014, a fourth electric slider 4015, a fifth electric slider 4016, a second motor 4017, a fourth flat gear 4018, a fifth flat gear 4019, a sixth transmission shaft 4020, a third connecting plate 4021, an exhaust fan 4022, a collecting bucket 4023, a first air pipe 4024, a second air pipe 4025, a third air pipe 4026, a fourth air pipe 4027, a fifth air pipe 4028, a telescopic rod and a rubber sphere 4030; the first connecting plate 401 is fixedly connected with the second electric slider 402 and the third electric slider 403 at the same time; the first connecting plate 401 is connected with a first motor 404; the first connecting plate 401 is rotatably connected with the fourth transmission shaft 406 through an L-shaped connecting block; the first connecting plate 401 is rotatably connected with the fifth transmission shaft 408; the first connecting plate 401 is fixedly connected with a third electric push rod 4011; the first connecting plate 401 is in contact with the connecting column 4013; the second electric slide block 402 and the third electric slide block 403 are simultaneously connected with the fixed frame 1 in a sliding way; the first motor 404 is fixedly connected with the fourth transmission shaft 406 through an output shaft; the fourth transmission shaft 406 is fixedly connected with the second flat gear 405; the second spur gear 405 meshes with the first spur gear 3021; a third flat gear 407 is arranged on the side surface of the second flat gear 405; the third flat gear 407 is fixedly connected with the sliding sleeve 409; the sliding sleeve 409 is connected with the fifth transmission shaft 408; the sliding sleeve 409 is connected with a third electric push rod 4011 through a connecting block; the fifth transmission shaft 408 is fixedly connected with the expansion plate 4012; the expansion plate 4012 is fixedly connected with the connecting column 4013; the connecting column 4013 is fixedly connected with a second connecting plate 4014; the second connecting plate 4014 is fixedly connected with the fourth electric slide block 4015 and the fifth electric slide block 4016; the fourth electric slide block 4015 and the fifth electric slide block 4016 are fixedly connected with the third connecting plate 4021 at the same time; the second motor 4017 is connected with the third connecting plate 4021; the second motor 4017 is fixedly connected with a fourth flat gear 4018 through an output shaft; the fourth flat gear 4018 meshes with the fifth flat gear 4019; the fifth flat gear 4019 is fixedly connected with a sixth transmission shaft 4020; the sixth transmission shaft 4020 is rotatably connected to the third connecting plate 4021; the sixth transmission shaft 4020 is fixedly connected with the fan blades 4010 and the telescopic rod through a connecting disc; the third connecting plate 4021 is fixedly connected with the exhaust fan 4022 through a connecting block; the third connecting plate 4021 is fixedly connected with the collecting barrel 4023; the third connecting plate 4021 is fixedly connected with the second air duct 4025, the third air duct 4026 and the fourth air duct 4027 at the same time; the exhaust fan 4022 is connected with the first air pipe 4024; the first air duct 4024 is fixedly connected with the second air duct 4025, the third air duct 4026 and the fourth air duct 4027 at the same time; the first air pipe 4024 is fixedly connected with the collecting barrel 4023 through a short connecting pipe; the second air duct 4025 is fixedly connected with the fifth air duct 4028; a plurality of groups of fifth air pipes 4028 are arranged below the second air pipes 4025, the third air pipes 4026 and the fourth air pipes 4027; the telescopic rod is fixedly connected with the rubber sphere 4030; the second rubber sphere 4030 of the telescopic rod is provided with a plurality of groups in an annular array on the sixth transmission shaft 4020 and the connecting disc of the telescopic rod.

