CN210102889U - Fin collecting tool for radiator - Google Patents

Abstract

A fin collecting tool for a radiator comprises a fin forming machine, a first material receiving assembly, a second material receiving assembly, a fin material taking and placing mechanism, a cleaning frame, a composite board material taking and placing mechanism, a composite board storage device, a controller and a main body frame. The material receiving end of the first material receiving assembly is in butt joint with the discharge port of the fin forming machine, the material receiving end of the second material receiving assembly is in butt joint with the discharge end of the first material receiving assembly, and the discharge ends of the first material receiving assembly and the second material receiving assembly are inclined downwards; during operation, the composite board taking and placing mechanism firstly places the composite board into the cleaning frame, then the fin taking and placing mechanism grabs the fins in the horizontal state and moves the top of the composite board placed into the cleaning frame leftwards. The utility model discloses can collect the fin automatically to the composite sheet and the reciprocal crisscross range upon range of fin that will collect are in wasing the frame, in order to make things convenient for the workman to concentrate and wash it, thereby avoid adjacent fin to imbed each other, when effectively preventing the fin deformation, alleviate workman intensity of labour greatly, reduce the human cost and drop into, improve the assembly quality and the efficiency of radiator.

Description

Fin collecting tool for radiator

Technical Field

The utility model relates to a radiator that uses among automobile engine or the wind power generation, more specifically say, is a fin collection frock for radiator.

Background

The radiator used in an automobile engine or wind power generation generally comprises parts such as fins, seals, cover plates, composite plates and the like, and because the parts comprise a large number of parts, in order to reduce cost, the parts are mostly made of aluminum materials and then assembled into the radiator. Although the heat absorption speed of the aluminum parts is slow, the heat dissipation is fast, in addition, the contact area between the fins punched and formed by the fin forming machine and the air can be increased, and the air flow is accelerated by the fan during the work, so that the good heat dissipation effect can be achieved.

Since the fins are formed by punching a very thin aluminum plate by a fin forming machine, rust preventive oil attached to the surface of the fin must be cleaned before the subsequent assembly of the radiator. The cross sections of the fins formed by stamping are all in a wave shape, and after the fins are mutually laminated, the convex parts of the upper fins are easily embedded into the concave parts of the lower fins, so that the surfaces of the adjacent fins are mutually attached, and the cleaning quality of the fins is seriously influenced.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to provide a fin collection frock for radiator, it can collect the fin of punching press shaping automatically to fin and the crisscross range upon range of composite sheet in the fin that will collect and the radiator are in wasing the frame, in order to make things convenient for the workman to concentrate and wash both, thereby avoiding adjacent fin to imbed each other, when effectively preventing the fin deformation, alleviate workman's intensity of labour greatly, reduce human cost's input, improve the assembly quality and the efficiency of radiator.

The technical solution of the utility model is to provide a fin collecting tool for a radiator with the following structure, which comprises a fin forming machine, a first material receiving assembly, a second material receiving assembly, a fin taking and placing mechanism, a cleaning frame, a composite board taking and placing mechanism, a composite board storing device, a controller and a main body frame; the material receiving end of the first material receiving assembly is in butt joint with a discharge port of the fin forming machine, and the discharge end of the first material receiving assembly inclines downwards and is used for enabling fins conveyed from the discharge port to automatically slide downwards under the action of self gravity; the second material receiving assembly is arranged on the main body frame, the material receiving end of the second material receiving assembly is in butt joint with the material discharging end of the first material receiving assembly, and the material discharging end of the second material receiving assembly inclines downwards; a material baffle plate for blocking a gliding fin is arranged on the top surface of the discharge end of the second material receiving assembly, a fin sensor is arranged on the second material receiving assembly close to the material baffle plate and used for sensing whether the fin abuts against the material baffle plate or not and transmitting the sensed signal to a controller; a jacking mechanism for jacking the discharge end upwards to enable the top surface of the second material receiving assembly to be in a horizontal state is arranged on the bottom surface of the discharge end of the second material receiving assembly; the cleaning frame is positioned on the left side of the second material receiving assembly, and the top of the cleaning frame is open and used for placing fins and composite plates; the composite board storage device is positioned on the left side of the cleaning frame and used for stacking and storing the composite boards; the composite board taking and placing mechanism is positioned right above the composite board storage device and is arranged on the main body frame, and when a signal sent by the controller is obtained, the composite board taking and placing mechanism acts to place the composite board on the composite board storage device into the inner cavity of the cleaning frame; the fin taking and placing mechanism is positioned right above the second material receiving assembly and is arranged on the main body frame, and when the second material receiving assembly is in a horizontal state under the action of the jacking mechanism, the fin taking and placing mechanism grabs fins abutted against the material baffle plate, moves leftwards and places the fins onto the top of the composite plate in the cleaning frame; the controller is installed on the main body frame and used for driving the composite plate material taking and placing mechanism and the fin material taking and placing mechanism to perform reciprocating alternate actions so as to stack the composite plates and the fins into the inner cavity of the cleaning frame in a reciprocating alternate mode.

