CN213998275U - Production equipment for shape correcting device and radiating fin - Google Patents

Abstract

The utility model discloses a orthopedic device, including the support frame, be provided with the transmission line on the support frame, the both sides of transmission line are provided with and block the piece, and one side that blocks the piece is provided with first flattening structure, is provided with second flattening structure along the transmission line direction, and the fin is adjusted well through blocking piece and transmission line and is just corrected through first flattening structure and second flattening structure in proper order to make the appearance of fin level and smooth. The production equipment of the radiating fin comprises a multi-point welding machine, wherein a belt transmission line is arranged on one side of the multi-point welding machine, a chain transmission line is arranged above the belt transmission line, and the shape righting device is arranged on the chain transmission line. The utility model provides an orthopedic device, which is characterized in that the shape of a radiating fin seriously deformed after butt welding is straightened for two times, so that the radiating fin is basically straight; the double-layer transmission line is designed to realize the layered transmission of the radiating fins, and the automation of the production of the radiating fins is realized.

Description

Production equipment for shape correcting device and radiating fin

Technical Field

The utility model relates to a technical field of oil spit of fland production especially relates to a production facility of orthopedic device and fin.

Background

The oil heater radiating fin is produced manually, after the radiating fin is welded by multiple spot welding, the radiating fin is transmitted to a seam welder through a belt transmission line, a worker operating the seam welder takes out the radiating fin, takes off the radiating fin welded by the seam welder, and then puts the radiating fin which is not welded on the seam welder to complete a seam welding process. The employee places the seam welded fins on a transfer line where they are transported to a leveler. The high temperature that produces because of the seam welding leads to the fin to warp seriously, and receives factors such as equipment, environment, material, and the fin deflection and deformation direction are uncertain, and the evener start personnel must beat the fin flat, and the flattening manipulator can snatch the fin and accomplish the flattening process. The production process of the oil heater radiating fin needs manual operation to be completed, after a plurality of processes are completed, an operator needs to convey a semi-finished product after the processes are completed to a next station, meanwhile, the problem of mixed line transmission is easily caused by the multi-spot welded radiating fin and the seam welded radiating fin, the shape correction of the radiating fin needs to be completed by manual operation, and therefore the labor intensity of the operator is high, and the production efficiency is low.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a production facility of orthopedic device and fin to solve the orthopedic process of fin that mentions in the background art and need manual operation to accomplish, the big technical problem that production efficiency is low of intensity of labour.

In order to achieve the above object, the present invention provides a production apparatus for an orthopedic device and a heat sink, which comprises:

the utility model provides an orthopedic device, includes the support frame, is provided with the transmission line on the support frame, and the both sides of transmission line are provided with blocks, and one side that blocks the piece is provided with first flattening structure, is provided with second flattening structure along the transmission line direction, and the fin is adjusted well through blocking piece and transmission line and is just corrected the orthopedic appearance that makes the fin through first flattening structure and second flattening structure in proper order and level.

Further, first flattening structure includes first support, and the top of first support is provided with the extension board, and extension board and first support set up perpendicularly, are provided with first cylinder on the extension board, and the both sides of first cylinder are connected with the clamping jaw respectively for the upper surface of fin and the inner wall looks butt of first support.

Furthermore, the first support forms a square frame, a transmission space of the radiating fins is formed in the middle of the square frame, the square frame comprises two cross beams which are oppositely arranged, the two cross beams which are oppositely arranged are connected through a longitudinal rod, and a pressing plate is arranged on the cross beam at the top relative to the transmission space.

Further, the second leveling structure comprises a second support, the second support is a square frame, and a pressing plate is arranged on the lower surface of the top cross beam of the second support.

Furthermore, a second cylinder is arranged on a cross beam arranged at the bottom of the second support, an ejector plate is arranged on the second cylinder, and the second cylinder drives the ejector plate to eject the radiating fins out of the transmission line, so that the ejector plate pushes the radiating fins to be abutted against the pressing plate.

Further, the blocking block is of a strip-shaped block structure, and the upper surface of one end of the blocking block is an inclined surface.

