CN112536385A - Automatic mounting and flattening process for air conditioner radiating fins - Google Patents

Abstract

The invention relates to the technical field of air-conditioning radiating fins, in particular to an automatic fin mounting and flattening process for an air-conditioning radiating fin, which comprises the following steps: step 1, automatically arranging the radiating fins; step 2, clamping and placing the radiating fin into a radiating fin plate frame; step 3, automatically clamping and fixing the radiating fin in the radiating fin plate frame; step 4, automatically flattening the radiating fins; step 5, rotating the rotating mechanism for a certain angle; and step 6, automatic blanking and stacking of the radiating fin plate frame provided with the radiating fins, the process design is ingenious, the connection among the working procedures is smooth, the automation degree is high, the radiating fins can be automatically installed and flattened by matching among the working procedures, most of manpower can be replaced, the efficiency is improved, and the obvious economic value is achieved.

Description

Automatic mounting and flattening process for air conditioner radiating fins

Technical Field

The invention relates to the technical field of air-conditioning radiating fins, in particular to an automatic fin mounting and flattening process for an air-conditioning radiating fin.

Background

The air-conditioning radiating fin is a device for radiating heat of an easily-generated electronic element in an electric appliance, and is made of aluminum alloy, brass or bronze into a plate shape, a sheet shape, a plurality of sheet shapes and the like. Generally, a layer of heat-conducting silicone grease is coated on the contact surface of an electronic component and a heat sink when the heat sink is in use, so that heat emitted by the component is more effectively conducted to the heat sink and then dissipated to the ambient air through the heat sink.

The existing air-conditioning radiating fin is shown in attached figures 8 and 9, the production of the air-conditioning radiating fin on the market at present mainly depends on manual work, the process comprises the following steps of firstly, assembling and tabletting the radiating fin 10 one by one, wherein the assembling is to install the radiating fin 10 in a groove of a radiating fin plate frame 9 one by one and fill the groove; then the radiating fin is clamped tightly by the bolt 93, and then the radiating fin 10 is flattened by using a beating tool; and finally, placing the air conditioner radiating fins which are assembled and flattened on a material rack for standby.

In the prior art, the steps are manually completed, so that the efficiency is low, the cost is high, and therefore an automatic mounting and flattening process for the air-conditioning radiating fins is urgently needed.

Disclosure of Invention

The invention aims to provide an automatic mounting and flattening process for an air conditioner radiating fin, which aims to solve the technical problems in the background technology.

The invention provides an automatic mounting and flattening process for air-conditioning radiating fins, which comprises the following steps:

step 1, automatically arranging the radiating fins: the method comprises the steps that a processing table, a material arranging device, a conveying device, a feeding device, a fixing and clamping device, a flattening device, a moving device and a discharging and stacking device are arranged, when the radiating fins need to be installed, the radiating fins are firstly placed on a conveying mechanism of the material arranging device to be conveyed, and the radiating fins are arranged through a material separating plate;

step 2, clamping and placing the cooling fin into a cooling fin plate frame: then, the cooling fins are conveyed to the blanking plate to slide to the storage seat through the operation of the conveying mechanism, the feeding cylinder operates to drive the feeding air claw to move downwards to clamp the cooling fins on the storage seat, then the moving cylinder operates to drive the sliding block on the telescopic end of the moving cylinder to move on the sliding rail, the feeding cylinder and the feeding air claw are driven to move, the cooling fins clamped by the feeding air claw are driven to move, when the cooling fins move to the position right above a cooling fin plate frame on the conveying device, the feeding cylinder operates again to drive the cooling fins clamped by the feeding air claw to move downwards, and the cooling fins are placed in the cooling fin plate frame;

step 3, automatically clamping and fixing the radiating fin in the radiating fin plate frame: then, when the radiating fin plate frame is filled with radiating fins, the conveying device conveys the radiating fin plate frame filled with the radiating fins to be opposite to the fixed clamping device, the two pushing electric cylinders work to drive the pushing plates to move and push the radiating fin plate frame to the clamping table, then the four electric push rods work to lift the transverse plate, the two clamping electric cylinders and the two clamping plates to proper positions, then the two clamping electric cylinders work to drive the two clamping plates to move towards the radiating fin plate frame and move the moving plate on the radiating fin plate frame to clamp the radiating fins in the radiating fin plate frame, so that the pins on the partition block move downwards to fix the moving plate in the radiating fin plate frame, and the radiating fins in the radiating fin plate frame are automatically clamped;

step 4, automatically flattening the radiating fins: then, a flattening electric cylinder of the flattening device works to drive a flattening plate to move downwards to flatten the cooling fins in the cooling fin plate frame on the clamping table;