A fin collection frock for radiator, wherein, first material subassembly that connects includes first rectangular frame, first class profit strip and first supporting leg, first rectangular frame's material end that connects docks with the discharge gate of fin forming machine, first rectangular frame's discharge end downward sloping, first class profit strip is installed in first rectangular frame's rectangle frame, and the gyro wheel that sets up on it is a little higher than first rectangular frame's top surface, first supporting leg installs the bottom at first rectangular frame.

The utility model relates to a fin collecting tool for a radiator, wherein, the second material receiving component comprises a second rectangular frame, a second fluent strip and a second supporting leg, the material receiving end of the second rectangular frame is butted with the discharge end of the first material receiving component, the discharge end of the second rectangular frame is inclined downwards, the striker plate is arranged on the top surface of the second rectangular frame, the fin inductor is arranged on the second rectangular frame through an inductor bracket, the second fluent strip is arranged in the rectangular frame of the second rectangular frame, the roller arranged on the second rectangular frame is slightly higher than the top surface of the second rectangular frame, a hinge shaft I is arranged on the bottom surface of the second rectangular frame close to the material receiving end through a lug I, the end part of the hinge shaft I is positioned in a circular through hole arranged at the top part of the second supporting leg, a hinge shaft II is arranged on the bottom surface of the second rectangular frame close to the discharge end through a lug II, the end part of the hinge shaft II is positioned in a vertical waist-shaped hole formed in the top of the second supporting leg, and the bottom of the second supporting leg is connected with the main body frame.

A fin collects frock for radiator, wherein, jack-up mechanism is a jack-up cylinder, the vertical setting of jack-up cylinder, its piston rod top is installed on second rectangular frame's bottom surface, its cylinder body is installed on the second supporting leg, the jack-up cylinder passes through solenoid valve and outside air supply intercommunication, the solenoid valve is connected with the controller electricity.

The utility model relates to a fin collection frock for radiator, wherein, fin gets drop feed mechanism includes vertical cylinder I, vertical guide arm I, slide I, track I, horizontal cylinder I, clamping jaw cylinder block and is used for snatching the fin clamping jaw cylinder, track I has two, and the left and right direction sets up, and installs respectively at the top of main body frame, two tip of slide I respectively with two track I side to side sliding connection, the cylinder body of horizontal cylinder I is adorned on main body frame, and the piston rod head is adorned on slide I for driving slide I side to side along track I, the cylinder body bottom of vertical cylinder I is adorned on slide I, the piston rod bottom and the clamping jaw cylinder block fixed connection of vertical cylinder I, the clamping jaw cylinder is adorned in the bottom of clamping jaw cylinder block, clamping jaw cylinder I and horizontal cylinder I all communicate with outside air supply through the solenoid valve, each solenoid valve all is connected with the controller electricity, the bottom and the clamping jaw cylinder block fixed connection of vertical guide arm I, upper portion and slide I upper and lower sliding connection.

A fin collection frock for radiator, wherein, wash the frame and be connected with main body frame pull formula.

A fin collection frock for radiator, wherein, it indicates to wash the frame and be connected with main body frame pull formula, main body frame's lower part is equipped with the slip tray, the left and right sides wall of slip tray passes through drawer slide rail and main body frame front and back sliding connection, both ends all are equipped with the handle around the slip tray, wash the frame and be located the top surface of slip tray.

The utility model relates to a fin collection frock for radiator, wherein, composite sheet gets drop feed mechanism includes vertical cylinder II, vertical guide arm II, slide II, track II, horizontal cylinder II, sucking disc seat and the sucking disc that is used for absorbing the composite sheet, track II has two, and the left and right direction sets up, and installs respectively at the top of main body frame, two tip of slide II respectively with two track II horizontal slip connection, the cylinder body dress of horizontal cylinder II is on main body frame, the piston rod head dress is on slide II for order about slide II along track II horizontal slip, the cylinder body bottom dress of vertical cylinder II is on slide II, the piston rod bottom and the sucking disc seat fixed connection of vertical cylinder II, the sucking disc dress is in sucking disc seat bottom, vertical cylinder II, horizontal cylinder II and sucking disc all communicate with external air source through the solenoid valve, each solenoid valve all is connected with the controller electricity, the bottom and the sucking disc seat fixed connection of vertical guide arm II, upper portion and II upper and lower sliding connection of slide.