The utility model provides a production facility of fin, includes the multiple spot welder, and one side of multiple spot welder is provided with the belt transmission line, and the top of belt transmission line is provided with the chain transmission line, is provided with above on the chain transmission line orthopedic device, the end of chain transmission line is provided with the evener, and one side of chain transmission line sets up a plurality of robots, and one side of a plurality of robots is provided with the seam welder.

Further, a discharge port is formed in the multipoint welding machine, a belt transmission line is arranged below the discharge port, and the discharge direction of the multipoint welding machine is perpendicular to the belt transmission direction.

Further, storage device includes the belt conveying line body, and the belt conveying line body sets up in the below setting of belt transmission line, and the belt conveying line body sets up with belt transmission line is perpendicular, and one side of storage device is provided with the stand, is provided with the mount on the stand, and the mount setting is in one side of belt transmission line, and one side that is close to belt transmission line on the mount is provided with the stock guide, and one side of stock guide is provided with the material turning plate.

Furthermore, the guide plate is arranged to be an inclined plane, the guide plate is overlapped on the upper surface of the material turning plate, the material turning plate comprises two turning plates capable of rotating relatively, a rotating shaft is connected to two opposite side walls of the fixing frame, and the two turning plates on the material turning plate are rotatably connected to the rotating shaft.

Further, the robot includes the manipulator, and manipulator swing joint presss from both sides and gets the device, presss from both sides and gets the device and include the connecting rod, and the bottom fixedly connected with connecting plate of connecting rod, connecting plate are the I shape, and one side of connecting plate is provided with the first subassembly that snatchs.

Further, the first subassembly of snatching includes die clamping cylinder, and die clamping cylinder sets up on the connecting rod, and the connecting cylinder is connected with the clamping jaw, and the clamping jaw is used for pressing from both sides the clamp and gets the fin.

Furthermore, the other side of connecting rod is provided with the second and snatchs the subassembly, and the second snatchs the subassembly and includes die clamping cylinder, is provided with the clamping jaw on the die clamping cylinder, snatchs subassembly fixed connection's connecting rod one side with the second and is provided with the material cylinder of pressing, and the second snatchs the subassembly and places the blowing device that sets up on the chain transmission line with the fin after the seam welding is accomplished.

Further, the blowing device includes the mounting panel, and the both ends of mounting panel are vertical to be connected with the mounting panel, and the mounting panel level is provided with the fixed plate, and fixed plate fixedly connected with biax cylinder, biax cylinder swing joint have the blowing board, place the fin on the two relative blowing boards that set up.

The utility model discloses a production facility of orthopedic device and fin has following advantage:

the utility model provides an orthopedic device, which is characterized in that the shape of a radiating fin seriously deformed after butt welding is straightened for two times, so that the radiating fin is basically straight; according to the production equipment of the radiating fin, the double-layer transmission line is designed to realize the layered transmission of the radiating fin, so that the transmission efficiency of the radiating fin after multi-point welding and seam welding is improved; the blocking guide plate is arranged to lift the radiating fins, so that the radiating fins are aligned and transmitted on the transmission chain, the alignment accuracy of the radiating fins is improved, and the automation of the production of the radiating fins is realized.

Drawings

Fig. 1 is a schematic structural view of a production facility of the heat sink of the present invention;

FIG. 2 is an enlarged view of a portion of the orthopedic device of FIG. 1 according to the present invention;

fig. 3 is a partially enlarged view of the storage device shown in fig. 1 according to the present invention;

fig. 4 is a schematic structural view of the gripping device of the present invention;

fig. 5 is a schematic structural view of the discharging device of the present invention.

The reference numbers in the figures illustrate: 1. a seam welder; 2. a gripping device; 21. a connecting rod; 211. a flange plate; 212. a connecting plate; 213. a heat sink; 214. a clamping jaw; 215. a clamping cylinder; 3. a leveling machine; 4. a multi-spot welding machine; 5. a belt transmission line; 6. a chain transmission line; 61. a support frame; 7. a material storage device; 71. a material guide plate; 72. a material turning plate; 73. a fixed mount; 74. a column; 75. a material pushing cylinder; 8. an orthopedic device; 81. a blocking block; 82. a first leveling structure; 821. a first bracket; 822. a first cylinder; 83. a second leveling structure; 831. a second bracket; 832. pressing a plate; 833. a second cylinder; 9. a discharging device; 91. mounting a plate; 911. an adjustment hole; 92. a mounting plate; 93. a fixing plate; 94. a double-shaft cylinder; 95. a material placing plate; 96. a reinforcing plate.

