CN112072149B - Fuel cell processing equipment - Google Patents

Abstract

The invention belongs to the technical field of battery processing, and relates to fuel battery processing equipment. Including the dust removal case, still include fixed establishment, go up unloading mechanism, transport mechanism and dust removal mechanism, be equipped with feed end, discharge end, style of calligraphy hole and circular port on the dust removal case, the discharge end of going up unloading mechanism corresponds with transport mechanism's work end, the material receiving end of going up unloading mechanism corresponds with the discharge end on the processing equipment, transport mechanism corresponds with the feed end on the dust removal case, dust removal mechanism sets up on the dust removal case, the work end of dust removal mechanism corresponds with the work end of dust removal case to solve current hydrogen fuel cell production and processing equipment and can not clear away the dust that produces, consequently can cause the dust to fly in the air, cause the pollution to operational environment, perhaps adhere to the surface at the battery, influence the subsequent processing of battery and be the purpose.

Description

Fuel cell processing equipment

Technical Field

The invention relates to the technical field of battery processing, in particular to fuel battery processing equipment.

Background

A battery refers to a device that converts chemical energy into electrical energy in a portion of the space of a cup, tank, or other container or composite container that holds an electrolyte solution and metal electrodes to produce an electrical current. Has a positive electrode and a negative electrode. With the advancement of technology, batteries generally refer to small devices that can generate electrical energy. Such as a solar cell. The performance parameters of the battery are mainly electromotive force, capacity, specific energy and resistance. The battery is used as an energy source, can obtain current which has stable voltage and current, is stably supplied for a long time and is slightly influenced by the outside, has simple structure, convenient carrying, simple and easy charging and discharging operation, is not influenced by the outside climate and temperature, has stable and reliable performance, and plays a great role in various aspects of modern social life.

A fuel cell is a device that continuously inputs fuel to perform chemical reaction and directly converts chemical energy into electric energy, and the fuel is usually methanol, ethanol, pure hydrogen, natural gas, gasoline, and the like. Among the ion exchange membrane fuel cells, the cell using hydrogen and oxygen as fuel is the most common, and the fuel is reacted with oxygen by a special catalyst to generate carbon dioxide and water. The process has the advantages of cheap fuel, no danger in chemical reaction, much lower carbon dioxide emission than the common method, no harm to the generated product water and low pollution, and is expected to be the best energy source for other power sources nowadays. At present, computer and automobile enterprises are beginning to develop fuel cells to replace traditional battery power sources, and the application of fuel cells in the automobile field has become a necessary trend of energy development.

Therefore, the production and processing of the fuel cell are indispensable, while the hydrogen fuel cell can generate a certain amount of dust in the process of production and processing, and the existing hydrogen fuel cell production and processing equipment can not remove the generated dust, so that the dust can be caused to fly in the air to pollute the working environment or adhere to the surface of the cell to influence the subsequent processing of the cell.

Disclosure of Invention

The invention aims to provide fuel cell processing equipment to solve the technical problems in the background technology.

The invention provides a fuel cell processing device, which comprises a dust removal box and is characterized by also comprising a fixing mechanism, a feeding and discharging mechanism, a conveying mechanism and a dust removal mechanism, the dust removing box, the feeding and discharging mechanism, the conveying mechanism and the dust removing mechanism are all arranged on the fixing mechanism, the dust removing box is provided with a feeding end, a discharging end, a linear hole, a circular hole and an arc-shaped groove, the arc-shaped groove is arranged on the dust removing box and is positioned on the inner side wall of one side of the circular hole, the linear hole is positioned at one side of the dust removing box, the circular hole is positioned above the dust removing box, the discharge end of the feeding and discharging mechanism corresponds to the working end of the conveying mechanism, the material receiving end of the feeding and discharging mechanism corresponds to the material discharging end on the dust removal box, the conveying mechanism corresponds to the material feeding end on the dust removal box, the dust removal mechanism is arranged on the dust removal box, and the working end of the dust removal mechanism corresponds to the working end of the dust removal box.

Further, fixed establishment includes workstation and two sets of driver part, be equipped with four style of calligraphy grooves on the workstation, four a style of calligraphy groove symmetry sets up the both ends on the workstation, and is two sets of the driver part symmetry sets up the both ends at the workstation, and is two sets of the work end of driver part all sets up at a style of calligraphy inslot.

Further, every group drive part all includes first motor, master gear, rack, two auxiliary gears and two lead screws, first motor sets up the one side at the workstation, master gear, rack and two auxiliary gears all set up on the lateral wall of workstation and are located one side of first motor, master gear and two auxiliary gears all set up in the rack, two the auxiliary gear centers on the master gear setting, auxiliary gear and master gear meshing, the output and the master gear connection of first motor, two the lead screw respectively with assist gear connection, the lead screw sets up at a style of calligraphy inslot.