After the simulated micro-reaction plate 302 is placed on the placing plate 301, the first motor 404 starts to work, the first motor 404 drives the fourth transmission shaft 406 to rotate through the output shaft, the fourth transmission shaft 406 drives the second flat gear 405 to rotate, the second flat gear 405 drives the first flat gear 3021 to rotate, then the transmission work of the transmission and plastic mechanism 3 is completed through the rotation of the first flat gear 3021 until the simulated micro-reaction plate 302 moves to the central position of the coating material, which is just under the central point of the fifth transmission shaft 408, then the second electric slider 402 and the third electric slider 403 work together to drive the first connecting plate 401 and the components above and below the first connecting plate to move downwards until the suction port of the fifth air duct 4028 is very close to the simulated micro-reaction plate 302 but not in contact with each other, in this process, since the rubber sphere 4030 is squeezed by the simulated micro-reaction plate 302, then the rubber sphere 4030 squeezes the spring telescopic rod 4029, so that the resilience of the telescopic spring rods 4029 acts on the rubber sphere 4030 in a reaction manner, that is, the resilience acts on the upper surface of the simulated micro-reaction plate 302 through the rubber sphere 4030, after the second flat gear 405 moves downwards, the second flat gear automatically disengages from the first flat gear 3021, that is, the first lead screw 308 and the second lead screw 3012 stop working, then the third electric push rod 4011 drives the sliding sleeve 409 to move downwards, that is, the third flat gear 407 moves downwards until the third flat gear 407 engages with the second flat gear 405, then the third flat gear 407 rotates through the second flat gear 405, the third flat gear 407 drives the fifth transmission shaft 408 through the sliding sleeve 409, the fifth transmission shaft 408 drives the telescopic plate 4012 to rotate, the connecting column 4013 is driven by the telescopic plate 4012 to rotate, so that the connecting column 4013 moves in the square track frame of the first connecting plate 401, that the connecting column 4013 drives the second connecting plate 4014 and the lower component thereof to move in the square track frame of the first connecting plate 401, the square motion track just corresponds to the periphery of the coating part of the simulated micro reaction plate 302, meanwhile, the second motor 4017 starts to work, the second motor 4017 drives the fourth flat gear 4018 to rotate through the output shaft, the fourth flat gear 4018 drives the fifth flat gear 4019 to rotate, the fifth flat gear 4019 drives the sixth transmission shaft 4020 to rotate, the sixth transmission shaft 4020 drives the fan blade 4010 and the spring telescopic rod 4029 which are fixedly connected with the sixth transmission shaft through the connecting disc to rotate, namely, the rubber ball 4030 is driven to rotate, so that the rubber ball 4030 can crush coating overflowing from the edge of the coating part of the simulated micro reaction plate 302 and coating flowing out automatically while rotating, the overflowing larger coating is separated and refined, and the crushed coating is blown away through the rotation of the fan blade 4010 to be dispersed to the edge of the connecting disc, thereby preventing the coating from being adhered to the spring telescopic rod 4029 to influence the work, then the exhaust fan 4022 starts to work, the scattered smashed paint is sucked up through the joint work of the multiple groups of fifth air pipes 4028, then the smashed paint is conveyed into the first air pipe 4024 through the second air pipe 4025, the third air pipe 4026 and the fourth air pipe 4027, then the paint is blocked by the two groups of filters in the first air pipe 4024 and drops into the collection barrel 4023 through a connecting pipe between the collection barrel 4023 and the first air pipe 4024, when the connecting column 4013 moves to a corner position, the fourth electric slide 4015 and the fifth electric slide 4016 work together to drive the fan blade 4010, the second motor 4017 and the rubber ball 4010 to move in a direction far away from the connecting column 4013 until the molding frame 303 does not block the rotation of the fan blade 4010 and the second air pipe 4025 to the rubber ball 4030, and when the treatment of the paint overflowing and flowing out from the edge of the paint position on the simulated micro-reaction plate 302 is completed, the second electric slide 402 and the third electric slide 403403 work simultaneously, the first link plate 401 and all components above and below it are brought back to the original position again, i.e. the second spur gear 405 is again in mesh with the first spur gear 3021, then the first lead screw 308 and the second lead screw 3012 drive the simulated micro-reaction plate 302 to move towards the direction close to the material supplementing and trimming mechanism 5 until the simulated micro-reaction plate moves to the specified position of the material supplementing and trimming mechanism 5, then the second electric slider 402 and the third electric slider 403 drive the first connecting plate 401 and all the components up and down, until the second flat gear 405 is not engaged with the first flat gear 3021 again, after the feeding and trimming mechanism 5 finishes processing the simulated micro-reaction plate 302, the second electric slide 402 and the third electric slide 403 drive the first connecting plate 401 and all the components above and below the first connecting plate to move downwards again, so that the second flat gear 405 is meshed with the first flat gear 3021 again, then the first motor 404 reverses and returns the processed simulated micro reaction plate 302 back to the original position; this mechanism accomplishes the task of handling the edge coating that simulates the spillage and run-off of the micro reaction plate 302.