Detailed Description

Exemplary embodiments of the present disclosure will be described in more detail below with reference to the accompanying drawings. While exemplary embodiments of the present disclosure are shown in the drawings, it should be understood that the present disclosure may be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the disclosure to those skilled in the art.

It will be understood by those within the art that, unless otherwise defined, all terms (including technical and scientific terms) used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. It will be further understood that terms, such as those defined in commonly used dictionaries, should be interpreted as having a meaning that is consistent with their meaning in the context of the prior art and will not be interpreted in an idealized or overly formal sense unless expressly so defined herein.

As shown in fig. 2, the utility model provides a orthopedic device mainly uses a process in the oil spit of fland production facility, and fin 213 after seam welder 1 welding is accomplished carries out the flattening of fin 213 through orthopedic device 8, and fin 213 after the flattening gets into evener 3 and carries out the final correction flattening. Orthopedic device 8 mainly includes support frame 61, is provided with the transmission line on the support frame 61, sets gradually first flattening structure 82 and second flattening structure 83 along the direction of motion on the transmission line, and fin 213 transmits on the transmission line and passes through first flattening structure 82 and second flattening structure 83 in proper order for the appearance of fin 213 is level and smooth, thereby is favorable to follow-up clamp to get device 2 and is convenient for press from both sides and get fin 213, solves the manipulator and can not hold fin 213 problem because of what fin 213 unevenness led to.

The first leveling structure 82 comprises a first support 821, an extension plate is arranged at the top of the first support 821, the extension plate and the first support 821 are vertically arranged, a first air cylinder 822 is arranged on the extension plate, clamping jaws 214 are respectively connected to two sides of the first air cylinder 822, and therefore the heat dissipation sheet 213 on the transmission line can be conveniently lifted, and the upper surface of the heat dissipation sheet 213 is abutted to the inner wall of the first support 821.

The first bracket 821 forms a square frame, and specifically includes two oppositely arranged beams, the two oppositely arranged beams are connected through a vertical rod, a transmission space of the heat dissipation sheet 213 is formed in the middle of the square frame, the heat dissipation sheet 213 is transmitted in the square frame, a pressing plate 832 is arranged on the beam at the top relative to the transmission space, and the pressing plate 832 is arranged in a square plate-shaped structure, so that the first cylinder 822 drives to clamp and lift the heat dissipation sheet 213, the heat dissipation sheet 213 is abutted to the pressing plate 832, and the heat dissipation sheet 213 is flattened by using the pressing force of the pressing plate 832 on the heat dissipation sheet 213.

The heat dissipation fins 213 passing through the first leveling structure 82 continue to move on the transmission line until the second leveling structure 83 is moved to perform secondary leveling, the second leveling structure 83 includes a second bracket 831, the second bracket 831 is configured as a square frame, a pressing plate 832 is arranged on the lower surface of the top beam of the second bracket 831, the pressing plate 832 has the same structure as the pressing plate 832 on the first bracket 821, and the heat dissipation fins 213 are leveled by a pressing force.

A cross beam arranged at the bottom of the second support 831 is provided with a second cylinder 833, the second cylinder 833 is provided with an ejector plate, the second cylinder 833 drives the ejector plate to eject the radiating fin 213 out of the transmission line, so that the ejector plate pushes the radiating fin 213 to abut against the pressing plate 832, and pressure generated between the ejector plate and the pressing plate 832 flattens the radiating fin 213.

The chain transmission line 6 further comprises an alignment structure, the radiating fins 213 are aligned before the leveling structure, the two sides of the chain transmission line 6 are provided with the blocking blocks 81, one end of each blocking block 81 is provided with an inclined surface, the radiating fins 213 enable the radiating fins 213 to be separated from the chain transmission line 6 through the blocking blocks 81, and the radiating fins 213 contact the chain accessories under the pushing of the chain accessories, so that the radiating fins 213 are aligned.