A fin collection frock for radiator, wherein, composite sheet strorage device includes truckle, shallow frame and limiting plate, a truckle is all installed to four edges of shallow frame bottom, the truckle is for taking the brake truckle, the limiting plate has two, installs respectively at both ends around the shallow frame top is dull and stereotyped, encloses the district of depositing that supplies the composite sheet to put into jointly between two limiting plates and the dull and stereotyped top surface.

A fin collection frock for radiator, wherein, install on the flat board when the composite sheet gets drop feed mechanism and gets the material for avoid the polylith composite sheet bonding together, ensure to get the anti-error mechanism of material one by one, anti-error mechanism comprises spacing post and brush support, spacing post has a plurality ofly, is located the left and right sides of the board that resets respectively, and the bottom of each spacing post all is connected with the flat board, and the brush support all is equipped with at the top, be equipped with horizontal brush hair on the lateral wall of brush support.

After the structure more than adopting, compared with the prior art, the utility model relates to a fin is collected frock for radiator has following advantage: during operation, the fins punched and formed by the fin forming machine are discharged from the discharge port, the fins slide downwards along the first material receiving assembly and the second material receiving assembly under the action of self gravity, when the end parts abut against the material baffle plate, the downward sliding is stopped, and the fin sensor obtains signals and transmits the signals to the controller; then, the controller drives the composite board taking and placing mechanism to act, the composite boards stored on the composite board storage device are taken out, slide rightwards and are placed into the inner cavity of the cleaning frame, and then reset; next, the controller drives the jacking mechanism to act to jack the discharge end of the second material receiving assembly upwards, so that the top surface of the second material receiving assembly is in a horizontal state; and the fin taking and placing mechanism acts after receiving a signal sent by the controller, picks the fins, places the picked fins on the top of the composite plate in the cleaning frame, and then resets. Repeating the above operation process, and alternately stacking a plurality of composite plates and fins in a reciprocating manner and placing the composite plates and the fins into a cleaning frame. After the composite board is fully placed, replacing the empty cleaning frame to continue the reciprocating alternate collection and placement operation of the composite board and the fins; and the cleaning frames of the fins and the composite plates are filled, and workers can send the cleaning frames into a cleaning machine to intensively clean the fins and the composite plates. Obviously, the utility model discloses an automatic collection, the concentration to the fin carry out abluent operation flow to fin and composite sheet and original through taking out the fin one by hand and wash it and compare, not only avoided the embedding laminating of adjacent fin, prevent that the fin from warping, still alleviateed workman's intensity of labour greatly, reduced human cost's input, fully improved the assembly quality and the efficiency of radiator.

Drawings

Fig. 1 is a schematic perspective view of a fin collecting tool for a heat sink according to the present invention;

fig. 2 is a schematic perspective enlarged structure view of the first receiving assembly in fig. 1;

fig. 3 is an enlarged perspective view of the second receiving assembly in fig. 1;

FIG. 4 is an enlarged perspective view of the fin pick-and-place mechanism and the composite board pick-and-place mechanism shown in FIG. 1 mounted on the main frame;

fig. 5 is an enlarged perspective view of the composite sheet storage device of fig. 1;

FIG. 6 is an enlarged perspective view of the sliding tray of FIG. 1;

fig. 7 is a schematic view of a three-dimensional structure of a fin collecting tool for a heat sink when the fin is collected.

Detailed Description

The following describes the fin collecting tool for a heat sink in further detail with reference to the accompanying drawings and embodiments:

as shown in fig. 1 and 7, in the present embodiment, the utility model relates to a fin collecting tool for a radiator, including fin forming machine 10, first material receiving assembly 11, second material receiving assembly 12, fin taking and placing mechanism 14, cleaning frame 18, composite board taking and placing mechanism 15, composite board storage device 17, controller 16 and main body frame 13. The fin forming machine 10 is commercially available, and is configured to form the fins 51 having a wavy cross section by rapidly stamping an aluminum sheet coil, so as to increase a contact area between the fins 51 and air and accelerate heat dissipation of the heat sink. The fin forming machine 10 has a blanking function, and automatically cuts the formed fins 51 after the fins are punched to a predetermined length, and conveys the fins one by one to a discharge port.