Further, the feeding and discharging mechanism comprises a feeding movable plate, a first cylinder, a second cylinder, a vertical limiting plate, a vertical pushing plate, a material channel plate, a discharging movable plate, a forked connecting rod, four transverse pushing plates and five transverse limiting plates, the feeding movable plate is arranged on the working end of the lead screw and positioned on one side of the feeding end of the dust removal box, the first cylinder, the second cylinder, the transverse limiting plates, the vertical limiting plate, the forked connecting rod, the four transverse pushing plates, the vertical pushing plate and the material channel plate are all arranged on the feeding movable plate, the five transverse limiting plates are sequentially and transversely arranged above the feeding movable plate at intervals, the vertical limiting plate is arranged on one side of the transverse limiting plates, the four transverse pushing plates are respectively arranged between every two adjacent transverse limiting plates, the four transverse pushing plates are all connected with one end of the forked connecting rod, the output end of the first cylinder is connected with the other end of the forked connecting rod, the vertical push plate and the material channel plate are arranged between the transverse limiting plate and the vertical limiting plate, and the output end of the second cylinder is connected with the vertical push plate.

Further, the transportation mechanism comprises a second motor, a first fixed hollow column, a rotating plate, a second fixed hollow column, a first electric push rod, a bearing plate, a connecting column, a double-rod bidirectional cylinder, two connecting rods and two clamps, wherein the first fixed hollow column is arranged on the workbench, the second motor is arranged in the first fixed hollow column, the output end of the second motor is connected with the rotating plate, the second fixed hollow column is arranged above the rotating plate, the first electric push rod is arranged in the second fixed hollow column, the output end of the first electric push rod is connected with the bearing plate, the connecting column is arranged above the bearing plate, the double-rod bidirectional cylinder is arranged on the connecting column and positioned at one side of the material channel plate, one end of each of the two connecting rods is respectively arranged at the output end of the double-rod bidirectional cylinder, the two clamps are respectively arranged at the other end of the connecting rods, the clamp corresponds to the material channel plate during operation.

Furthermore, the dust removal mechanism comprises a first dust removal part and a second dust removal part, the first dust removal part is arranged on the outer side wall of the dust removal box, and the second dust removal part is arranged above the dust removal box.

Further, the first dust removing part comprises an air blower, a third motor, a motor base, a gear plate, a movable gear, a gear plate, a rectangular dust removing plate, a movable connecting column and dustproof cloth, the air blower is arranged on one side of the dust removing box, the working end of the air blower is connected in the dust removing box, the motor base is arranged on the outer side wall of the dust removing box and is positioned on one side of the linear hole, one end of the movable connecting column is connected with the rectangular dust removing plate, the other end of the movable connecting column is connected with the motor base, the dustproof cloth is arranged in the linear hole and is connected with the movable connecting column, the third motor is arranged on the motor base, the output end of the third motor penetrates through the gear plate and is connected with the movable gear, the gear plate is arranged on the outer side wall of the dust removing box and is positioned on one side of the linear hole, the movable gear is arranged on the gear plate, the movable gear is meshed with the gear plate, the rectangle dust removal board sets up on the inside wall of dust removal case.

Further, the second dust removing component comprises a fixed plate, a dustproof plate, a movable tooth block, a fourth motor, a rotating gear, a bottom connecting plate, a second electric push rod, a dustproof box, a dust removing movable plate, a dust collector, two rack fixed plates, two semicircular racks and three tooth block connecting columns, the fixed plate is arranged above the dust removing box, the dustproof plate is arranged above a circular hole, the two semicircular racks, the rotating gear, the two rack fixed plates and the movable tooth block are all arranged in the circular hole, the rack fixed plates are connected with the fixed plates, the rotating gear is arranged between the two semicircular racks, the movable tooth block is arranged between the dust removing box and the semicircular racks, one end of the tooth block connecting column is arranged on the movable tooth block, the other end of the tooth block connecting column is arranged in an arc-shaped groove, the fourth motor is arranged on the fixed plate, the output end of the fourth motor is connected with the rotary gear, the bottom connecting plate is arranged at the bottom of the movable tooth block, the second electric push rod and the dust-proof box are arranged below the bottom connecting plate, the second electric push rod is arranged in the dust-proof box, the output end of the second electric push rod is connected with the dust removal movable plate, the dust removal movable plate is arranged in the dust-proof box, and the dust collector is arranged below the dust removal movable plate.