and 5, rotating the rotating mechanism by a certain angle: after the radiating fins are flattened, the flattening support plates, the flattening plates and the two flattening electric cylinders are driven to rotate by a certain angle through the working of the rotating mechanism, so that the subsequent blanking is facilitated;

step 6, automatically blanking and stacking the radiating fin plate frame provided with the radiating fins: then the mobile device work drives the unloading backup pad that the device was piled up to the unloading, the lead screw slip table, unloading electricity jar and unloading gas clamp move to pressing from both sides directly over the tight platform, then unloading electricity jar work drives unloading gas clamp downstream, carry out the centre gripping to the fin sheet frame that presss from both sides on the tight platform, the mobile device works once more and moves the fin sheet frame of unloading gas clamp centre gripping to piling up the car top, it rises to suitable position to pile up the blanking machine, unloading electricity jar work once more, the fin sheet frame downstream that drives unloading gas clamp centre gripping, it can on the bearing end of piling up the blanking machine to place, along with the increase of fin sheet frame, it slowly descends to pile up the blanking machine, the fin sheet frame that will be equipped with the fin is placed and.

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

firstly, the invention automatically mounts and flattens the radiating fins and automatically stacks the radiating fins by the mutual matching operation among the material arranging device, the conveying device, the feeding device, the fixing and clamping device, the flattening device, the moving device and the blanking and stacking device, thereby improving the whole processing efficiency.

Secondly, when the cooling fins need to be installed, the cooling fins are firstly placed on the transmission mechanism for transmission, the cooling fins are arranged through the arranged material separating plates, the cooling fins are conveyed to the material discharging plates through the transmission mechanism to slide onto the storage seat, the cooling fins are buffered through the arranged springs and the buffer plates, the cooling fins are prevented from directly impacting the storage seat to cause abrasion to the cooling fins when sliding down, and the storage seat can also be protected.

Thirdly, when the conveying device conveys the radiating fin plate frame filled with the radiating fins to be opposite to the fixed clamping device, the two pushing electric cylinders work to drive the pushing plate to move and push the radiating fin plate frame to the clamping table, then the four electric push rods work to lift the transverse plate, the two clamping electric cylinders and the two clamping plates to proper positions, and then the two clamping electric cylinders work to drive the two clamping plates to move towards the radiating fin plate frame and move the moving plate on the radiating fin plate frame to clamp the radiating fins in the radiating fin plate frame, so that the pins on the separating blocks move downwards to fix the moving plate in the radiating fin plate frame, and the radiating fins in the radiating fin plate frame are automatically clamped.

Fourthly, when the fixed clamping device clamps the radiating fins in the radiating fin plate frame, the flattening electric cylinders work to drive the flattening plate to move downwards, the radiating fins in the radiating fin plate frame on the clamping table are flattened, and after flattening is finished, the flattening support plate, the flattening plate and the two flattening electric cylinders are driven to rotate for a certain angle through the work of the rotating mechanism, so that subsequent blanking is facilitated.

Fifthly, when the flattening device finishes flattening the radiating fin plate frame provided with the radiating fins, the blanking support plate, the screw rod sliding table, the blanking electric cylinder and the blanking air clamp are driven to move right above the clamping table through the operation of the moving device, then the blanking electric cylinder operates to drive the blanking air clamp to move downwards, carry out the centre gripping to pressing from both sides the fin sheet frame on the tight bench, the heat dissipation sheet frame that mobile device worked once more with unloading gas clamp centre gripping moves to piling up the car top, it rises to suitable position to pile up the blanking machine, unloading electricity jar works once more, drive the heat dissipation sheet frame downstream of unloading gas clamp centre gripping, place the bearing that piles up the blanking machine hold up can, along with the increase of fin sheet frame, it slowly descends to pile up the blanking machine, the heat dissipation sheet frame that will be equipped with the fin place pile up on the car can, need not artifical transport, the efficiency is improved, and can not cause the damage to the heat dissipation sheet frame.

Sixth, the process design of the invention is ingenious, the connection between the processes is smooth, the automation degree is high, the automatic arrangement of the radiating fins can be realized, the radiating plates are moved below the assembling component, the radiating fins are clamped and placed in the radiating fin plate frame, the radiating fins are automatically clamped and fixed in the radiating fin plate frame, the rotating mechanism rotates for a certain angle, and the radiating fin plate frame provided with the radiating fins is automatically blanked and stacked, the automatic mounting and flattening of the radiating fins can be realized through the matching between the processes, most of labor can be replaced, the efficiency is improved, and the process has obvious economic value.