The material receiving end of the first material receiving assembly 11 is butted with the discharge port of the fin forming machine 10, and the discharge end of the first material receiving assembly 11 is inclined downwards and is used for enabling the fins 51 conveyed from the discharge port to automatically slide downwards under the action of self gravity; the second material receiving component 12 is installed on the main body frame 13, the material receiving end of the second material receiving component is in butt joint with the discharge end of the first material receiving component 11, and the discharge end of the second material receiving component 12 is inclined downwards.

A material baffle 125 for blocking the downward sliding fins 51 is installed on the top surface of the discharge end of the second material receiving assembly 12, and a fin sensor 124 for sensing whether the fins 51 abut on the material baffle 125 or not is installed on the second material receiving assembly 12 near the material baffle 125 and transmitting the sensed signal to the controller 16; the bottom surface of the discharge end of the second receiving assembly 12 is provided with a jacking mechanism 120 for jacking up the discharge end to make the top surface of the second receiving assembly 12 in a horizontal state.

The cleaning frame 18 is located at the left side of the second receiving assembly 12, and the top of the cleaning frame is open for the fins 51 and the composite board 52 to be placed in.

The composite board storage device 17 is located on the left side of the cleaning frame 18 and used for stacking and storing the composite boards 52. The composite board taking and placing mechanism 15 is located right above the composite board storage device 17 and is installed on the main body frame 13. When the signal sent by the controller 16 is obtained, the composite board taking and placing mechanism 15 is operated to place the composite boards 52 on the composite board storage device 17 into the inner cavity of the cleaning frame 18.

The fin taking and placing mechanism 14 is located right above the second material receiving assembly 12 and is installed on the main body frame 13. When the second material receiving assembly 12 is in a horizontal state under the action of the jacking mechanism 120, the fin taking and placing mechanism 14 grabs the fins 51 abutting against the material baffle 125 and moves to the left to place the fins into the top of the composite plate in the cleaning frame 18.

The controller 16 is installed on the main body frame 13 and is used for driving the composite board taking and placing mechanism 15 and the fin taking and placing mechanism 14 to reciprocate and alternate to stack the composite boards 52 and the fins 51 into the inner cavity of the cleaning frame 18. The reciprocating alternate stacking means that the composite plate 52 is firstly placed in the cleaning frame 18, then the fins 51 are placed, the fins 51 are positioned on the top surface of the composite plate 52, then the composite plate 52 is placed, the composite plate 52 is positioned on the top surface of the fins 51, the reciprocating alternate circulation is carried out, and finally a plurality of composite plates 52 and the fins 51 are alternately stacked in the inner cavity of the cleaning frame 18.

With reference to fig. 2, the first receiving assembly 11 includes a first rectangular frame 112, a first fluent strip 111 and a first supporting leg 113, the receiving end of the first rectangular frame 112 is butted with the discharge port of the fin forming machine 10, the discharge end of the first rectangular frame 112 is inclined downward, the first fluent strip 111 is installed in the rectangular frame of the first rectangular frame 112, the guiding roller arranged thereon is slightly higher than the top surface of the first rectangular frame 112, so as to facilitate the downward sliding of the fin 51, and the first supporting leg 113 is installed at the bottom of the first rectangular frame 112.

With reference to fig. 3, the second receiving assembly 12 includes a second rectangular frame 122, a second fluent strip 121 and a second supporting leg 123, the receiving end of the second rectangular frame 122 is butted with the discharging end of the first rectangular frame 112, the discharging end of the second rectangular frame 122 is inclined downward, the striker plate 125 is installed on the top surface of the second rectangular frame 122, the fin sensor 124 is installed on the second rectangular frame 122 through a sensor support, the second fluent strip 121 is installed in the rectangular frame of the second rectangular frame 122, and the guiding roller arranged on the second receiving assembly is slightly higher than the top surface of the second rectangular frame 122, so as to facilitate the downward sliding of the fin 51. A hinge shaft I126 is arranged on the bottom surface, close to the material receiving end, of the second rectangular frame 122 through a lug I1221, and the end part of the hinge shaft I126 is positioned in a circular through hole 1231 formed in the top part of the second supporting leg 123 to form a rotating fulcrum; an articulated shaft II 127 is mounted on the bottom surface of the second rectangular frame 122 close to the discharge end through a lug II 1222, the end part of the articulated shaft II 127 is positioned in a vertical waist-shaped hole 1232 formed in the top of the second supporting leg 123, and the bottom of the second supporting leg 123 is connected with the main body frame 13 through a bolt.

The first bonus bar 111 and the second bonus bar 121 are commercially available.