The material supplementing and trimming mechanism 5 comprises a fourth electric push rod 501, a fourth connecting plate 502, an electric fan 503, a bevel edge plastic frame 504, an elastic foam body 505, a sixth electric slide block 506, a fifth electric push rod 507, a sixth electric push rod 508, a collecting frame 509, a raw material frame 5010, a material conveying pipe 5011, a paint spray head 5012, a thickness processing plate 5013 and a bevel edge paint cleaner 5014; the fourth electric push rod 501 is fixedly connected with the fixed frame 1; the fourth electric push rod 501 is fixedly connected with the fourth connecting plate 502; a group of fourth electric push rods 501 is arranged at four corners of the fourth connecting plate 502; the fourth connecting plate 502 is fixedly connected with the bevel edge plastic frame 504 through a connecting block; the fourth connecting plate 502 is slidably connected to the sixth electric slider 506; the fourth connecting plate 502 is fixedly connected with the fifth electric push rod 507 and the sixth electric push rod 508 through a connecting block; the side of the fourth connecting plate 502 is provided with an electric fan 503; the electric fan 503 is fixedly connected with the fixed frame 1 through an L-shaped connecting block; three groups of electric fans 503 are sequentially arranged on the L-shaped connecting block fixedly connected with the fixed frame 1 from left to right; the bevel edge plastic frame 504 is fixedly connected with the elastic foam body 505; the sixth electric sliding block 506 is fixedly connected with the raw material frame 5010; the connecting pipe between the sixth electric sliding block 506 and the second paint sprayer 5012 of the material conveying pipe 5011 is fixedly connected; the sixth electric slider 506 is fixedly connected with the thickness processing plate 5013; the sixth electric sliding block 506 is fixedly connected with the bevel edge paint cleaner 5014 through a connecting block; the fifth electric push rod 507 and the sixth electric push rod 508 are fixedly connected with the collecting frame 509; the raw material frame 5010 is connected with a material conveying pipe 5011; the material conveying pipe 5011 is fixedly connected with the paint sprayer 5012 through a connecting pipe; the paint nozzles 5012 are provided with nine groups from left to right of the feed delivery pipe 5011, and each group is fixedly connected through a connecting pipe.

