CN217223286U - FIN mould is worn automatically in efficient heat dissipation - Google Patents

Abstract

The utility model discloses an automatic FIN mould of wearing of efficient heat dissipation, including unable adjustment base, be equipped with the FIN tool of wearing that is used for placing the FIN piece on unable adjustment base, wear the top of FIN tool and be equipped with fixed subassembly and elevating system that are used for fixed heat pipe, elevating system can drive the fixed subassembly oscilaltion thereby make the heat pipe penetrate the FIN piece in wearing the FIN tool, all be equipped with the rack that is used for stacking the FIN piece of waiting to install on the unable adjustment base and lie in the left and right sides of wearing the FIN tool, be connected with intermittent type conveying mechanism between the rack and wearing the FIN tool, intermittent type conveying mechanism can carry the FIN piece on the rack to wearing the FIN tool one by one; the utility model discloses simple structure, convenient operation realizes that autoloading wears the piece automatically, practices thrift the manual work, and the energy saving is with low costs input moreover, is particularly suitable for middle and small batch production.

Description

Automatic FIN mould of wearing of efficient heat dissipation

Technical Field

The utility model relates to a radiator production technical field especially relates to an FIN mould is worn automatically in efficient heat dissipation.

Background

Most of the existing FIN sheet penetrating processes are realized through manual penetration, namely, the FIN sheet penetrating is realized through driving a sliding rail through an air cylinder or an oil press and the like.

Therefore, it is necessary to design a highly efficient FIN through mold with a simple structure.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a FIN mould is worn automatically in order to provide an efficient heat dissipation, solve more than one problem in the above-mentioned background art.

In order to achieve the above purpose, the utility model adopts the following scheme: the utility model provides an automatic FIN mould of wearing of efficient heat dissipation, including unable adjustment base be equipped with the FIN tool of wearing that is used for placing the FIN piece on the unable adjustment base the top of wearing the FIN tool is equipped with fixed subassembly and elevating system that are used for fixed heat pipe, elevating system can drive thereby fixed subassembly oscilaltion makes the heat pipe penetrate the FIN piece in wearing the FIN tool on the unable adjustment base and lie in the left and right sides of wearing the FIN tool and all be equipped with and be used for stacking the rack of waiting to install the FIN piece be connected with intermittent type conveying mechanism between rack and the FIN tool of wearing, intermittent type conveying mechanism can carry the FIN piece on the rack one by one to wearing the FIN tool on.

According to the efficient heat dissipation automatic FIN penetrating die, the placing frame comprises the placing seat, and the conveying through groove which is used for placing FIN sheets is formed in the placing seat in a vertically penetrating mode.

According to the automatic FIN mould of wearing of efficient heat dissipation, intermittent type conveying mechanism is including first feeding mechanism and second feeding mechanism, first feeding mechanism sets up in the below of placing the seat for carry logical inslot FIN piece to carry to the second feeding mechanism one by one, second feeding mechanism is used for carrying the FIN piece on the second feeding mechanism to wearing on the FIN tool.

Like foretell automatic FIN mould of wearing of efficient heat dissipation, first feeding mechanism is including the interval setting at a plurality of rotating members of carrying logical groove both sides, the articulated setting in center of rotating member is on placing the seat, both ends are equipped with intermittent type pay-off portion and drive oscillating axle respectively about the rotating member, intermittent type pay-off portion is including the upper flange board and the lower flange board that the interval set up around the interval, upper flange board and lower flange board interval set up from top to bottom, and can restrict about respectively two adjacent FIN pieces and remove place the rear side of seat and be equipped with first cylinder be equipped with the carriage release lever on the piston rod of first cylinder, be equipped with on the carriage release lever with the corresponding notch of drive oscillating axle, each the drive oscillating axle corresponds and sets up in the notch.