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 first perspective view of the present invention;

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

FIG. 3 is a partial perspective view of the first embodiment of the present invention;

FIG. 4 is a partial perspective view of the second embodiment of the present invention;

fig. 5 is a schematic perspective view of a heat sink sheet frame according to the present invention;

FIG. 6 is a schematic perspective view of a blanking and stacking apparatus according to the present invention;

FIG. 7 is an enlarged view taken at A in FIG. 6;

FIG. 8 is an assembled view of the heat sink of the present invention;

FIG. 9 is a partial view of the assembly and disassembly of the heat sink assembly of the present invention;

FIG. 10 is a process flow diagram of the present invention.

Reference numerals:

the processing table 1, the material arranging device 2, the material arranging frame seat 21, the transmission mechanism 22, the blanking plate 23, the storage seat 24, the buffer plate 25, the spring 26, the material separating plate 27, the feeding device 3, the supporting frame plate 30, the moving cylinder 31, the slide rail 32, the slide block 33, the feeding cylinder 34, the feeding air claw 35, the fixed clamping device 4, the supporting seat 41, the pushing plate 42, the clamping table 43, the base 44, the transverse plate 45, the pushing electric cylinder 46, the clamping electric cylinder 47, the clamping plate 48, the electric push rod 49, the flattening device 5, the rotating mechanism 51, the flattening supporting plate 52, the flattening plate 53, the flattening electric cylinder 54, the moving device 6, the rectangular frame 61, the rack 62, the gear 63, the motor base 64, the driving motor 65, the rectangular slide way hole 66, the rectangular slide way 67, the blanking stacking device 7, the blanking supporting plate 71, the screw rod sliding table 72, the blanking electric cylinder 73, the blanking air clamp 74, the stacking vehicle 75, the loading seat 76, the cooling device comprises a conveying device 8, a cooling fin plate frame 9, a moving plate 91, a separating block 92, a plug 93 and a cooling fin 10.

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 10, an embodiment of the present invention provides an automatic mounting and flattening process for air conditioner cooling fins, including the following steps:

step 1, automatically arranging the radiating fins: the method comprises the steps that a processing table 1, a material arranging device 2, a conveying device 8, a feeding device 3, a fixing and clamping device 4, a flattening device 5, a moving device 6 and a discharging and stacking device 7 are arranged, when the radiating fins 10 need to be loaded, the radiating fins 10 are firstly placed on a conveying mechanism 22 to be conveyed, and the radiating fins 10 are arranged through a material separating plate 27;

step 2, clamping and placing the cooling fin into a cooling fin plate frame: then, the heat radiating fins 10 are conveyed to the blanking plate 23 to slide to the storage seat 24 through the operation of the conveying mechanism 22, the feeding air cylinder 34 works to drive the feeding air claw 35 to move downwards to clamp the heat radiating fins 10 on the storage seat 24, then the moving air cylinder 31 works to drive the sliding block 33 on the telescopic end of the moving air cylinder 31 to move on the sliding rail 32, then the feeding air cylinder 34 and the feeding air claw 35 are driven to move, the heat radiating fins 10 clamped by the feeding air claw 35 are driven to move, when the heat radiating fins move to the position right above the heat radiating fin plate frame 9 on the conveying device 8, the feeding air cylinder 34 works again to drive the heat radiating fins 10 clamped by the feeding air claw 35 to move downwards, and the heat radiating fins 10 are placed in the heat radiating fin plate frame 9;

step 3, automatically clamping and fixing the radiating fin in the radiating fin plate frame: then, when the heat sink sheet frame 9 is filled with the heat sinks 10, the conveying device 8 conveys the heat sink sheet frame 9 filled with the heat sinks 10 to be opposite to the fixed clamping device 4, the two pushing electric cylinders 46 work to drive the pushing plate 42 to move, the heat sink sheet frame 9 is pushed onto the clamping table 43, then the four electric push rods 49 work to lift the transverse plate 45, the two clamping electric cylinders 47 and the two clamping plates 48 to proper positions, then the two clamping electric cylinders 47 work to drive the two clamping plates 48 to move towards the heat sink sheet frame 9, the moving plate 91 on the heat sink sheet frame 9 is moved, clamping of the heat sinks 10 in the heat sink sheet frame 9 is achieved, and the pins 93 on the separating blocks 92 move downwards to fix the moving plate 91 in the heat sink sheet frame 9;

step 4, automatically flattening the radiating fins: then, while automatically clamping the heat sink 10 in the heat sink plate frame 9, the flattening electric cylinder 54 works to drive the flattening plate 53 to move downward, and flatten the heat sink 10 in the heat sink plate frame 9 on the clamping table 43;