When the simulated micro-reaction plate 302 is conveyed to the position right below the elastic foam body 505, namely four sides of the inner surface of the elastic foam body 505 are positioned right above the sides of the outer surface of the shaping frame 303, then the four groups of fourth electric push rods 501 start to work, the four groups of fourth electric push rods 501 drive the fourth connecting plate 502 and the connected components to move downwards until the inner surface of the elastic foam body 505 is contacted with the outer surface of the shaping frame 303, and the elastic foam body 505 also generates certain extrusion on the upper surface of the simulated micro-reaction plate 302, so that the elastic foam body 505 can seal some uneven positions of the edges of the coating on the upper surface of the simulated micro-reaction plate 302 through self deformation, namely the coating is prevented from flowing out again, and at the moment, the upper surface of the elastic foam body 505 is just flush with the upper surface of the shaping frame 303, and the lowest position of the thickness processing plate 5013 is just flush with the upper surface of the shaping frame 303, then, the sixth electric slider 506 is operated, the sixth electric slider 506 moves the member connected thereto in the direction approaching the collecting frame 509, and the pressure pump is provided inside the material frame 5010, and when the paint sprayer 5012 moves to the side of the elastic foam body 505 approaching the sixth electric slider 506, the pressure pump inside the material frame 5010 is operated, the material inside the material frame 5010 is transported to the plural sets of paint sprayers 5012 through the material transporting pipes 5011 by the pressure pump and sprayed over the position where the dummy micro reaction plate 302 has been coated by the paint sprayers 5012, and the paint higher than the height of the elastic foam body 505 after being sprayed is pushed in the direction approaching the collecting frame 509 by the thickness processing plate 5013, which is pushed to the inclined plates on both sides of the inclined plastic frame 504, and the surplus paint remaining on the inclined plates on both sides of the inclined plastic frame 504 is cleaned by the inclined paint cleaner 5014, during cleaning, the fifth electric push rod 507 and the sixth electric push rod 508 work together to drive the collecting frame 509 to move towards the direction close to the elastic foam body 505 until the collecting frame 509 moves to contact with the bevel plastic frame 504, after excess paint is pushed to the edge of the bevel plastic frame 504 by the thickness management plate 5013 and bevel paint cleaner 5014, the paint automatically falls by gravity into the collection frame 509, after cleaning, the three sets of electric fans 503 work simultaneously to accelerate the curing speed of the coating on the simulated micro-reaction plate 302, and when the coating is basically cured, all the components of the repairing and trimming mechanism 5 are restored to the original positions, then, the second electric slider 402 and the third electric slider 403 drive the first connecting plate 401 and all the components above and below the first connecting plate downward again, so that the second flat gear 405 is engaged with the first flat gear 3021 again, then the first motor 404 reverses and returns the processed simulated micro reaction plate 302 back to the original position; this mechanism completes the work of feeding and trimming the coating on the simulated microplate 302.

Wherein the four sides of the inner surface of the shaping frame 303 correspond exactly to the positions of the coatings on the simulated micro reaction plate 302.

So that the shaping frame 303 can plasticize the coating material that simulates the micro reaction plate 302.

Wherein, a filter is arranged between two connecting pipes above the collecting barrel 4023 and between the first air pipe 4024 and the pipe close to one side of the exhaust fan 4022.

Paint sucked up by the fifth air pipe 4028 is effectively blocked and falls into the collection barrel 4023.

Wherein, the outer surface of rubber sphere 4030 is provided with a plurality of groups of smaller rubber cylinders.

The paint which flows out and overflows and is difficult to suck up is effectively thinned, so that the paint can be sucked up.

Wherein the area of the inner surface of the elastic foam body 505 is just equal to the area of the outer surface of the shaping frame 303.

It is just possible to prevent the paint from flowing out again from the irregularities of the bottom.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (8)

1. The utility model provides a processing apparatus to carborundum micro-reaction board before low temperature welding, including mount and controller, characterized by: the device also comprises a conveying and plasticity mechanism, a coating edge cleaning mechanism and a material supplementing and trimming mechanism; the fixed frame is connected with the controller; the fixed frame is connected with the conveying and plastic mechanism; the fixing frame is connected with the coating edge cleaning mechanism; the fixing frame is connected with the material supplementing and trimming mechanism; the conveying and plasticity mechanism is connected with the coating edge cleaning mechanism.

