CN112548717A - Roughening treatment device for radiating fins of CPU radiator - Google Patents

Abstract

The invention relates to a processing device, in particular to a roughening processing device for a CPU radiator fin. The invention provides a CPU radiator fin roughening device which can roughen the CPU radiator fins, clamp the CPU radiator fins, quickly push out the CPU radiator fins and collect the CPU radiator fins. The utility model provides a CPU radiator fin roughening treatment device, includes bottom plate, mounting bracket and collecting box, and the collecting box has been placed at the bottom plate top, is connected with feeding mechanism between bottom plate top and the mounting bracket, and grinding mechanism is installed on mounting bracket upper portion. The invention is provided with the feeding mechanism, and the feeding mechanism is matched with the polishing mechanism, so that the CPU radiator radiating fin can be conveyed and roughened; the blanking mechanism is matched with the feeding mechanism and can push the CPU radiator cooling fins at the bottommost part of the blanking box to the feeding table at intervals; the lifting mechanism is matched with the feeding mechanism and can pull the feeding table upwards.

Description

Roughening treatment device for radiating fins of CPU radiator

Technical Field

The invention relates to a processing device, in particular to a roughening processing device for a CPU radiator fin.

Background

The heat sink is a device for dissipating heat of an easily-heating electronic element in an electrical appliance, brass or bronze is made into a plate shape, a sheet shape, a multi-sheet shape and the like, for example, a CPU central processing unit in a computer needs to use a relatively large heat sink, a heat sink is generally coated with a layer of heat-conducting silicone grease on the contact surface between an electronic component and the heat sink when in use, so that heat generated by the component is more effectively conducted to the heat sink and then dissipated to the surrounding air through the heat sink, the volume of the heat sink is generally limited, the contact area between the heat sink and the air is increased, and the effective means for improving the heat dissipation efficiency needs to realize the point, the heat sink of the CPU heat sink is designed by using a fin type design and assisted by surface roughening or threads, etc. to increase the surface area, a worker needs to consume great effort for manually roughening the heat sink of the CPU heat sink, and the worker is difficult to, and it takes a long time for a worker to manually push out the CPU heat sink fins after the roughening process is completed.

Therefore, it is desirable to design a roughening device for CPU heat sink fins, which can roughen the CPU heat sink fins, clamp the CPU heat sink fins tightly, push out the CPU heat sink fins quickly, and collect the CPU heat sink fins.

Disclosure of Invention

The invention aims to provide a CPU radiator fin roughening device which can roughen and clamp CPU radiator fins, quickly push out the CPU radiator fins and collect the CPU radiator fins, so as to solve the defects that in the background technology, a worker needs to consume a large amount of force for roughening the CPU radiator fins manually, the worker is difficult to clamp the CPU radiator fins manually, and the worker needs to consume a long time for pushing out the CPU radiator fins manually after roughening treatment.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a CPU radiator fin roughening treatment device, includes bottom plate, mounting bracket and collecting box, and the collecting box has been placed at the bottom plate top, is connected with feeding mechanism between bottom plate top and the mounting bracket, and grinding mechanism is installed on mounting bracket upper portion.

As further preferred scheme, bottom plate top bilateral symmetry is equipped with the slide bar, and the quantity of slide bar is four, and the top and the mounting bracket of four slide bars are connected, and the slidingtype is equipped with the pay-off platform between four slide bars, all overlaps on four slide bars and is equipped with first spring, and the both ends of first spring are connected respectively on pay-off platform and slide bar, and pay-off platform top rigid coupling has the dog.

As a further preferred scheme, the upper portion of the mounting frame is provided with rotating shafts in an interval rotating manner, the number of the rotating shafts is nine, grinding wheels are mounted on the nine rotating shafts, a spur gear set is connected between the nine rotating shafts, the upper portion of the mounting frame is fixedly connected with a motor through bolts, and an output shaft of the motor is connected with the middle rotating shaft.