According to the above high-efficiency heat-dissipating automatic FIN penetrating mold, the left side and the right side of the upper end of the FIN penetrating jig are both provided with the grooves for placing the FIN sheets, the second feeding mechanism comprises the sliding parts arranged on the two sides of the fixed base, conveying rods are arranged on one side of the sliding part at intervals, a sunken area is arranged at the upper end of the front side of each conveying rod, the FIN sheets in the conveying through grooves fall into the sunken areas, the left side and the right side of the fixed base are respectively provided with a first straight wire rod motor, a wire rod sleeve on the first straight wire rod motor is fixedly connected with a sliding part, so that the FIN sheets on the conveying rod are driven to be conveyed into the groove, insertion grooves into which the conveying rods can be inserted are arranged on the front side and the rear side of the groove, a limit stop block is arranged on the outer side of the groove, the outside of limit stop is the inclined plane structure, and the inboard is used for restricting the FIN piece in the recess for straight body face.

Like the automatic FIN mould of wearing of foretell heat dissipation of efficient, elevating system is in including setting up the vertical fagging of unable adjustment base rear side the upper end of vertical fagging is equipped with the second lead screw motor the outer up-and-down slip of vertical fagging is equipped with removes the seat, the lead screw cover on the second lead screw motor with remove seat fixed connection, fixed subassembly sets up on removing the seat.

Like the automatic FIN mould of wearing of foretell a high efficiency heat dissipation, fixed subassembly is in including setting up one side of removing the seat is equipped with the fixed plate that is used for the fixed radiator base the top that lies in the fixed plate on removing the seat is equipped with the second cylinder, the piston rod of second cylinder is equipped with the clamp plate, and when the fixed plate was placed to the radiator base, the heat pipe vertically set up downwards, just the clamp plate is used for compressing tightly radiator base and heat pipe.

According to the efficient heat dissipation automatic FIN passing die, the stop rods extending upwards are arranged at the four corners of the conveying through groove, and FIN sheets can be stacked between the stop rods.

According to the efficient heat dissipation automatic FIN die, the efficient heat dissipation automatic FIN die further comprises a workbench, and the fixing base is arranged on the workbench.

Above-mentioned, the beneficial effects of the utility model are that: firstly place the FIN piece of treating the equipment in the rack, carry the FIN piece of lowest one through intermittent type conveying mechanism after that to wear on the FIN tool, then through the fixed subassembly of elevating system drive and the good radiator base of riveting heat pipe downstream together, thereby make the heat pipe penetrate the FIN piece on wearing the FIN tool, cycle operation in proper order, just can wear the FIN piece, moreover, the steam generator is simple in structure, and convenient for operation, realize that autoloading is automatic to wear the piece, and the saving is artifical, and energy saving, and the cost drops into lowly, especially adapted medium and small batch production.

Drawings

Fig. 1 is a perspective view of the present invention.

Fig. 2 is a schematic view of the part of the FIN sheet of the present invention placed in the placing rack.

Fig. 3 is a schematic view of an operating state of the first feeding mechanism of the present invention.

Fig. 4 is a second schematic view of the first feeding mechanism according to the present invention.

Fig. 5 is a third schematic view of the working state of the first feeding mechanism of the present invention.

Fig. 6 is one of schematic diagrams of the second feeding mechanism according to the present invention.

Fig. 7 is a second schematic view of the second feeding mechanism according to the present invention.

Fig. 8 is an enlarged schematic view of the point a of fig. 1 according to the present invention.

Detailed Description

The following detailed description provides many different embodiments or examples for implementing the invention. Of course, these are merely embodiments or examples and are not intended to be limiting. In addition, repeated reference numbers such as repeated numbers and/or letters may be used in different embodiments. These iterations are for simplicity and clarity of the description of the present invention and do not represent a particular relationship between the various embodiments and/or structures discussed.