and 5, rotating the rotating mechanism by a certain angle: after the heat radiating fins 10 are flattened, the rotating mechanism 51 works to drive the flattening support plate 52, the flattening plate 53 and the two flattening electric cylinders 54 to rotate for a certain angle, so that the subsequent blanking is facilitated;

step 6, automatically blanking and stacking the radiating fin plate frame provided with the radiating fins: finally, the moving device 6 drives the blanking support plate 71, the screw rod sliding table 72, the blanking electric cylinder 73 and the blanking air clamp 74 to move right above the clamping table 43, then the blanking electric cylinder 73 drives the blanking air clamp 74 to move downwards, to pressing from both sides the clamping of fin sheet frame 9 on the platform 43, the sheet frame 9 that the mobile device 6 works once more with unloading gas holder 74 centre gripping moves to piling up 75 tops, it rises to suitable position to pile up blanking machine 77, unloading electricity jar 73 works once more, drive the sheet frame 9 downstream of unloading gas holder 74 centre gripping, it can to place the bearing of piling up blanking machine 77 and serve, along with the increase of sheet frame 9, it slowly descends to pile up blanking machine 77, the sheet frame 9 that will be equipped with fin 10 places and pile up on the car 75 can, need not artifical transport, the efficiency is improved, and can not cause the damage to sheet frame 9.

Specifically, processing platform 1 sets up subaerial, material all in one piece device 2 sets up on processing platform 1 top, conveyor 8 sets up at material all in one piece device 2's afterbody and installs on processing platform 1 top, the last a plurality of fin sheet frames 9 that are equipped with of conveyor 8, loading attachment 3 sets up at material all in one piece device 2's side and installs on processing platform 1, fixed clamp 4 sets up in conveyor 8's both sides and installs on processing platform 1, flattening device 5 sets up at conveyor 8's side and installs on processing platform 1, mobile device 6 sets up subaerial and is located processing platform 1's side, unloading stacking device 7 sets up on mobile device 6's mobile end.

Specifically, the material arranging device 2 comprises a material arranging frame seat 21, a conveying mechanism 22, a material discharging plate 23, a storage seat 24, a buffer plate 25, a plurality of springs 26 and a plurality of material separating plates 27, wherein the material arranging frame seat 21 is arranged on the top of the processing table 1, the conveying mechanism 22 is arranged in the material arranging frame seat 21, the material separating plates 27 are arranged on the conveying mechanism 22 at equal intervals, the storage seat 24 is closely adjacent to the side wall of the material arranging frame seat 21 and is arranged on the processing table 1, the material discharging plate 23 is obliquely arranged at the tail part of the conveying mechanism 22 and is arranged on the storage seat 24, the springs 26 are arranged on the side wall of the storage seat 24, the buffer plate 25 is arranged on the springs 26, the bottom of the buffer plate 25 is attached to the bottom wall of the storage seat 24, when the heat radiating fins 10 need to be installed, the heat radiating fins 10 are firstly placed on the conveying mechanism 22 for conveying, the heat radiating fins 10 are arranged through the material separating plates 27, the heat radiating fins 10 are conveyed to the blanking plate 23 to slide to the storage seat 24 through the work of the conveying mechanism 22, the heat radiating fins 10 are buffered through the plurality of springs 26 and the buffer plate 25, the heat radiating fins 10 are prevented from being directly impacted to the storage seat 24 to cause abrasion to the heat radiating fins 10 when the heat radiating fins 10 slide down, and the storage seat 24 can also be protected.

Specifically, the feeding device 3 includes a supporting frame plate 30, a moving cylinder 31, a sliding rail 32, a sliding block 33, a feeding cylinder 34 and a feeding gas claw 35, the supporting frame plate 30 is disposed beside the storage seat 24 and is mounted on the processing table 1, the moving cylinder 31 is mounted on a lateral wall of the supporting frame plate 30, a telescopic end of the moving cylinder 31 is horizontally disposed, the sliding rail 32 is disposed on a lateral wall of the supporting frame plate 30 and is located below the moving cylinder 31, the sliding rail 32 is disposed on a telescopic end of the moving cylinder 31, the sliding rail 32 is slidably fitted with the sliding rail 32 on the lateral wall of the supporting frame plate 30, the feeding cylinder 34 is mounted on a lateral wall of the sliding block 33, and a telescopic end of the sliding block is vertically disposed downward, the feeding gas claw 35 is mounted on the telescopic end of the feeding cylinder 34, when the heat sink 10 is conveyed to the storage seat 24 by the conveying mechanism 22, the feeding cylinder 34 works to drive the feeding gas claw 35 to move downward to clamp the heat sink 10 on the storage seat 24, then through the work of the movable cylinder 31, the slider 33 on the telescopic end of the movable cylinder 31 is driven to move on the slide rail 32, then the movable cylinder 34 and the feeding air claw 35 can be driven to move, and the radiating fin 10 clamped by the feeding air claw 35 can be driven to move, when the movable cylinder moves right above the radiating fin plate frame 9 on the conveying device 8, the feeding cylinder 34 works again, the radiating fin 10 clamped by the feeding air claw 35 is driven to move downwards, the radiating fin 10 is placed in the radiating fin plate frame 9, when the radiating fin plate frame 9 is filled with the radiating fin 10, the conveying device 8 conveys the radiating fin plate frame 9 filled with the radiating fin 10 to the position right opposite to the fixed clamping device 4.