Compared with the prior art, the invention has the beneficial effects that:

the fuel cell processing equipment comprises a dust removal box, a fixing mechanism, a feeding and discharging mechanism, a conveying mechanism and a dust removal mechanism, wherein a feeding end, a discharging end, a linear hole and a circular hole are formed in the dust removal box, the discharging end of the feeding and discharging mechanism corresponds to the working end of the conveying mechanism, the receiving end of the feeding and discharging mechanism corresponds to the discharging end of the processing equipment, the conveying mechanism corresponds to the feeding end of the dust removal box, the dust removal mechanism is arranged on the dust removal box, and the working end of the dust removal mechanism corresponds to the working end of the dust removal box, so that the problem that the existing hydrogen fuel cell production processing equipment cannot remove generated dust is solved, the dust can fly in the air, the working environment is polluted, or the dust is attached to the surface of a cell, and the subsequent processing of the cell is influenced.

Secondly, the driving parts are additionally arranged, the driving parts comprise a first motor, a main gear, a rack, two auxiliary gears and two screw rods, the first motor is arranged on one side of the workbench, the main gear, the rack and the two auxiliary gears are arranged on the side wall of the workbench and located on one side of the first motor, the main gear and the two auxiliary gears are arranged in the rack, the two auxiliary gears are arranged around the main gear, the auxiliary gears are meshed with the main gear, the output end of the first motor is connected with the main gear, the two screw rods are respectively connected with the auxiliary gears, and the screw rods are arranged in the linear grooves. Through setting up the lead screw in the straight type groove of workstation, set up first motor in one side of workstation, can make the drive unit drive unloading mechanism on the workstation, can be in order to save area space, also can make the separation operation that unloading mechanism can be fine.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

FIG. 1 is a top view of the present invention;

FIG. 2 is a partial sectional view of the present invention;

FIG. 3 is a schematic perspective view of the present invention;

FIG. 4 is a first partial schematic view of the present invention;

FIG. 5 is an enlarged view at B in FIG. 3;

FIG. 6 is a second partial schematic view of the present invention;

FIG. 7 is a schematic view of a dust removing mechanism according to the present invention;

fig. 8 is a partial structural schematic view of the dust removing mechanism of the present invention.

Reference numerals: the dust removing box 1, the feeding end 101, the discharging end 102, the straight-line-shaped hole 103, the circular hole 104, the arc-shaped groove 105, the fixing mechanism 2, the workbench 201, the straight-line-shaped groove 2011, the driving part 202, the first motor 2021, the main gear 2022, the rack 2023, the auxiliary gear 2024, the screw 2025, the loading and unloading mechanism 3, the loading and unloading moving plate 302, the first cylinder 303, the second cylinder 304, the transverse limiting plate 305, the vertical limiting plate 306, the transverse pushing plate 307, the vertical pushing plate 308, the material way plate 309, the forked connecting rod 310, the unloading moving plate 311, the transportation mechanism 4, the second motor 401, the first fixed hollow column 402, the rotating plate, the second fixed hollow column 404, the first electric push rod 405, the loading plate 406, the connecting column 407, the double-rod bidirectional cylinder 408, the connecting rod 409, the clamp 410, the dust removing mechanism 5, the first dust removing part 501, the blower 5011, the third motor 5012, the motor base 5013, the gear plate 5014, the driving part 407, the connecting rod 403, the double-rod-type double-rod type double-rod type double-rod type double-type double-rod type double-rod type double-rod-double-type double-type double-rod-double-rod-double-rod-double-, The dust collector comprises a movable gear 5015, a tooth block plate 5016, a rectangular dust removing plate 5017, a movable connecting column 5018, dustproof cloth 5019, a second dust removing component 502, a fixing plate 5021, a dustproof plate 5022, a semicircular rack 5023, a fourth motor 5024, a rotating gear 5025, a rack fixing plate 5026, a movable tooth block 5027, a tooth block connecting column 50213, a bottom connecting plate 5028, a second electric push rod 5029, a dust prevention box 50210, a dust removing moving plate 50211 and a dust collector 50212.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are some, but not all embodiments of the present invention.

The components of embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention.