The jacking mechanism 120 is a jacking cylinder, the jacking cylinder is vertically arranged, the top of a piston rod of the jacking cylinder is arranged on the bottom surface of the second rectangular frame 122, a cylinder body of the jacking cylinder is arranged on the second supporting leg 123, the jacking cylinder is communicated with an external air source through an electromagnetic valve, and the electromagnetic valve is electrically connected with the controller 16. After the jacking cylinder is ventilated, the discharge end of the second rectangular frame 122 can be jacked upwards, so that the top surface of the second rectangular frame is in a horizontal state, and correspondingly, the fin 51 on the top surface of the second rectangular frame is also in a horizontal state, so that the second rectangular frame can be conveniently grabbed.

With reference to fig. 4, the fin taking and placing mechanism 14 includes a vertical cylinder i 141, a vertical guide rod i 142, a sliding plate i 143, a rail i 144, a transverse cylinder i 145, a clamping jaw cylinder seat 146, and a clamping jaw cylinder 147 for grabbing fins. The two rails I144 are arranged in the left-right direction and are respectively arranged at the top of the main body frame 13; two end parts of the sliding plate I143 are respectively connected with the two rails I144 in a left-right sliding mode; the cylinder body of a transverse cylinder I145 is arranged on the main body frame 13, and the head of a piston rod is arranged on a sliding plate I143 and used for driving the sliding plate I143 to slide left and right along a track I144; the bottom of a cylinder body of the vertical cylinder I141 is arranged on the sliding plate I143, the bottom of a piston rod of the vertical cylinder I141 is fixedly connected with the clamping jaw cylinder seat 146, and the clamping jaw cylinder 147 is arranged at the bottom of the clamping jaw cylinder seat 146; the clamping jaw cylinder 147, the vertical cylinder I141 and the transverse cylinder I145 are all communicated with an external air source through electromagnetic valves, and all the electromagnetic valves are electrically connected with the controller 16; the bottom of vertical guide rod I142 is fixedly connected with clamping jaw cylinder seat 146, and the upper portion is connected with sliding plate I143 in an up-and-down sliding mode through a guide sleeve.

Referring to fig. 6, the cleaning frame 18 is connected to the main body frame 13 in a drawing manner so as to facilitate taking and placing the cleaning frame 18, and the following structure is specifically adopted: the lower part of main body frame 13 is equipped with slip tray 19, and the left and right sides wall of slip tray 19 passes through drawer slide rail 21 and main body frame 13 front and back sliding connection, and both ends all are equipped with handle 20 around slip tray 19, and washing frame 18 is located the top surface of slip tray 19, is equipped with the locating piece 22 that is used for fixing a position washing frame 18 on the slip tray 19.

Referring to fig. 4, the composite board taking and placing mechanism 15 includes a vertical cylinder ii 151, a vertical guide rod ii 152, a sliding plate ii 153, a rail ii 154, a horizontal cylinder ii 155, a suction cup seat 156, and a suction cup 157 for sucking the composite board. Two rails II 154 are arranged in the left-right direction and are respectively arranged at the top of the main body frame 13, and the rails II 154 can be integrated with the rails I144; two end parts of the sliding plate II 153 are respectively connected with the two rails II 154 in a left-right sliding mode; the cylinder body of the transverse cylinder II 155 is arranged on the main body frame 13, and the head part of a piston rod is arranged on the sliding plate II 153 and is used for driving the sliding plate II 153 to slide left and right along the rail II 154; the bottom of the cylinder body of the vertical cylinder II 151 is arranged on the sliding plate II 153, the bottom of the piston rod of the vertical cylinder II 151 is fixedly connected with the sucker seat 156, and the sucker 157 is arranged at the bottom of the sucker seat 156; the vertical cylinder II 151, the transverse cylinder II 155 and the sucker 157 are communicated with an external air source through electromagnetic valves, and each electromagnetic valve is electrically connected with the controller 16; the bottom of the vertical guide rod II 152 is fixedly connected with the sucker seat 156, and the upper part of the vertical guide rod II is connected with the sliding plate II 153 in a vertical sliding mode through the guide sleeve.

Referring to fig. 5, the composite board storage device 17 includes casters 172, a cart frame 171 and a limiting plate 174, wherein each of four corners of the bottom of the cart frame 171 is provided with one caster 172, and each caster 172 is a caster with a brake; the two limiting plates 174 are respectively installed at the front end and the rear end of the top plate 173 of the stroller frame 171 through the elongated holes, so that when the length of the composite plate 52 is changed, the distance between the two limiting plates 174 can be conveniently adjusted to enhance the universality. The two limit plates 174 and the top surface of the flat plate 173 together enclose a storage area for stacking the composite plates 52.