2. The apparatus of claim 1, wherein the means for transporting and plasticizing comprises a support plate, a dummy plate, a shaping frame, a U-shaped connecting frame, a first electric push rod, a second electric push rod, a first electric slide block, a first screw rod, a first transmission wheel, a second transmission wheel, a third transmission wheel, a second screw rod, a fourth transmission wheel, a first transmission shaft, a first bevel gear, a second transmission shaft, a fifth transmission wheel, a sixth transmission wheel, a third transmission shaft, a first flat gear, a first polish rod, and a second polish rod; a simulated micro-reaction plate is placed above the placing plate; the placing plate is screwed with the first screw rod and the second screw rod simultaneously; the placing plate is simultaneously in sliding connection with the first polished rod and the second polished rod; a shaping frame is arranged above the simulated micro-reaction plate; the shaping frame is connected with the U-shaped connecting frame; the U-shaped connecting frame is fixedly connected with the first electric push rod and the second electric push rod simultaneously; the first electric push rod and the second electric push rod are fixedly connected with the first electric slide block at the same time; the first electric sliding block is in sliding connection with the fixed frame; the first screw rod is fixedly connected with the first driving wheel and the second driving wheel through the connecting rod; the first screw rod is rotatably connected with the fixed frame through a connecting rod; the outer ring surface of the first driving wheel is in transmission connection with a fourth driving wheel through a belt; the outer ring surface of the second driving wheel is in transmission connection with a third driving wheel through a belt; the third driving wheel is fixedly connected with the second screw rod through a connecting rod; the second screw rod is rotatably connected with the fixed frame through a connecting rod; the fourth driving wheel is fixedly connected with the first driving shaft; the first transmission shaft is rotatably connected with the fixed frame through a connecting block; the first transmission shaft is fixedly connected with the first bevel gear; the first bevel gear is meshed with the second bevel gear; the second bevel gear is fixedly connected with the second transmission shaft; the second transmission shaft is rotatably connected with the fixed frame; the second transmission shaft is fixedly connected with a fifth transmission wheel; the outer ring surface of the fifth driving wheel is in transmission connection with the sixth driving wheel through a belt; the sixth driving wheel is fixedly connected with the third transmission shaft; the third transmission shaft is rotatably connected with the fixed frame; the third transmission shaft is fixedly connected with the first flat gear; the first flat gear is connected with the coating edge cleaning mechanism; the first polish rod and the second polish rod are connected with the fixing frame at the same time.

3. The apparatus of claim 2, wherein the coating edge cleaning mechanism comprises a first connection plate, a second electric slider, a third electric slider, a first motor, a second flat gear, a fourth transmission shaft, a third flat gear, a fifth transmission shaft, a sliding sleeve, a fan blade, a third electric push rod, a telescopic plate, a connection post, a second connection plate, a fourth electric slider, a fifth electric slider, a second motor, a fourth flat gear, a fifth flat gear, a sixth transmission shaft, a third connection plate, an exhaust fan, a collection barrel, a first air pipe, a second air pipe, a third air pipe, a fourth air pipe, a fifth air pipe, a telescopic rod, and a rubber ball; the first connecting plate is fixedly connected with the second electric sliding block and the third electric sliding block; the first connecting plate is connected with a first motor; the first connecting plate is rotatably connected with the fourth transmission shaft through an L-shaped connecting block; the first connecting plate is rotatably connected with the fifth transmission shaft; the first connecting plate is fixedly connected with the third electric push rod; the first connecting plate is in contact with the connecting column; the second electric sliding block and the third electric sliding block are simultaneously in sliding connection with the fixed frame; the first motor is fixedly connected with the fourth transmission shaft through an output shaft; the fourth transmission shaft is fixedly connected with the second flat gear; the second flat gear is meshed with the first flat gear; a third flat gear is arranged on the side surface of the second flat gear; the third horizontal gear is fixedly connected with the sliding sleeve; the sliding sleeve is connected with the fifth transmission shaft; the sliding sleeve is connected with the third electric push rod through a connecting block; the fifth transmission shaft is fixedly connected with the expansion plate; the expansion plate is fixedly connected with the connecting column; the connecting column is fixedly connected with the second connecting plate; the second connecting plate is fixedly connected with the fourth electric sliding block and the fifth electric sliding block; the fourth electric slide block and the fifth electric slide block are fixedly connected with the third connecting plate at the same time; the second motor is connected with the third connecting plate; the second motor is fixedly connected with the fourth flat gear through an output shaft; the fourth flat gear is meshed with the fifth flat gear; the fifth flat gear is fixedly connected with the sixth transmission shaft; the sixth transmission shaft is rotatably connected with the third connecting plate; the sixth transmission shaft is fixedly connected with the fan blades and the telescopic rod through the connecting disc; the third connecting plate is fixedly connected with the exhaust fan through a connecting block; the third connecting plate is fixedly connected with the collecting barrel; the third connecting plate is fixedly connected with the second air pipe, the third air pipe and the fourth air pipe at the same time; the exhaust fan is connected with the first air pipe; the first air pipe is fixedly connected with the second air pipe, the third air pipe and the fourth air pipe at the same time; the first air pipe is fixedly connected with the collecting barrel through a short connecting pipe; the second air pipe is fixedly connected with the fifth air pipe; a plurality of groups of fifth air pipes are arranged below the second air pipe, the third air pipe and the fourth air pipe; the telescopic rod is fixedly connected with the rubber ball body; the second rubber ball of the telescopic rod is provided with a plurality of groups in an annular array on the connecting disc of the sixth transmission shaft and the telescopic rod.