All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1 to 8, an embodiment of the present invention provides a fuel cell processing apparatus, including a dust box 1, and further including a fixing mechanism 2, a loading and unloading mechanism 3, a transporting mechanism 4, and a dust removing mechanism 5, where the dust box 1, the loading and unloading mechanism 3, the transporting mechanism 4, and the dust removing mechanism 5 are all disposed on the fixing mechanism 2, the dust box 1 is provided with a feeding end 101, a discharging end 102, a linear hole 103, a circular hole 104, and an arc-shaped slot 105, the linear hole 103 is located on one side of the dust box 1, the circular hole 104 is located above the dust box 1, the arc-shaped slot 105 is disposed on the dust box 1 and located on an inner side wall of one side of the circular hole 104, the discharging end of the loading and unloading mechanism 3 corresponds to a working end of the transporting mechanism 4, the receiving end of the loading and unloading mechanism 3 corresponds to the discharging end 102 on the dust box, the transporting mechanism 4 corresponds to the feeding end 101 on the dust box 1, dust removal mechanism 5 sets up on dust removal case 1, the work end of dust removal mechanism 5 corresponds with the work end of dust removal case 1, fixed establishment 2 is used for placing dust removal case 1, goes up unloading mechanism 3, transport mechanism 4 and dust removal mechanism 5, feed mechanism is used for carrying out material loading and unloading to fuel cell, dust removal mechanism 5 is used for cleaing away the dust on the fuel cell, transport mechanism 4 is used for transporting the fuel cell of treating processing to the dust removal case 1 on going up unloading mechanism 3.

Fixed establishment 2 includes workstation 201 and two sets of drive part 202, be equipped with four style of calligraphy grooves 2011 on workstation 201, four a style of calligraphy groove 2011 symmetry sets up the both ends on workstation 201, and is two sets of drive part 202 symmetry sets up the both ends at workstation 201, and is two sets of drive part 202's work end all sets up in a style of calligraphy groove 2011, two drive part 202's structure and principle are unanimous, drive part 202 is used for the drive to go up unloading mechanism 3.

Each set of the driving components 202 comprises a first motor 2021, a main gear 2022, a rack 2023, two auxiliary gears 2024 and two lead screws 2025, the first motor 2021 is disposed at one side of the workbench 201, the main gear 2022, the rack 2023 and the two auxiliary gears 2024 are disposed at one side of the first motor 2021 on the sidewall of the workbench 201, said main gear 2022 and two subsidiary gears 2024 are each disposed within the rack 2023, the two subsidiary gears 2024 being disposed around the main gear 2022, the auxiliary gear 2024 is engaged with the main gear 2022, the output end of the first motor 2021 is connected with the main gear 2022, two lead screws 2025 are respectively connected with the auxiliary gear 2024, the lead screws 2025 are arranged in the linear groove 2011, the main gear 2022 drives the rack 2023 to operate by driving of the first motor 2021, the rack 2023 drives the two auxiliary gears 2024 to rotate, and the two lead screws 2025 are driven to operate by the auxiliary gears 2024.

The feeding and discharging mechanism 3 comprises a feeding moving plate 302, a first air cylinder 303, a second air cylinder 304, a vertical limiting plate 306, a vertical pushing plate 308, a material channel plate 309, a discharging moving plate 311, a forked connecting rod 310, four horizontal pushing plates 307 and five horizontal limiting plates 305, wherein the feeding moving plate 302 is arranged at the working end of a screw 2025 and is positioned at one side of the feeding end 101 of the dust removing box 1, the first air cylinder 303, the second air cylinder 304, the horizontal limiting plates 305, the vertical limiting plate 306, the forked connecting rod 310, the four horizontal pushing plates 307, the vertical pushing plates 308 and the material channel plate 309 are all arranged on the feeding moving plate 302, the five horizontal limiting plates 305 are sequentially and horizontally arranged above the feeding moving plate 302 at intervals, the vertical limiting plate 306 is arranged at one side of the horizontal limiting plates 305, and the four horizontal pushing plates 307 are respectively arranged between every two adjacent horizontal limiting plates 305, the four horizontal push plates 307 are all connected with one end of a forked connecting rod 310, the output end of the first cylinder 303 is connected with the other end of the forked connecting rod 310, the vertical push plate 308 and the material channel plate 309 are both arranged between the horizontal limiting plate 305 and the vertical limiting plate 306, the output end of the second cylinder 304 is connected with the vertical push plate 308, the feeding moving plate 302 can drive the first cylinder 303, the second cylinder 304, the vertical limiting plate 306, the vertical push plate 308, the material channel plate 309, the discharging moving plate 311, the forked connecting rod 310, the four horizontal push plates 307 and five horizontal limiting plates 305 to move through the movement of the working end of a lead screw 2025, the first cylinder 303 is used for driving the horizontal push plates 307 to move, the horizontal push plates 307 are used for pushing the fuel cell to move horizontally, the second cylinder 304 is used for driving the vertical push plates 308 to move, the vertical pushing plate 308 is used for pushing the fuel cell to vertically move, the horizontal limiting plate 305 and the vertical limiting plate 306 are used for limiting the moving track of the fuel cell, and the material channel plate 309 is used for corresponding to the transportation mechanism 4.