Referring to fig. 5, an error prevention mechanism is installed on the flat plate 173 for preventing a plurality of composite plates 52 from being adhered together under the action of the rust preventive oil when the composite plate taking and placing mechanism 15 takes materials, so as to ensure that the materials are taken one by one. The error prevention mechanism is composed of a plurality of limit posts 175 and a brush holder 176, and the limit posts 175 are respectively located at the left and right sides of the reset plate 52. The bottom of each limiting column 175 is connected with the flat plate 173 through a long hole, so that when the width of the composite plate 52 changes, the limiting columns 175 can be conveniently adjusted left and right, and the composite plate 52 with different widths can be better adapted; the top of each limit post 175 is provided with a brush holder 176, and the side wall of the brush holder 176 is provided with transverse bristles 177. When the suction cup 157 sucks the composite board 52 and the composite board 52 passes through the transverse bristles 177 upwards, the redundant composite board 52 adhered together automatically falls under the reverse force of the plurality of transverse bristles 177, so that the composite board 52 is ensured to be taken one by one.

The utility model discloses a theory of operation is: referring to fig. 1 and 7, in operation, a fin 51 stamped by the fin forming machine 10 is firstly discharged from a discharge port, and under the action of its own weight, the fin 51 slides downwards along the first material receiving assembly 11 and the second material receiving assembly 12, and when the end of the fin 51 abuts against the material baffle 125, the downward sliding is stopped; the fin sensor 124 obtains the signal and transmits it to the controller 16; then, the controller 16 drives the composite board taking and placing mechanism 15 to act, so as to adsorb the composite boards 52 stored on the composite board storage device 17 in advance, slide right, place the composite boards into the inner cavity of the cleaning frame 18, and then reset; next, the controller 16 drives the jacking mechanism 120 to act, so as to jack up the discharge end of the second material receiving assembly 12 upwards, so that the top surface of the second material receiving assembly 12 is in a horizontal state (see the state shown in fig. 7), and the fin 51 is convenient to grasp; the fin taking and placing mechanism 14 operates after receiving a signal sent by the controller 16, picks the fins 51 and places the picked fins on the top of the composite board 52 in the cleaning frame 18, and then the jacking mechanism 120 and the fin taking and placing mechanism 14 are reset. This operation is repeated, and a plurality of composite plates 52 and fins 51 are alternately stacked in sequence and placed in the cleaning frame 18. After the composite plate is fully placed, the empty cleaning frame is replaced to continue the reciprocating alternate collection operation of the composite plate 52 and the fins 51; and the cleaning frame of the fins 51 and the composite plates 52 is filled, and a worker can send the cleaning frame into a cleaning machine to intensively clean the fins and the composite plates. It can be seen that, the utility model discloses an automatic connect material, keep off material, sensing, vacuum adsorption and snatch a series of actions, can be fast with a plurality of composite sheets and fin range upon range of in turn put into the washing frame to reach and concentrate and wash both fast, and assemble the purpose of radiator from this, and then alleviateed workman's intensity of labour greatly, reduce human cost's input, fully improved the assembly quality and the efficiency of radiator.

In order to further improve the collection efficiency, in this embodiment, two sets of first fluent strips 111 and second fluent strips 121 are respectively installed on the first material receiving assembly 11 and the second material receiving assembly 12 side by side, so that two fins 51 can slide down simultaneously, correspondingly, two sets of clamping jaw cylinders 147, the cleaning frame 18, the suction cup 157 for sucking the composite board and the composite board 52 placed on the composite board storage device 17 are also arranged side by side, thereby realizing one operation flow and simultaneously collecting two fins and the composite board.

In this embodiment, the controller 16, the fin sensor 124, the jacking cylinder, the clamping jaw cylinder 147, the vertical cylinder i 141, the horizontal cylinder i 145, the electromagnetic valve, the vertical cylinder ii 151, the horizontal cylinder ii 155, the suction cup 157, the drawer slide rail 21, and the caster 172 are all commercially available products, and as to how to select, a person skilled in the art can select the components completely and autonomously according to the disclosure in the present specification and in combination with common knowledge in the art, and therefore, the details are not described herein.

The above-mentioned embodiments are only described for the preferred embodiments of the present invention, and are not intended to limit the scope of the present invention, and the technical solution of the present invention is not limited by the above-mentioned embodiments, and various modifications and improvements made by those skilled in the art can be made without departing from the spirit of the present invention.