Specifically, the fixed clamping device 4 includes a supporting seat 41, a pushing plate 42, a clamping table 43, a base 44, a transverse plate 45, two pushing electric cylinders 46, two clamping electric cylinders 47, two clamping plates 48 and four electric push rods 49, the supporting seat 41 is installed on the processing table 1 and is close to one outer side wall of the conveying device 8, the two pushing electric cylinders 46 are respectively horizontally arranged on the top of the supporting seat 41, and two telescopic ends of the two pushing electric cylinders extend towards the conveying device 8, the pushing plate 42 is arranged on the top of the supporting seat 41 and is installed on the telescopic ends of the two pushing electric cylinders 46, the clamping table 43 is installed on the top of the processing table 1 and is close to the other outer side wall of the conveying device 8, the base 44 is arranged beside the clamping table 43, the four electric push rods 49 are vertically arranged on the base 44 in pairwise symmetry, the transverse plate 45 is arranged on the telescopic ends of the four electric push rods 49 and is overlapped on the base 44, the two clamping electric cylinders 47 are symmetrically arranged on the top of the transverse plate 45, the two telescopic ends extend towards the direction of the conveying device 8, the two clamping plates 48 are respectively arranged on the telescopic ends of the two clamping electric cylinders 47, when the conveying device 8 conveys the radiating fin plate frame 9 filled with the radiating fins 10 to be opposite to the fixed clamping device 4, the two pushing electric cylinders 46 work to drive the pushing plate 42 to move and push the radiating fin plate frame 9 to the clamping table 43, then the four electric push rods 49 work to lift the transverse plate 45, the two clamping electric cylinders 47 and the two clamping plates 48 to proper positions, then the two clamping electric cylinders 47 work to drive the two clamping plates 48 to move towards the radiating fin plate frame 9, the moving plate 91 on the radiating fin plate frame 9 moves to clamp the radiating fins 10 in the radiating fin plate frame 9, and the pins 93 on the separating blocks 92 move downwards to fix the moving plate 91 in the radiating fin plate frame 9, automatically clamping the heat sink 10 in the heat sink frame 9.

Specifically, flattening device 5 includes rotary mechanism 51, the backup pad 52 that flattens, the flat board 53 of pressure and two electric jar 54 that flatten, rotary mechanism 51 card is established on processing platform 1 and is located the side of pressing from both sides platform 43, the backup pad 52 that flattens is installed on rotary mechanism 51, two the electric jar 54 symmetry that flattens sets up on the interior roof of the backup pad 52 that flattens and two equal vertical downward settings of flexible end, the flat board 53 that flattens is installed on the flexible end of two electric jar 54 that flatten and the flat board 53 is just to the next clamping platform 43 of pressing, when fixed clamping device 4 presss from both sides tightly to the fin 10 in the fin sheet frame 9, the electric jar 54 work that flattens drives the flat board 53 downstream, flattens fin 10 in the fin sheet frame 9 on the clamping platform 43, and flattens the end, through rotary mechanism 51 work, drives the flat backup pad 52 that flatten, the flat board 53 and two electric jar 54 that flatten and rotate certain angle, and the subsequent blanking is facilitated.

Specifically, the moving device 6 includes a rectangular frame 61, a rack 62, a gear 63, a motor base 64 and a driving motor 65, the rectangular frame 61 is disposed beside the processing table 1, the rectangular frame 61 is provided with a rectangular chute hole 66 from the top downwards, two side walls of the rectangular chute hole 66 are transversely provided with rectangular chutes 67, the rack 62 is mounted in the rectangular chute 67 in the rectangular chute hole 66, the rack 62 is in sliding fit with the rectangular chute 67, the gear 63 is clamped in the rectangular chute hole 66, the gear 63 is meshed with the rack 62, the motor base 64 is disposed on the ground, the top of the motor base 64 is mounted at the bottom of the rectangular frame 61, the driving motor 65 is disposed at the top of the motor base 64, a main shaft of the driving motor 65 is connected with the gear 63, when the driving motor 65 works, the driving gear 63 rotates, the rack 62 meshed with the gear 63 is driven to move, the blanking stacking plate can be driven to move, blanking is convenient, and power is provided.