The invention will be further described with reference to the following description of the drawings and detailed description: as shown in fig. 1 to 8, the efficient heat dissipation automatic FIN penetrating mold comprises a fixing base 1, a FIN penetrating jig 2 for placing FIN pieces 100 is arranged on the fixing base 1, a fixing component 4 for fixing a heat pipe 3 and a lifting mechanism are arranged above the FIN penetrating jig 2, the lifting mechanism can drive the fixing component 4 to lift up and down so as to enable the heat pipe 3 to penetrate the FIN pieces 100 in the FIN penetrating jig 2, placing frames 5 for placing the FIN pieces 100 to be installed are arranged on the fixing base 1 and on the left side and the right side of the FIN penetrating jig 2, an intermittent conveying mechanism is connected between the placing frames 5 and the FIN penetrating jig 2, and the intermittent conveying mechanism can convey the FIN pieces 100 on the placing frames 5 to the FIN penetrating jig 2 one by one; firstly place the FIN piece 100 of waiting to assemble in rack 5, carry the FIN piece 100 of lowest through intermittent type conveying mechanism to wearing on FIN tool 2 after again, then drive fixed subassembly and the good radiator base 110 of heat pipe 3 of riveting and move down together through elevating system, thereby make heat pipe 3 penetrate the FIN piece 100 of wearing on FIN tool 2, cycle operation in proper order, just can wear FIN piece 100, moreover, the steam generator is simple in structure, and convenient for operation, realize that autoloading is automatic to wear the piece, and the labor is saved, and energy is saved, and the cost drops into lowly, and is particularly suitable for medium and small batch production.

Specifically, the placing frame 5 includes a placing seat 21, and a conveying through groove 22 for placing the FIN sheets 100 is formed in the placing seat 21 and penetrates up and down.

The intermittent conveying mechanism comprises a first feeding mechanism and a second feeding mechanism, the first feeding mechanism is arranged below the placing seat 21 and used for conveying the FIN sheets 100 in the conveying through groove 22 to the second feeding mechanism one by one, and the second feeding mechanism is used for conveying the FIN sheets 100 on the second feeding mechanism to the FIN penetrating jig 2.

Referring to fig. 2 to 5, the first feeding mechanism includes a plurality of rotating members 41 disposed at two sides of the conveying through slot 22 at intervals, the centers of the rotating members 41 are hinged to the placing base 21, the left and right ends of the rotating members 41 are respectively provided with an intermittent feeding portion and a driving swing shaft 42, the intermittent feeding portion includes an upper flange plate 43 and a lower flange plate 44 disposed at intervals in the front-rear direction, the upper flange plate 43 and the lower flange plate 44 are disposed at intervals in the up-down direction and can respectively limit the movement of two FIN sheets 100 adjacent to each other in the up-down direction, a first cylinder 45 is disposed at the rear side of the placing base 21, a moving rod 46 is disposed on a piston rod of the first cylinder 45, a notch 47 corresponding to the driving swing shaft 42 is disposed on the moving rod 46, and each driving swing shaft 42 is disposed in the notch 47.

The specific working principle of the first feeding mechanism is as follows:

first, it should be noted that the FIN 100 at the lowermost end in the conveying through slot 22 is located between the upper flange plate 43 and the lower flange plate 44, and in operation, the moving rod 46 is driven by the first air cylinder 45 to move forward, so that the rotating member 41 swings and moves by the angle, as shown in fig. 3, the lower flange plate 44 is separated from the FIN 100, the upper flange plate 43 is located below the penultimate FIN 100, and the penultimate FIN 100 is limited from falling downward, and the FIN 100 at the lowermost end falls downward and falls onto the second feeding mechanism; then, the moving rod 46 moves backward, so that the upper flange plate 43 and the lower flange plate 44 swing in opposite directions, as shown in fig. 4, at which time the upper flange plate 43 and the lower flange plate 44 are both directly under the FIN sheet 100, the rotary member 41 continues to swing, at which time the upper flange plate 43 is separated from the FIN sheet 100 while the FIN sheet 100 falls on the lower flange plate 44; then, the rotary member 41 swings in the opposite direction to feed the FIN sheets 100 one by one.

Referring to fig. 1, 6-7, grooves 51 for placing FIN sheets 100 are respectively disposed on both left and right sides of an upper end of the FIN penetrating jig 2, the second feeding mechanism includes sliding members 52 disposed on both sides of the fixing base 1, a conveying rod 53 is disposed at an interval on one side of the sliding member 52, a recessed area 54 is disposed at an upper end of a front side of the conveying rod 53, the FIN sheets 100 in the conveying groove 22 fall into the recessed area 54, first straight wire rod motors 55 are respectively disposed on both left and right sides of the fixing base 1, a wire rod sleeve on the first straight wire rod motor 55 is fixedly connected with the sliding member 52, so as to drive the FIN sheets 100 on the conveying rod 53 to be conveyed into the grooves 51, insertion grooves 58 into which the conveying rod 53 can be inserted are disposed on both front and rear sides of the grooves 51, a limit stopper 56 is disposed on an outer side of the grooves 51, and an inclined plane structure 57 is disposed on an outer side of the limit stopper 56, the inner side is a straight surface for restraining the FIN 100 in the groove 51.