As shown in fig. 1, the utility model provides a production facility of fin, including multipoint welding machine 4, one side of multipoint welding machine 4 is provided with belt transmission line 5, and belt transmission line 5's top is provided with chain transmission line 6, is provided with above on the chain transmission line 6 orthopedic device 8, chain transmission line 6's end is provided with evener 3, and one side of chain transmission line 6 sets up a plurality of robots, and one side of a plurality of robots is provided with seam welder 1 to fin 213 that the multipoint welding was accomplished transmits to seam welding, places fin 213 on chain transmission line 6 after the seam welding is finished, and fin 213 transmits to evener 3 after orthopedic device 8 flattening, accomplishes the whole production process of fin 213.

A discharge port is formed in the multipoint welding machine 4, a belt transmission line 5 is arranged below the discharge port, the discharge direction of the multipoint welding machine 4 is perpendicular to the belt transmission direction, the radiating fins 213 fall onto the belt transmission line 5 after slipping off from the multipoint welding machine 4, a stepping type storage device 7 is arranged on the belt transmission line 5, and a material pushing cylinder 75 and a photoelectric sensor are arranged at the positions, corresponding to the belt transmission line 5 and the storage device 7, of the belt transmission line 5.

As shown in fig. 3, the storage device 7 includes a belt conveying line body, the belt conveying line body is disposed below the belt transmission line 5, the belt conveying line body and the belt transmission line 5 are disposed vertically, a column 74 is disposed on one side of the storage device 7, a fixing frame 73 is disposed on the column 74, the fixing frame 73 is disposed on one side of the belt transmission line 5, a material guide plate 71 is disposed on one side of the fixing frame 73 close to the belt transmission line 5, and a material turning plate 72 is disposed on one side of the material guide plate 71.

Further, the material guiding plate 71 is set as an inclined plane, the material guiding plate 71 is lapped on the upper surface of the material turning plate 72, the material turning plate 72 comprises two turning plates capable of rotating relatively, two opposite side walls of the fixing frame 73 are connected with rotating shafts, the two turning plates on the material turning plate 72 are rotatably connected to the rotating shafts, under the action of gravity and inertia, the cooling fins 213 slide down from the material guiding plate 71 to one of the turning plates, under the action of gravity, the other material turning plate 72 rotates, and the cooling fins 213 slide down to the material storing device 7 arranged below the material guiding plate 71 and the material turning plate 72.

As shown in fig. 4, the robot includes a robot arm to which the gripping device 2 is movably attached, and the gripping device 2 is used to grip the soldered and unwelded heat sink 213, saving labor for the transfer of the heat sink 213 in each process step.

The clamping device 2 comprises a connecting rod 21, a flange plate 211 is arranged at the top of the connecting rod 21, the flange plate 211 is used for being connected with a mechanical arm, and the mechanical arm controls the movement of the clamping device 2 in any direction to grab the radiating fins 213.

The bottom fixedly connected with connecting plate 212 of connecting rod 21, connecting plate 212 are the I shape, and one side of connecting plate 212 is provided with the first subassembly of snatching, and the first subassembly of snatching is used for snatching fin 213, and the first subassembly of snatching is used for snatching not welded fin 213.

The first grasping assembly includes a clamp cylinder 215, the clamp cylinder 215 is disposed on the connecting rod 21, and a clamp jaw 214 is connected to the clamp cylinder 215, and the clamp jaw 214 is used for grasping the heat sink 213.

The other side of the connecting rod 21 is provided with a second grabbing component, and the second grabbing component is used for grabbing the heat radiating fins 213 welded by the seam welder 1.

The second grabbing component comprises a clamping cylinder 215, a clamping jaw 214 is arranged on the clamping cylinder 215, a material pressing cylinder is arranged on one side of a connecting rod 21 fixedly connected with the second grabbing component, and the second grabbing component places the heat radiating fins 213 subjected to seam welding on the material placing device 9 on the chain transmission line 6.