Specifically, unloading stacking device 7 includes unloading backup pad 71, lead screw slip table 72, unloading electric cylinder 73, unloading gas clamp 74, stacker 75, bears seat 76 and piles up blanking machine 77, unloading backup pad 71 card is established in rectangle slide hole 66 in rectangle frame 61 and is installed on rack 62, lead screw slip table 72 is installed on unloading backup pad 71, unloading electric cylinder 73 is installed on lead screw slip table 72's removal end and the vertical downward setting of flexible end, unloading gas clamp 74 is installed on unloading electric cylinder 73's flexible end, stacker 75 sets up the side at mobile device 6, bear seat 76 sets up subaerial, pile up blanking machine 77 and install on bearing seat 76 and pile up the bearing end card of blanking machine 77 and establish on stacker 75, end when flattening device 5 flattens to the fin sheet frame 9 that is equipped with fin 10, works through mobile device 6, drive unloading backup pad 71, lead screw slip table 72, unloading electricity jar 73 and unloading air clamp 74 move to and press from both sides directly over the tight platform 43, then unloading electricity jar 73 work drives unloading air clamp 74 downstream, carry out the centre gripping to the fin sheet frame 9 on pressing from both sides tight platform 43, mobile device 6 works once more and moves the fin sheet frame 9 of unloading air clamp 74 centre gripping to piling up car 75 top, it rises to suitable position to pile up blanking machine 77, unloading electricity jar 73 works once more, it moves down to drive the fin sheet frame 9 of unloading air clamp 74 centre gripping, place the bearing of piling up blanking machine 77 and hold can, along with the increase of fin sheet frame 9, it slowly descends to pile up blanking machine 77, the fin sheet frame 9 that will be equipped with fin 10 is placed and is piled up on car 75 can, need not artifical transport, the efficiency is improved, and can not cause the damage to fin sheet frame 9.

Specifically, one end of each of the heat sink plate frames 9 is provided with a movable moving plate 91, a rectangular groove is formed in an inner bottom wall of each of the heat sink plate frames 9, a partition block 92 is arranged in each of the heat sink plate frames 9, a movable bolt 93 is arranged on each partition block 92, and when the heat sink plate frames 9 are fixedly clamped, the heat sink plate frames 9 are fixedly clamped through the bolts 93.

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 (9)

1. An automatic mounting and flattening process for air conditioner radiating fins is characterized by comprising the following steps:

step 1, automatically arranging the radiating fins: the method comprises the steps that a processing table (1), a material arranging device (2), a conveying device (8), a feeding device (3), a fixing and clamping device (4), a flattening device (5), a moving device (6) and a discharging and stacking device (7) are arranged, when the radiating fins (10) need to be installed, the radiating fins (10) are placed on a conveying mechanism (22) of the material arranging device (2) to be conveyed, and the radiating fins (10) are arranged through material separating plates (27);

step 2, clamping and placing the cooling fin into a cooling fin plate frame: then, the heat radiating fins (10) are conveyed to a blanking plate (23) to slide to a storage seat (24) through the work of a conveying mechanism (22), a feeding cylinder (34) works by a feeding device (3) to drive a feeding air claw (35) to move downwards to clamp the heat radiating fins (10) on the storage seat (24), then the movable cylinder (31) works to drive the sliding block (33) on the telescopic end of the movable cylinder (31) to move on the sliding rail (32), the feeding cylinder (34) and the feeding gas claw (35) can be driven to move, and the radiating fins (10) clamped by the feeding gas claw (35) can be driven to move to be directly above the radiating fin plate frame (9) on the conveying device (8), the feeding cylinder (34) works again to drive the radiating fins (10) clamped by the feeding air claws (35) to move downwards, and the radiating fins (10) are placed in the radiating fin plate frame (9);