The transportation mechanism 4 comprises a second motor 401, a first fixed hollow column 402, a rotating plate 403, a second fixed hollow column 404, a first electric push rod 405, a bearing plate 406, a connecting column 407, a double-rod bidirectional cylinder 408, two connecting rods 409 and two clamps 410, wherein the first fixed hollow column 402 is arranged on the workbench 201, the second motor 401 is arranged in the first fixed hollow column 402, the output end of the second motor 401 is connected with the rotating plate 403, the second fixed hollow column 404 is arranged above the rotating plate 403, the first electric push rod 405 is arranged in the second fixed hollow column 404, the output end of the first electric push rod 405 is connected with the bearing plate 406, the connecting column 407 is arranged above the bearing plate 406, the double-rod bidirectional cylinder 408 is arranged on the connecting column 407 and positioned at one side of the material channel plate 309, one ends of the two connecting rods 409 are respectively arranged at the output end of the double-rod bidirectional cylinder 408, the two clamps 410 are respectively arranged at the other end of the connecting rod 409, the clamps 410 correspond to the material channel plate 309 during operation, the first fixed hollow column 402 is used for placing the second motor 401, the second motor 401 is used for driving the rotating plate 403 to rotate, the second fixed hollow column 404 is used for placing the first electric push rod 405, the first electric push rod 405 is used for driving the bearing plate 406, the bearing plate 406 is used for placing the connecting column 407, the connecting column 407 is used for placing the double-rod bidirectional cylinder 408, the double-rod bidirectional cylinder 408 is used for driving the connecting rod 409, and the connecting rod 409 can drive the clamps 410 to operate through the driving of the double-rod bidirectional cylinder 408.

Dust removal mechanism 5 includes first dust removal part 501 and second dust removal part 502, first dust removal part 501 sets up on the lateral wall of dust removal case 1, second dust removal part 502 sets up the top at dust removal case 1, first dust removal part 501 mainly used removes dust to the inside of dust removal case 1, second dust removal part 502 mainly used removes dust to fuel cell.

The first dust removing part 501 includes a blower 5011, a third motor 5012, a motor base 5013, a gear plate 5014, a mobile gear 5015, a tooth plate 5016, a rectangular dust removing plate 5017, a mobile connection post 5018 and dustproof cloth 5019, the blower 5011 is disposed at one side of the dust removing box 1, the working end of the blower 5011 is connected in the dust removing box 1, the motor base 5013 is disposed on the outer side wall of the dust removing box 1 and located at one side of the straight type hole 103, one end of the mobile connection post 5018 is connected with the rectangular dust removing plate 5017, the other end of the mobile connection post 5018 is connected with the motor base 5013, the dustproof cloth 5019 is disposed in the straight type hole 103 and connected with the mobile connection post 5018, the third motor 5012 is disposed on the motor base 5013, the output end of the third motor 5012 penetrates through the gear plate 5014 to be connected with the mobile gear 5015, the tooth plate 5016 is disposed on the outer side wall of the dust removing box 1 and located at one side of the straight type hole 103, the moving gear 5015 is provided on the gear plate 5014, the moving gear 5015 is engaged with the tooth block plate 5016, the rectangular dust removing plate 5017 is provided on the inner side wall of the dust removing case 1, the moving gear 5015 provided on the gear plate 5014 can be moved on the block gear 5016 by the driving of the third motor 5012, the moving gear 5015 drives the third motor 5012 and the motor base 5013 to move when moving on the tooth block 5016, meanwhile, the movable connecting column 5018 can drive the rectangular dust removing plate 5017 to move synchronously, the dustproof cloth 5019 can ensure that the movable connecting column 5018 moves synchronously when moving vertically by being fixedly arranged in the straight-line-shaped hole 103, and the length of the dustproof cloth 5019 is much longer than that of the straight-line-shaped hole 103, therefore, when the movable connecting post 5018 moves, the lower end of the dust cloth 5019 is stretched to prevent the dust from leaking out of the linear hole 103, and the rectangular dust removing plate 5017 removes dust from the inner side wall of the dust box 1 during the movement.