As shown in fig. 5, the material placing device 9 is used for storing the welded heat dissipation fins 213, the plurality of heat dissipation fins 213 are driven on the chain transmission line 6 at the same time, if the production process is too fast, the produced heat dissipation fins 213 are too many, the heat dissipation fins 213 are placed on the material placing device 9, the material placing device 9 also has a function of correcting the placement positions of the heat dissipation fins 213, and the heat dissipation fins 213 are automatically placed on the chain transmission line 6 when the placement requirements of the heat dissipation fins 213 on the chain transmission line 6 are met.

Blowing device 9 includes mounting panel 91, the vertical mounting panel 92 that is connected with in both ends of mounting panel 91, mounting panel 92 level is provided with fixed plate 93, fixed plate 93 fixedly connected with biax cylinder 94, biax cylinder 94 swing joint has blowing board 95, place fin 213 on the two relative blowing boards 95 that set up, after blowing device 9 received the blowing instruction, biax cylinder 94 relative motion, interval between two blowing boards 95 is greater than fin 213 length on length direction, fin 213 drops to chain transmission line 6 on, accomplish the blowing process.

The invention realizes the layered transmission of the radiating fins 213 by arranging the double-layer transmission line, and solves the problem of the mixed-line transmission of the radiating fins 213 after multi-spot welding and the radiating fins 213 after seam welding; the heat sink 213 is pushed onto the material guiding plate 71 by the material pushing cylinder 75, and the heat sink 213 will continue to slide onto the material turning plate 72 due to inertia and the inclination angle of the material guiding plate 71. Under the action of gravity, the material turning plate 72 rotates the radiating fins 213 to fall on the stepping type storage device 7, so that the problem that the radiating fins 213 are excessive from a belt line to the storage device 7 is solved; the double-station robot clamp is designed, the welded radiating fins 213 on the seam welder 1 are taken down firstly under the clamp holding state, and then the radiating fins 213 are placed on the seam welder 1, so that the material changing time is saved, and the efficiency is improved; the automatic shape righting device 8 of the radiating fin 213 corrects the radiating fin 213 which is seriously deformed after seam welding for one time or two times, so that the shape of the radiating fin 213 is basically straight, and the problem that the manipulator of the leveling machine 3 cannot grab the radiating fin 213 due to the unevenness of the radiating fin 213 is solved.

It is to be understood that the present invention has been described with reference to certain embodiments, and that various changes or equivalents may be substituted for elements thereof by those skilled in the art without departing from the spirit and scope of the invention. In addition, many modifications may be made to adapt a particular situation or material to the teachings of the invention without departing from the essential scope thereof. Therefore, the present invention is not limited to the specific embodiments disclosed herein, and all embodiments falling within the scope of the claims of the present application are intended to be covered by the present invention.

Claims (14)

1. The orthopedic device is characterized by comprising a supporting frame (61), wherein a transmission line is arranged on the supporting frame (61), blocking blocks (81) are arranged on two sides of the transmission line, a first leveling structure (82) is arranged on one side of each blocking block (81), a second leveling structure (83) is arranged along the direction of the transmission line, and a radiating fin (213) is aligned through the blocking blocks (81) and the transmission line and sequentially subjected to orthopedic through the first leveling structure (82) and the second leveling structure (83) so that the radiating fin (213) is flat in appearance.

2. The orthopedic device according to claim 1, characterized in that the first leveling structure (82) comprises a first support (821), an extension plate is arranged on the top of the first support (821), the extension plate and the first support (821) are vertically arranged, a first cylinder (822) is arranged on the extension plate, and clamping jaws (214) are respectively connected to two sides of the first cylinder (822), so that the upper surface of the heat dissipation fin (213) abuts against the inner wall of the first support (821).

3. The orthopedic device according to claim 2, characterized in that the first support (821) forms a square frame, the middle of which forms the transmission space for the cooling fins (213), the square frame comprising two oppositely arranged cross beams, which are connected by a longitudinal bar, the top cross beam being provided with a pressure plate (832) in relation to the transmission space.