step 3, automatically clamping and fixing the radiating fin in the radiating fin plate frame: then, when the radiating fin plate frame (9) is filled with the radiating fins (10), the conveying device (8) conveys the radiating fin plate frame (9) filled with the radiating fins (10) to be opposite to the fixed clamping device (4), the two pushing electric cylinders (46) work to drive the pushing plate (42) to move and push the radiating fin plate frame (9) to the clamping table (43), then the four electric push rods (49) work to lift the transverse plate (45), the two clamping electric cylinders (47) and the two clamping plates (48) to proper positions, and then the two clamping electric cylinders (47) work to drive the two clamping plates (48) to move towards the radiating fin plate frame (9) and move the moving plate (91) on the radiating fin plate frame (9) to clamp the radiating fins (10) in the radiating fin plate frame (9), so that the pins (93) on the separating blocks (92) move downwards to fix the moving plate (91) in the radiating fin plate frame (9), automatically clamping the radiating fins (10) in the radiating fin plate frame (9);

step 4, automatically flattening the radiating fins: then, a flattening electric cylinder (54) of the flattening device (5) works to drive a flattening plate (53) to move downwards to flatten the heat radiating fins (10) in the heat radiating fin plate frame (9) on the clamping table (43);

and 5, rotating the rotating mechanism by a certain angle: after the radiating fins (10) are flattened, the rotating mechanism (51) works to drive the flattening support plate (52), the flattening plate (53) and the two flattening electric cylinders (54) to rotate for a certain angle, so that the subsequent blanking is facilitated;

step 6, automatically blanking and stacking the radiating fin plate frame provided with the radiating fins: then the moving device (6) works to drive the blanking support plate (71), the screw rod sliding table (72), the blanking electric cylinder (73) and the blanking air clamp (74) of the blanking stacking device (7) to move right above the clamping table (43), then the blanking electric cylinder (73) works to drive the blanking air clamp (74) to move downwards, carry out the centre gripping to fin sheet frame (9) on pressing from both sides tight platform (43), mobile device (6) do work once more and move fin sheet frame (9) of unloading gas clamp (74) centre gripping to piling up car (75) top, it rises to suitable position to pile up blanking machine (77), unloading electricity jar (73) do work once more, drive fin sheet frame (9) downstream of unloading gas clamp (74) centre gripping, it can to place to pile up on the bearing end of blanking machine (77), along with the increase of fin sheet frame (9), it slowly descends to pile up blanking machine (77), it can on piling up car (75) to place fin sheet frame (9) that will be equipped with fin (10).

2. The automatic mounting and flattening process for the air conditioner cooling fin according to claim 1, characterized in that: processing platform (1) sets up subaerial, material all in one piece device (2) set up on processing platform (1) top, conveyor (8) set up at the afterbody of material all in one piece device (2) and install on processing platform (1) top, be equipped with a plurality of fin sheet frames (9) on conveyor (8), loading attachment (3) set up at the side of material all in one piece device (2) and install on processing platform (1), fixed clamping device (4) set up in the both sides of conveyor (8) and install on processing platform (1), flattening device (5) set up at the side of conveyor (8) and install on processing platform (1), mobile device (6) set up subaerial and lie in the side of processing platform (1), unloading is piled up device (7) and is set up on the removal end of mobile device (6).

3. The automatic mounting and flattening process for the air conditioner cooling fin according to claim 2, characterized in that: the material arranging device (2) comprises a material arranging frame seat (21), a transmission mechanism (22), a blanking plate (23), a storage seat (24), a buffer plate (25), a plurality of springs (26) and a plurality of material separating plates (27), the material arranging frame seat (21) is arranged on the top of the processing table (1), the transmission mechanism (22) is arranged in the material arranging frame seat (21), a plurality of material separating plates (27) are arranged on the transmission mechanism (22) at equal intervals, the storage seat (24) is closely arranged on the side wall of the material arranging frame seat (21) and is arranged on the processing table (1), the blanking plate (23) is obliquely arranged at the tail part of the transmission mechanism (22) and is arranged on the storage seat (24), a plurality of springs (26) are arranged on the side wall of the storage seat (24), the buffer plate (25) is arranged on the springs (26) and the bottom of the buffer plate (25) is attached to the bottom wall of the storage seat (24).

4. The automatic mounting and flattening process for the air conditioner cooling fin according to claim 3, characterized in that: the feeding device (3) comprises a supporting frame plate (30), a moving cylinder (31), a slide rail (32), a slide block (33), a feeding cylinder (34) and a feeding gas claw (35), the supporting frame plate (30) is arranged beside the storage seat (24) and is arranged on the processing table (1), the movable cylinder (31) is arranged on the transverse side wall of the supporting frame plate (30) and the telescopic end of the movable cylinder (31) is horizontally arranged, the slide rail (32) is arranged on the lateral wall of the support frame plate (30) and is positioned below the moving cylinder (31), the slide rail (32) is arranged on the telescopic end of the movable cylinder (31), the slide rail (32) is arranged in a sliding fit with the slide rail (32) on the side wall of the support frame plate (30), the feeding cylinder (34) is arranged on one side wall of the sliding block (33) and the telescopic end is vertically arranged downwards, the feeding air claw (35) is arranged on the telescopic end of the feeding air cylinder (34).