The second dust removing part 502 includes a fixing plate 5021, a dust guard 5022, a moving tooth 5027, a tooth 502connecting column 50213, a fourth motor 5024, a rotary gear 5025, a bottom connecting plate 5028, a second electric push rod 5029, a dust-proof box 50210, a dust removing moving plate 50211, a dust collector 50212, two rack fixing plates 5026, two semicircular racks 5023 and three tooth connecting columns 50213, the fixing plate 5021 is disposed above the dust removing box 1, the dust guard 5022 is disposed above the circular hole 104, two semicircular racks 5023, a rotary gear 5025, two rack fixing plates 5026, a tooth connecting column 50213 and a moving tooth 5027 are all disposed in the circular hole 104, the rack fixing plate 5026 is connected with the fixing plate 5021, the rotary gear 5025 is disposed between two semicircular racks 5023, the moving tooth 5027 is disposed between the dust removing box 5021 and the semicircular rack connecting column 5023, one end of the tooth 50213 is disposed on the moving tooth 5027, the other end of the tooth block connecting column 50213 is arranged in the arc-shaped groove 105, the fourth motor 5024 is arranged on the fixing plate 5021, the output end of the fourth motor 5024 is connected with the rotating gear 5025, the bottom connecting plate 5028 is arranged at the bottom of the movable tooth block 5027, the second electric push rod 5029 and the dust-proof box 50210 are both arranged below the bottom connecting plate 5028, the second electric push rod 5029 is arranged in the dust-proof box 50210, the output end of the second electric push rod 5029 is connected with the dust-proof moving plate 50211, the dust-proof moving plate 50211 is arranged in the dust-proof box 50210, the dust collector 50212 is arranged below the dust-proof box 50211, the fixing plate 5021 is used for fixing the fourth moving plate 5024 and the rack fixing plate 5026, the dust-proof plate 5022 is used for preventing dust in the dust-proof box 1 from flowing out through the circular hole 502104, the rotating gear 5025 can be driven by the fourth motor 5024 to drive the semicircular rack 5023 to rotate, the semicircular rack 5023 is similar to a belt and can rotate along the outer ring of the rack fixing plate 5026, the semicircular rack 5023 can drive the movable tooth block 5027 to rotate in the circular hole 104 when rotating, the initial position of the movable tooth block 5027 is arranged on the two semicircular racks, the movable tooth block is fixed in the arc-shaped groove 105 through the tooth block connecting column 50213, the tooth block connecting column 50213 can move along the arc-shaped groove 105, the movable tooth block 5027 can be meshed with the next semicircular rack 5023 when moving to the junction of the next semicircular rack 5023, the movable tooth block 5027 can drive the bottom connecting plate 5028, the second electric push rod 5029, the dust-proof box 50210, the dust-proof movable plate 50211 is provided with the dust collector 50212 to move synchronously, the bottom 5028 is used for placing the second electric push rod 5029, the second electric push rod 5029 is used for driving the dust-proof movable plate 50211 to move vertically, the dust-proof box 50210 is used for preventing dust from entering the second electric push rod 5029, the dust collector 50212 is used for removing dust from the fuel cell.

The working principle is that the fuel cells are sequentially arranged in the interval of the transverse limiting plate 305, the main gear 2022 drives the rack 2023 and the auxiliary gear 2024 to rotate by the driving of the first motor 2021, the auxiliary gear 2024 drives the screw 2025 to move, the working end of the screw 2025 can move the feeding moving plate 302, when the material channel plate 309 moves to the position of the clamp 410, the material channel plate stops, the forked type connecting rod 310 is driven by the first cylinder 303 to drive the transverse push plate 307 to move, the transverse push plate 307 pushes the fuel cells into the material channel plate 309, the vertical push plate 308 pushes the fuel cells to the position of the clamp 410 from the material channel plate 309 by the driving of the second cylinder 304, the clamp 410 clamps the fuel cells by the driving of the double-rod bidirectional cylinder 408, the bearing plate 406 drives the connecting column 407 to move upwards by the driving of the first electric push rod 405, the rotating plate 403 is driven by the second motor 401 to drive the first electric push rod 405 to rotate, therefore, the fuel cell can be sent to the feeding end 101 of the dust removing box 1 by the clamp 410 and enters the dust removing box 1, the rotating gear 5025 can drive the semicircular racks 5023 to rotate under the driving of the fourth motor 5024, the semicircular racks 5023 can rotate along the outer ring of the rack fixing plate 5026, the semicircular racks 5023 can drive the movable toothed blocks 5027 to rotate in the circular holes 104 during rotation, the initial positions of the movable toothed blocks 5027 are arranged on the two semicircular racks, the toothed blocks 50213 are fixed in the arc-shaped groove 105 and move along the arc-shaped groove 105, so that the movable toothed blocks 5027 can be meshed with the next semicircular rack 5023 when moving to the connection position of the next semicircular rack 5023, the movable toothed blocks 5027 can drive the bottom connecting plate 5028, the second electric push rod 5029, the dust preventing box 50210, the dust removing movable plate 50211 is provided with the dust collector 50212 to move synchronously, therefore, the dust collector 50212 can collect dust on the top of the fuel cell in a large range, the second electric push rod 5029 can enable the dust collector 50212 to be closer to the fuel cell, so that the dust collector 50212 can better collect dust on the fuel cell, dust exists on the dust-proof and dust-removing box 1, the third motor 5012 can drive the moving gear 5015 to move on the toothed plate 5016, the motor base 5013 can drive the rectangular dust-removing plate 5017 to move upwards along the inner side wall of the dust-removing box 1 through the moving connecting column 5018 by the movement of the moving gear 5015, the rectangular dust-removing plate 5017 can completely remove the dust on the inner side wall of the dust-removing box 1, after the dust removal of the fuel cell is completed, a worker can move the fuel cell from the dust-removing box 1 to the blanking plate 311 through the discharging end 102 arranged on the dust-removing box 1, and drive the blanking plate 311 to transport the fuel cell to the next step through the lead screw 2025 arranged on one side of the discharging end 102 of the dust-removing box 1, the aim of solving the problems that the existing hydrogen fuel cell production and processing equipment can not clear the generated dust, so that the dust can fly in the air to pollute the working environment or be attached to the surface of the cell to influence the subsequent processing of the cell is fulfilled.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims (5)