4. The orthopedic device according to claim 1, characterized in that the second leveling structure (83) comprises a second brace (831), the second brace (831) being configured as a square frame, and a lower surface of a top cross member of the second brace (831) being provided with a pressure plate (832).

5. The orthopedic device according to claim 4, characterized in that a cross beam arranged at the bottom of the second bracket (831) is provided with a second cylinder (833), the second cylinder (833) is provided with an ejector plate, and the second cylinder (833) drives the ejector plate to eject the heat sink (213) out of the transmission line, so that the ejector plate pushes the heat sink (213) and the pressure plate (832) to abut against each other.

6. The orthopedic device according to claim 1, characterized in that the stopper (81) is a bar-shaped block structure, and an upper surface of one end of the stopper (81) is provided with a slope.

7. Production equipment for cooling fins, characterized by comprising a multipoint welding machine (4), wherein one side of the multipoint welding machine (4) is provided with a belt transmission line (5), a chain transmission line (6) is arranged above the belt transmission line (5), the chain transmission line (6) is provided with an orthopedic device according to any one of claims 1-6, the tail end of the chain transmission line (6) is provided with a leveling machine (3), one side of the chain transmission line (6) is provided with a plurality of robots, and one side of the robots is provided with a seam welding machine (1).

8. A production facility for cooling fins according to claim 7, characterized in that the multipoint welding machine (4) is provided with a discharge port, a belt transmission line (5) is arranged below the discharge port, and the discharge direction of the multipoint welding machine (4) is perpendicular to the belt transmission direction.

9. The production equipment of the heat radiating fins according to claim 7, wherein a stepping storage device (7) is arranged on the belt transmission line (5), the storage device (7) comprises a belt transmission line body, the belt transmission line body is arranged below the belt transmission line (5), the belt transmission line body and the belt transmission line (5) are vertically arranged, one side of the storage device (7) is provided with an upright post (74), a fixing frame (73) is arranged on the upright post (74), the fixing frame (73) is arranged on one side of the belt transmission line (5), one side of the fixing frame (73) close to the belt transmission line (5) is provided with a material guide plate (71), and one side of the material guide plate (71) is provided with a material turning plate (72).

10. The heat sink production equipment according to claim 9, wherein the material guiding plate (71) is configured as an inclined surface, the material guiding plate (71) is overlapped on the upper surface of the material turning plate (72), the material turning plate (72) comprises two turning plates capable of rotating relatively, two opposite side walls of the fixing frame (73) are connected with rotating shafts, and the two turning plates on the material turning plate (72) are rotatably connected with the rotating shafts.

11. The production equipment of the cooling fin, as recited in claim 7, characterized in that the robot comprises a manipulator, the manipulator is movably connected with the clamping device (2), the clamping device (2) comprises a connecting rod (21), the bottom of the connecting rod (21) is fixedly connected with a connecting plate (212), the connecting plate (212) is in an I shape, and one side of the connecting plate (212) is provided with a first grabbing component.

12. A heat sink production apparatus according to claim 11, wherein the first gripper assembly comprises a gripper cylinder (215), the gripper cylinder (215) being arranged on the connecting rod (21), the gripper cylinder (215) being connected to a gripper jaw (214), the gripper jaw (214) being adapted to grip the heat sink (213).

13. The production equipment of the cooling fin is characterized in that the other side of the connecting rod (21) is provided with a second grabbing component, the second grabbing component comprises a clamping cylinder (215), a clamping jaw (214) is arranged on the clamping cylinder (215), a pressing cylinder is arranged on one side of the connecting rod (21) fixedly connected with the second grabbing component, and the second grabbing component places the cooling fin (213) subjected to seam welding on a discharging device (9) arranged on the chain transmission line (6).

14. The production equipment of the cooling fin according to claim 13, wherein the discharging device (9) comprises a mounting plate (91), two ends of the mounting plate (91) are vertically connected with support plates (92), the support plates (92) are horizontally provided with fixing plates (93), the fixing plates (93) are fixedly connected with double-shaft cylinders (94), the double-shaft cylinders (94) are movably connected with discharging plates (95), and the cooling fins (213) are placed on the two oppositely arranged discharging plates (95).

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