Claims (10)

1. The utility model provides a frock is collected to fin for radiator, includes fin forming machine (10), its characterized in that: the device is characterized by also comprising a first material receiving assembly (11), a second material receiving assembly (12), a fin taking and placing mechanism (14), a cleaning frame (18), a composite board taking and placing mechanism (15), a composite board storing device (17), a controller (16) and a main body frame (13);

the material receiving end of the first material receiving assembly (11) is in butt joint with the discharge hole of the fin forming machine (10), and the discharge end of the first material receiving assembly (11) inclines downwards and is used for enabling fins conveyed from the discharge hole to automatically slide downwards under the action of self gravity;

the second material receiving component (12) is arranged on the main body frame (13), the material receiving end of the second material receiving component is in butt joint with the discharge end of the first material receiving component (11), and the discharge end of the second material receiving component (12) inclines downwards;

a material baffle plate (125) used for blocking a gliding fin is installed on the top surface of the discharge end of the second material receiving assembly (12), a fin sensor (124) is installed on the second material receiving assembly (12) close to the material baffle plate (125) and used for sensing whether the fin abuts against the material baffle plate (125) or not and transmitting the sensed signal to the controller (16); a jacking mechanism (120) for jacking the discharge end upwards to enable the top surface of the second material receiving component (12) to be in a horizontal state is arranged on the bottom surface of the discharge end of the second material receiving component (12);

the cleaning frame (18) is positioned at the left side of the second material receiving assembly (12), and the top of the cleaning frame is open and used for placing fins and composite plates;

the composite board storage device (17) is positioned on the left side of the cleaning frame (18) and is used for stacking and storing the composite boards;

the composite board taking and placing mechanism (15) is positioned right above the composite board storage device (17) and is installed on the main body frame (13), and when a signal sent by the controller (16) is obtained, the composite board taking and placing mechanism (15) acts to place the composite boards on the composite board storage device (17) into the inner cavity of the cleaning frame (18);

the fin taking and placing mechanism (14) is positioned right above the second material receiving assembly (12) and is installed on the main body frame (13), and when the second material receiving assembly (12) is in a horizontal state under the action of the jacking mechanism (120), the fin taking and placing mechanism (14) grips fins abutted against the material baffle plate (125), moves leftwards and places the fins into the top of the composite plate in the cleaning frame (18);

the controller (16) is arranged on the main body frame (13) and is used for driving the composite plate taking and placing mechanism (15) and the fin taking and placing mechanism (14) to reciprocate and alternate to stack the composite plates and the fins into the inner cavity of the cleaning frame (18) in a reciprocating and alternating mode.

2. The fin collecting tool for the radiator according to claim 1, wherein: first connect material subassembly (11) to include first rectangular frame (112), first fluent strip (111) and first supporting leg (113), the material end that connects of first rectangular frame (112) docks with the discharge gate of fin forming machine (10), the discharge end downward sloping of first rectangular frame (112), first fluent strip (111) is installed in the rectangular frame of first rectangular frame (112), and the gyro wheel that sets up on it is a little higher than the top surface of first rectangular frame (112), the bottom at first rectangular frame (112) is installed in first supporting leg (113).

3. The fin collecting tool for the radiator according to claim 1, wherein: the second material receiving assembly (12) comprises a second rectangular frame (122), a second fluent strip (121) and second supporting legs (123), the material receiving end of the second rectangular frame (122) is in butt joint with the material discharging end of the first material receiving assembly (11), the material discharging end of the second rectangular frame (122) is inclined downwards, the material baffle plate (125) is installed on the top surface of the second rectangular frame (122), the fin inductor (124) is installed on the second rectangular frame (122) through an inductor support, the second fluent strip (121) is installed in a rectangular frame of the second rectangular frame (122), rollers arranged on the second fluent strip are slightly higher than the top surface of the second rectangular frame (122), a first hinge shaft I (126) is installed on the bottom surface of the second rectangular frame (122) close to the material receiving end through a lug I (1221), the end part of the hinge shaft I (126) is located in a circular through hole (1) formed in the top of the second hinge shaft (123), and a hinged shaft II (127) is mounted on the bottom surface, close to the discharge end, of the second rectangular frame (122) through a lug II (1222), the end part of the hinged shaft II (127) is positioned in a vertical waist-shaped hole (1232) formed in the top of the second supporting leg (123), and the bottom of the second supporting leg (123) is connected with the main body frame (13).

4. The fin collecting tool for the radiator according to claim 3, wherein: the jacking mechanism (120) is a jacking cylinder, the jacking cylinder is vertically arranged, the top of a piston rod of the jacking cylinder is installed on the bottom surface of the second rectangular frame (122), a cylinder body of the jacking cylinder is installed on the second supporting leg (123), the jacking cylinder is communicated with an external air source through an electromagnetic valve, and the electromagnetic valve is electrically connected with the controller (16).