The specific working principle of the second feeding mechanism is as follows:

when the FIN 100 falls into the concave 54 of the transmission rod 53, the first linear-wire motor 55 drives the sliding member 52 and the transmission rod 53 to move towards the direction of passing through the FIN jig 2, because the outer side of the limit stop 56 is the inclined surface structure 57, the FIN 100 can enter the groove 51 through the inclined surface structure 57, and then the transmission rod 53 resets backwards, and the FIN 100 is limited by the limit stop 56, so that the FIN 100 is limited in the groove 51.

Elevating system is in including setting up vertical fagging 61 in unable adjustment base 1 rear side the upper end of vertical fagging 61 is equipped with second lead screw motor 62 the outer upper and lower slip of vertical fagging 61 is equipped with removes seat 63, the lead screw cover on the second lead screw motor 62 with remove seat 63 fixed connection, fixed subassembly 4 sets up on removing seat 63.

The fixing assembly 4 comprises a fixing plate 71 arranged on one side of the moving seat 63 and used for fixing the heat sink base 110, a second cylinder 72 is arranged on the moving seat 63 and above the fixing plate 71, a piston rod of the second cylinder 72 is provided with a pressing plate 73, when the heat sink base 110 is placed on the fixing plate 71, the heat pipe 3 is arranged vertically downwards, and the pressing plate 73 is used for pressing the heat sink base 110 and the heat pipe 3 tightly; in operation, the heat sink base 110 is placed on the fixing plate 71, the heat pipe 3 is disposed downward, and then the second cylinder 72 drives the pressing plate 73 to press the heat sink base 110 and the heat pipe 3.

In order to be able to place more FIN sheets on the placing rack 5, at four corners of the conveying through groove 22, there are provided upwardly extending stop bars 81, and FIN sheets 100 can be stacked between the stop bars 81.

The utility model discloses in, still including workstation 91, unable adjustment base 1 sets up on workstation 91.

The utility model discloses an equipment is still including the PLC controller, this PLC controller respectively with elevating system, intermittent type conveying mechanism signal connection.

Wherein, all be provided with detection device on every work step for detect whether the PIN piece is on the station, if the FIN piece is not on the station or when loading askew, detection device can detect when with signal feedback PLC controller on, make equipment auto-stop and report to the police, and detection device is current conventional technology, and it gives unnecessary to describe here.

In combination with the basic principles and main features of the present invention and the advantages of the present invention as shown and described above, those skilled in the art should understand that the present invention is not limited by the above embodiments, and only the description in the above embodiments and the description illustrates the principles of the present invention without departing from the spirit and scope of the present invention, the present invention can also have various changes and improvements, and these changes and improvements all fall within the scope of the claimed invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (10)

1. The utility model provides a FIN mould is worn automatically in efficient heat dissipation which characterized in that: including unable adjustment base (1) be equipped with on unable adjustment base (1) and be used for placing FIN piece (100) wear FIN tool (2) the top of wearing FIN tool (2) is equipped with fixed subassembly (4) and elevating system who is used for fixed heat pipe (3), elevating system can drive thereby fixed subassembly (4) oscilaltion makes heat pipe (3) penetrate FIN piece (100) in wearing FIN tool (2) on unable adjustment base (1) and lie in the left and right sides of wearing FIN tool (2) and all be equipped with rack (5) that are used for stacking and treat installation FIN piece (100) rack (5) and wear to be connected with intermittent type conveying mechanism between FIN tool (2), intermittent type conveying mechanism can carry FIN piece (100) on rack (5) one by one to wearing FIN tool (2).

2. The efficient heat dissipation automatic FIN-piercing mold of claim 1, wherein: the placing frame (5) comprises a placing seat (21), wherein a conveying through groove (22) which is used for placing the FIN sheets (100) is formed in the placing seat (21) in a vertically penetrating mode.