1. The fuel cell processing equipment comprises a dust removing box (1) and is characterized by further comprising a fixing mechanism (2), a feeding and discharging mechanism (3), a conveying mechanism (4) and a dust removing mechanism (5), wherein the dust removing box (1), the feeding and discharging mechanism (3), the conveying mechanism (4) and the dust removing mechanism (5) are arranged on the fixing mechanism (2), a feeding end (101), a discharging end (102), a linear hole (103), a circular hole (104) and an arc-shaped groove (105) are formed in the dust removing box (1), the arc-shaped groove (105) is formed in the inner side wall of the dust removing box (1) and located on one side of the circular hole (104), the linear hole (103) is located on one side of the dust removing box (1), and the circular hole (104) is located above the dust removing box (1);

the receiving end of the feeding and discharging mechanism (3) corresponds to the discharging end (102) of the dust removal box (1), the discharging end of the feeding and discharging mechanism (3) corresponds to the position of a clamp (410) of the conveying mechanism (4), and when the feeding and discharging mechanism (3) pushes the fuel cell to the position of the clamp (410), the conveying mechanism (4) drives the clamp (410) to clamp the fuel cell and convey the fuel cell to the feeding end (101) of the dust removal box (1);

the dust removal mechanism (5) is arranged on the dust removal box (1); the dust removing mechanism (5) comprises a first dust removing part (501) and a second dust removing part (502), the first dust removing part (501) is arranged on the outer side wall of the dust removing box (1), and the second dust removing part (502) is arranged above the dust removing box (1);

the first dust removal part (501) comprises a blower (5011), a third motor (5012), a motor base (5013), a gear plate (5014), a mobile gear (5015), a tooth block plate (5016), a rectangular dust removal plate (5017), a mobile connection column (5018) and dustproof cloth (5019), wherein the blower (5011) is arranged on one side of the dust removal box (1), the working end of the blower (5011) is connected in the dust removal box (1), the motor base (5013) is arranged on the outer side wall of the dust removal box (1) and positioned on one side of a straight hole (103), one end of the mobile connection column (5018) is connected with the rectangular dust removal plate (5017), the other end of the mobile connection column (5018) is connected with the motor base (5013), the dustproof cloth (5019) is arranged in the straight hole (103) and connected with the mobile connection column (5018), the third motor (5012) is arranged on the motor base (5013), the output end of the third motor (5012) penetrates through a gear plate (5014) and is connected with a moving gear (5015), the gear plate (5016) is arranged on the outer side wall of the dust removal box (1) and located on one side of the straight-line-shaped hole (103), the moving gear (5015) is arranged on the gear plate (5014), the moving gear (5015) is meshed with the gear plate (5016), and the rectangular dust removal plate (5017) is arranged on the inner side wall of the dust removal box (1);