4. The apparatus as set forth in claim 3, wherein the feeding and trimming mechanism comprises a fourth electric push rod, a fourth connecting plate, an electric fan, a bevel plastic frame, an elastic foam, a sixth electric slider, a fifth electric push rod, a sixth electric push rod, a collecting frame, a raw material frame, a material delivery pipe, a paint nozzle, a thickness processing plate, and a bevel paint cleaner; the fourth electric push rod is fixedly connected with the fixed frame; the fourth electric push rod is fixedly connected with the fourth connecting plate; a group of fourth electric push rods is arranged at each of four corners of the fourth connecting plate; the fourth connecting plate is fixedly connected with the bevel edge plastic frame through a connecting block; the fourth connecting plate is in sliding connection with the sixth electric sliding block; the fourth connecting plate is fixedly connected with the fifth electric push rod and the sixth electric push rod through a connecting block; the side surface of the fourth connecting plate is provided with an electric fan; the electric fan is fixedly connected with the fixed frame through the L-shaped connecting block; three groups of electric fans are sequentially arranged on the L-shaped connecting block fixedly connected with the fixing frame from left to right; the bevel edge plastic frame is fixedly connected with the elastic foam body; the sixth electric slide block is fixedly connected with the raw material frame; the sixth electric slide block is fixedly connected with a connecting pipe between the second coating sprayer of the material conveying pipe; the sixth electric slide block is fixedly connected with the thickness processing plate; the sixth electric sliding block is fixedly connected with the bevel edge coating cleaner through a connecting block; the fifth electric push rod and the sixth electric push rod are fixedly connected with the collecting frame at the same time; the material frame is connected with the material conveying pipe; the material conveying pipe is fixedly connected with the coating nozzle through a connecting pipe; the coating shower nozzle is provided with nine groups from left to right at the conveying pipeline, and every group all carries out the rigid coupling through the connecting pipe.

5. The apparatus of claim 4, wherein the four sides of the inner surface of the shaping frame correspond to the positions of the coating on the simulated micro-reaction plate.

6. The apparatus as set forth in claim 5, wherein a filter is disposed between the first air pipe and the pipe between the two connection pipes above the collection vessel and on the side close to the suction fan.

7. The apparatus as set forth in claim 6, wherein the outer surface of the rubber sphere is provided with a plurality of smaller rubber cylinders.

8. The apparatus of claim 7, wherein the area of the inner surface of the resilient foam body is substantially equal to the area of the outer surface of the shaping frame.

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