3. The efficient heat dissipation automatic FIN-piercing mold of claim 2, wherein: the intermittent conveying mechanism comprises a first feeding mechanism and a second feeding mechanism, the first feeding mechanism is arranged below the placing seat (21) and used for conveying the FIN sheets (100) in the conveying through groove (22) to the second feeding mechanism one by one, and the second feeding mechanism is used for conveying the FIN sheets (100) on the second feeding mechanism to the FIN penetrating jig (2).

4. The efficient heat dissipation automatic FIN-piercing mold of claim 3, wherein: the first feeding mechanism comprises a plurality of rotating pieces (41) which are arranged at two sides of the conveying through groove (22) at intervals, the center of the rotating piece (41) is hinged on the placing seat (21), the left end and the right end of the rotating piece (41) are respectively provided with an intermittent feeding part and a driving swinging shaft (42), the intermittent feeding part comprises an upper flange plate (43) and a lower flange plate (44) which are arranged at intervals in the front-back direction, the upper flange plate (43) and the lower flange plate (44) are arranged at intervals up and down and can respectively limit the movement of two FIN sheets (100) which are adjacent up and down, a first cylinder (45) is arranged at the rear side of the placing seat (21), a moving rod (46) is arranged on a piston rod of the first cylinder (45), notches (47) corresponding to the driving swing shafts (42) are formed in the moving rod (46), and the driving swing shafts (42) are correspondingly arranged in the notches (47).

5. The efficient heat dissipation automatic FIN-piercing mold of claim 3, wherein: the fixture is characterized in that grooves (51) for placing FIN pieces (100) are formed in the left side and the right side of the upper end of the FIN penetrating fixture (2), the second feeding mechanism comprises sliding pieces (52) arranged on the two sides of the fixed base (1), conveying rods (53) are arranged on one side of each sliding piece (52) at intervals, a recessed area (54) is formed in the upper end of the front side of each conveying rod (53), the FIN pieces (100) in the conveying through grooves (22) fall into the recessed area (54), first straight wire rod motors (55) are further arranged on the left side and the right side of the fixed base (1) respectively, wire rod sleeves on the first straight wire rod motors (55) are fixedly connected with the sliding pieces (52), so that the FIN pieces (100) on the conveying rods (53) are driven to be conveyed into the grooves (51), insertion grooves (58) which can enable the conveying rods (53) to be inserted are formed in the front side and the rear side of each groove (51), the outer side of the groove (51) is provided with a limit stop (56), the outer side of the limit stop (56) is of an inclined surface structure (57), and the inner side of the limit stop is a straight body surface and used for limiting the FIN sheet (100) in the groove (51).

6. The efficient heat dissipation automatic FIN-piercing mold of claim 1, wherein: elevating system is in including setting up vertical fagging (61) of unable adjustment base (1) rear side the upper end of vertical fagging (61) is equipped with second lead screw motor (62) vertical fagging (61) outer upper and lower slip is equipped with and removes seat (63), lead screw cover on second lead screw motor (62) with remove seat (63) fixed connection, fixed subassembly (4) set up on removing seat (63).

7. The automatic FIN mould of passing of high efficiency heat dissipation of claim 6, wherein: fixed subassembly (4) are including setting up fixed plate (71) that one side of removal seat (63) is used for fixed radiator base (110) be equipped with the top that is located fixed plate (71) on removing seat (63) and be equipped with second cylinder (72), the piston rod of second cylinder (72) is equipped with clamp plate (73), and when radiator base (110) were placed at fixed plate (71), heat pipe (3) vertically set up downwards, just clamp plate (73) are used for compressing tightly radiator base (110) and heat pipe (3).

8. The efficient heat dissipation automatic FIN-piercing mold of claim 2, wherein: stop rods (81) extending upwards are arranged at four corners of the conveying through groove (22), and FIN sheets (100) can be stacked between the stop rods (81).

9. The efficient heat dissipation automatic FIN-piercing mold of claim 1, wherein: still including workstation (91), unable adjustment base (1) sets up on workstation (91).

10. The efficient heat dissipation automatic FIN-piercing mold of claim 1, wherein: the equipment also comprises a PLC controller which is respectively connected with the lifting mechanism and the intermittent conveying mechanism by signals.

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