the second dust removal component (502) comprises a fixing plate (5021), a dust guard (5022), a movable toothed block (5027), a fourth motor (5024), a rotating gear (5025), a bottom connecting plate (5028), a second electric push rod (5029), a dust prevention box (50210), a dust removal moving plate (50211), a dust collector (50212), two rack fixing plates (5026), two semicircular racks (5023) and three toothed block connecting columns (50213), wherein the fixing plate (5021) is arranged above the dust removal box (1), the dust guard (5022) is arranged above the circular hole (104), the two semicircular racks (5023), the rotating gear (5025), the two rack fixing plates (5026) and the movable toothed block (5027) are arranged in the circular hole (104), the rack fixing plates (5026) are connected with the fixing plate (5021), the rotating gear (5025) is arranged between the two semicircular racks (5023), the movable tooth blocks (5027) are arranged between the dust removing box (1) and the semicircular racks (5023), one ends of the three tooth block connecting columns (50213) are symmetrically arranged on the movable tooth blocks (5027), the other ends of the three tooth block connecting columns (50213) are arranged in the arc-shaped groove (105), the fourth motor (5024) is arranged on the fixing plate (5021), the output end of the fourth motor (5024) is connected with the rotating gear (5025), the bottom connecting plate (5028) is arranged at the bottom of the movable tooth block (5027), the second electric push rod (5029) and the dust box (50210) are both arranged below the bottom connecting plate (5028), the second electric push rod (5029) is arranged in the dust-proof box (50210), the output end of the second electric push rod (5029) is connected with the dust-removing moving plate (50211), the dust removal moving plate (50211) is arranged in the dust prevention box (50210), and the dust collector (50212) is arranged below the dust removal moving plate (50211).

2. The fuel cell processing equipment according to claim 1, wherein the fixing mechanism (2) comprises a workbench (201) and two sets of driving components (202), four straight grooves (2011) are arranged on the workbench (201), the four straight grooves (2011) are symmetrically arranged at two ends of the workbench (201), the two sets of driving components (202) are symmetrically arranged at two ends of the workbench (201), and working ends of the two sets of driving components (202) are arranged in the straight grooves (2011).

3. A fuel cell process apparatus according to claim 2, wherein each set of the driving parts (202) comprises a first motor (2021), a main gear (2022), a rack (2023), two subsidiary gears (2024) and two lead screws (2025), the first motor (2021) is disposed at one side of the table (201), the main gear (2022), the rack (2023) and the two subsidiary gears (2024) are disposed on the sidewall of the table (201) at one side of the first motor (2021), the main gear (2022) and the two subsidiary gears (2024) are disposed within the rack (2023), the two subsidiary gears (2024) are disposed around the main gear (2022), the subsidiary gears (2024) are engaged with the main gear (2022), the output end of the first motor (2021) is connected with the main gear (2022), the two subsidiary gears (2025) are respectively connected with the subsidiary gears (2024), the screw rod (2025) is arranged in the straight-line-shaped groove (2011).

4. The fuel cell processing equipment according to claim 1, wherein the feeding and discharging mechanism (3) comprises a feeding moving plate (302), a first cylinder (303), a second cylinder (304), a vertical limiting plate (306), a vertical pushing plate (308), a material channel plate (309), a discharging moving plate (311), a forked connecting rod (310), four horizontal pushing plates (307) and five horizontal limiting plates (305), the feeding moving plate (302) is arranged on the working end of a screw rod (2025) and is positioned on one side of the feeding end (101) of the dust removing box (1), the first cylinder (303), the second cylinder (304), the horizontal limiting plates (305), the vertical limiting plate (306), the forked connecting rod (310), the four horizontal pushing plates (307), the vertical pushing plate (308) and the material channel plate (309) are all arranged on the feeding moving plate (302), and the five horizontal limiting plates (305) are sequentially and horizontally arranged above the feeding moving plate (302), vertical limiting plate (306) sets up in one side of horizontal limiting plate (305), four horizontal push pedal (307) set up respectively between per two adjacent horizontal limiting plate (305), four horizontal push pedal (307) all are connected with the one end of branching type connecting rod (310), the output of first cylinder (303) is connected with the other end of branching type connecting rod (310), vertical push pedal (308) and material way board (309) all set up between horizontal limiting plate (305) and vertical limiting plate (306), the output and the vertical push pedal (308) of second cylinder (304) are connected.

5. The fuel cell processing apparatus according to claim 4, wherein the transport mechanism (4) comprises a second motor (401), a first fixed hollow column (402), a rotating plate (403), a second fixed hollow column (404), a first electric push rod (405), a carrying plate (406), a connecting column (407), a two-rod bidirectional cylinder (408), two connecting rods (409), and two clamps (410), the first fixed hollow column (402) is disposed on the worktable (201), the second motor (401) is disposed within the first fixed hollow column (402), an output end of the second motor (401) is connected with the rotating plate (403), the second fixed hollow column (404) is disposed above the rotating plate (403), the first electric push rod (405) is disposed within the second fixed hollow column (404), an output end of the first electric push rod (405) is connected with the carrying plate (406), the utility model discloses a material loading device, including spliced pole (407) and connecting rod (409), two-way cylinder (408) set up on spliced pole (407) and lie in one side of material way board (309), two the one end of connecting rod (409) sets up respectively on the output of two-way cylinder (408), two anchor clamps (410) set up respectively on the other end of connecting rod (409), anchor clamps (410) correspond with material way board (309) when the operation.

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