5. The fin collecting tool for the radiator according to claim 1, wherein: the fin taking and placing mechanism (14) comprises a vertical cylinder I (141), a vertical guide rod I (142), two sliding plates I (143), a rail I (144), a transverse cylinder I (145), a clamping jaw cylinder seat (146) and a clamping jaw cylinder (147) for grabbing fins, wherein the two rails I (144) are arranged in the left-right direction and are respectively installed at the top of a main body frame (13), the two end parts of the sliding plates I (143) are respectively connected with the two rails I (144) in a left-right sliding mode, a cylinder body of the transverse cylinder I (145) is installed on the main body frame (13), the head parts of piston rods are installed on the sliding plates I (143) and are used for driving the sliding plates I (143) to slide left and right along the rails I (144), the bottom parts of cylinder bodies of the vertical cylinder I (141) are installed on the sliding plates I (143), and the bottom parts of piston rods of the vertical cylinder I (141) are fixedly connected with the clamping jaw cylinder, the clamping jaw air cylinder (147) is arranged at the bottom of the clamping jaw air cylinder seat (146), the clamping jaw air cylinder (147), the vertical air cylinder I (141) and the transverse air cylinder I (145) are communicated with an external air source through electromagnetic valves, all the electromagnetic valves are electrically connected with the controller (16), the bottom of the vertical guide rod I (142) is fixedly connected with the clamping jaw air cylinder seat (146), and the upper portion of the vertical guide rod I (142) is connected with the sliding plate I (143) in a vertical sliding mode.

6. The fin collecting tool for the radiator according to claim 1, wherein: the cleaning frame (18) is connected with the main body frame (13) in a drawing way.

7. The fin collecting tool for the heat radiator according to claim 6, wherein: the cleaning frame (18) is connected with the main body frame (13) in a drawing mode, namely, a sliding tray (19) is arranged on the lower portion of the main body frame (13), the left side wall and the right side wall of the sliding tray (19) are connected with the main body frame (13) in a front-back sliding mode through drawer sliding rails (21), handles (20) are arranged at the front end and the rear end of the sliding tray (19), and the cleaning frame (18) is located on the top face of the sliding tray (19).

8. The fin collecting tool for the radiator according to claim 1, wherein: the composite plate taking and placing mechanism (15) comprises two vertical cylinders II (151), two vertical guide rods II (152), two sliding plates II (153), two rails II (154), two transverse cylinders II (155), two sucker seats (156) and suckers (157) for sucking the composite plates, wherein the rails II (154) are arranged in the left and right directions and are respectively installed at the top of a main body frame (13), two end parts of the sliding plates II (153) are respectively connected with the two rails II (154) in a left and right sliding manner, a cylinder body of the transverse cylinders II (155) is installed on the main body frame (13), the head parts of piston rods are installed on the sliding plates II (153) and are used for driving the sliding plates II (153) to slide left and right along the rails II (154), the bottom parts of the cylinder bodies of the vertical cylinders II (151) are installed on the sliding plates II (153), and the bottom parts of piston rods of the vertical cylinders II (151) are fixedly connected with the sucker seats, sucking disc (157) dress is in sucking disc seat (156) bottom, vertical cylinder II (151), horizontal cylinder II (155) and sucking disc (157) all communicate with outside air supply through the solenoid valve, and each solenoid valve all is connected with controller (16) electricity, the bottom and sucking disc seat (156) fixed connection of vertical guide arm II (152), upper portion and slide II (153) upper and lower sliding connection.

9. The fin collecting tool for the radiator according to claim 1, wherein: composite sheet strorage device (17) are including truckle (172), shallow frame (171) and limiting plate (174), one truckle (172) are all installed to four edges of shallow frame (171) bottom, truckle (172) are the area brake truckle, limiting plate (174) have two, install respectively at the front and back both ends of the dull and stereotyped (173) in shallow frame (171) top, enclose the district of depositing that supplies the composite sheet to put into between two limiting plates (174) and dull and stereotyped (173) top surfaces jointly.

10. The fin collecting tool for the heat radiator according to claim 9, wherein: install on dull and stereotyped (173) and get drop feed mechanism (15) when getting the material when the composite sheet for avoid the polylith composite sheet bonding together, ensure to get the mistake proofing mechanism of material one by one, mistake proofing mechanism comprises spacing post (175) and brush support (176), spacing post (175) have a plurality ofly, are located the left and right sides that resets the board respectively, and the bottom of each spacing post (175) all is connected with dull and stereotyped (173), and brush support (176) are all equipped with at the top, be equipped with horizontal brush hair (177) on the lateral wall of brush support (176).

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