5. The automatic mounting and flattening process for the air conditioner cooling fin according to claim 2, characterized in that: the fixed clamping device (4) comprises a supporting seat (41), a pushing plate (42), a clamping table (43), a base (44), a transverse plate (45), two pushing electric cylinders (46), two clamping electric cylinders (47), two clamping plates (48) and four electric push rods (49), wherein the supporting seat (41) is arranged on the processing table (1) and is close to one outer side wall of the conveying device (8), the two pushing electric cylinders (46) are respectively horizontally arranged on the top of the supporting seat (41) and extend towards the conveying device (8), the pushing plate (42) is arranged on the top of the supporting seat (41) and is arranged on the telescopic ends of the two pushing electric cylinders (46), the clamping table (43) is arranged on the top of the processing table (1) and is close to the other outer side wall of the conveying device (8), and the base (44) is arranged beside the clamping table (43), four electric putter (49) two bisymmetry vertical settings are on base (44), diaphragm (45) set up and overlap joint on base (44) on the flexible end of four electric putter (49), two press from both sides tight electric jar (47) symmetry and set up on diaphragm (45) top and two flexible ends all extend to conveyor (8) direction, two clamp plate (48) set up respectively on the flexible end of two tight electric jar (47).

6. The automatic mounting and flattening process for the air conditioner cooling fin according to claim 5, characterized in that: flattening device (5) include rotary mechanism (51), flatten backup pad (52), press flat board (53) and two electric jar (54) that flatten, rotary mechanism (51) card is established on processing platform (1) and is located the side of pressing from both sides tight platform (43), it installs on rotary mechanism (51) to flatten backup pad (52), two it sets up on the interior roof of backup pad (52) that flattens and two equal vertical downward settings of flexible end to flatten electric jar (54) symmetry, it installs on the flexible end of two electric jar (54) that flatten and presses flat board (53) just to lower tight platform (43).

7. The automatic mounting and flattening process for the air conditioner cooling fin according to claim 2, characterized in that: the moving device (6) comprises a rectangular frame (61), a rack (62), a gear (63), a motor base (64) and a driving motor (65), the rectangular frame (61) is arranged at the side of the processing table (1), the rectangular frame (61) is provided with a rectangular slide way hole (66) from the top to the bottom, two side walls of the rectangular sliding channel hole (66) are transversely provided with rectangular sliding channels (67), the rack (62) is arranged in a rectangular sliding groove (67) in the rectangular sliding channel hole (66) and the rack (62) is in sliding fit with the rectangular sliding groove (67), the gear (63) is clamped in the rectangular slide way hole (66) and the gear (63) is meshed with the rack (62), the motor base (64) is arranged on the ground, the top of the motor base (64) is arranged at the bottom of the rectangular frame (61), the driving motor (65) is arranged on the top of the motor base (64), and a main shaft of the driving motor (65) is connected with the gear (63).

8. The automatic mounting and flattening process for the air conditioner cooling fin according to claim 7, characterized in that: the blanking stacking device (7) comprises a blanking support plate (71), a screw rod sliding table (72), a blanking electric cylinder (73), a blanking air clamp (74), a stacking vehicle (75), a bearing seat (76) and a stacking blanking machine (77), the blanking support plate (71) is clamped in a rectangular slide way hole (66) in the rectangular frame (61) and is arranged on the rack (62), the screw rod sliding table (72) is arranged on the blanking support plate (71), the blanking electric cylinder (73) is arranged on the moving end of the screw rod sliding table (72) and the telescopic end is vertically arranged downwards, the blanking air clamp (74) is arranged on the telescopic end of the blanking electric cylinder (73), the stacker (75) is arranged beside the moving device (6), the bearing seat (76) is arranged on the ground, the stacking blanking machine (77) is arranged on the bearing seat (76) and the bearing end of the stacking blanking machine (77) is clamped on the stacking trolley (75).

9. The automatic mounting and flattening process for the air conditioner cooling fin according to claim 2, characterized in that: one end of each radiating fin plate frame (9) is provided with a movable moving plate (91), a rectangular groove is formed in the inner bottom wall of each radiating fin plate frame (9), each radiating fin plate frame (9) is internally provided with a separation block (92), and each separation block (92) is provided with a movable bolt (93).

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