As a further preferred scheme, a blanking box is arranged at the top of the bottom plate, bases are symmetrically arranged on the top of the bottom plate, an air cylinder is fixedly connected to the upper portion of the base through bolts, a first support is arranged at the top of the bottom plate, a first connecting rod is slidably arranged on the first support and connected with a telescopic rod of the air cylinder, a pushing block is welded to the top end of the first connecting rod, and the pushing block is slidably matched with the blanking box.

As a further preferred scheme, the end of the first connecting rod is connected with a second connecting rod, the second connecting rod is provided with a rotary connecting block in a rotary manner, the second connecting rod is sleeved with a torsion spring, the two ends of the torsion spring are respectively connected onto the second connecting rod and the rotary connecting block, the top of the bottom plate is symmetrically provided with slide rails, a first wedge block is arranged between the two slide rails in a sliding manner, the two slide rails are respectively sleeved with a second spring, the two ends of the second spring are respectively connected onto the slide rails and the first wedge block, a second wedge block is fixedly connected to the middle of the bottom of the feeding table, and the second wedge block is in contact fit with the first wedge.

As a further preferred scheme, the bilateral symmetry of pay-off platform bottom is equipped with the second support, and the equal slidingtype in second support both sides is equipped with first movable rod, and the cover is equipped with the third spring on the first movable rod, and the both ends of third spring are connected respectively on first movable rod and second support, and the slidingtype in first movable rod upper portion is equipped with the second movable rod, and the tip welding of second movable rod has the clamp splice, and the cover is equipped with the fourth spring on the second movable rod, and the both ends of fourth spring are connected respectively on clamp splice and first movable rod.

As a further preferable scheme, a third support is fixedly connected to the upper portion of the mounting frame, a third movable rod is slidably arranged in the third support, a fifth spring is sleeved on the third movable rod, and two ends of the fifth spring are respectively connected to the third movable rod and the third support.

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

1. the invention is provided with the feeding mechanism, and the feeding mechanism is matched with the polishing mechanism, so that the CPU radiator radiating fin can be conveyed and roughened;

2. the blanking mechanism is matched with the feeding mechanism and can push the CPU radiator cooling fins at the bottommost part of the blanking box to the feeding table at intervals;

3. the lifting mechanism is matched with the feeding mechanism, and the feeding table can be pulled upwards at intervals, so that the labor intensity of workers is effectively reduced;

4. the positioning mechanism is matched with the feeding mechanism, so that the radiating fins of the CPU radiator can be clamped, and the stability of the radiating fins of the CPU radiator is improved;

5. the discharging mechanism is matched with the feeding mechanism, and can push the CPU radiator radiating fins to the front side at intervals according to use requirements and collect the CPU radiator radiating fins.

Drawings

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

Fig. 2 is a schematic perspective view of the feeding mechanism of the present invention.

Fig. 3 is a schematic perspective view of a grinding mechanism according to the present invention.

Fig. 4 is a schematic perspective view of the blanking mechanism of the present invention.

Fig. 5 is a schematic perspective view of a first lifting mechanism according to the present invention.

Fig. 6 is a schematic perspective view of a second lifting mechanism according to the present invention.

Fig. 7 is a schematic perspective view of the positioning mechanism of the present invention.

Fig. 8 is a schematic perspective view of the discharging mechanism of the present invention.

The meaning of the reference symbols in the figures: 1: bottom plate, 2: mounting frame, 3: collection box, 4: feeding mechanism, 41: slide bar, 42: first spring, 43: a feeding table, 44: a stopper, 5: grinding mechanism, 51: rotating shaft, 52: grinding wheel, 53: spur gear set, 54: a motor, 6: unloading mechanism, 61: a blanking box, 62: base, 63: cylinder, 64: first connecting rod, 65: first bracket, 66: push block, 7: lifting mechanism, 71: second connecting rod, 72: rotary type connecting block, 73: torsion spring, 74: slide rail, 75: first wedge block, 76: second wedge block, 77: second spring, 8: positioning mechanism, 81: second bracket, 82: first movable bar, 83: third spring, 84: second movable bar, 85: fourth spring, 86: clamping block, 9: discharge mechanism, 91: third bracket, 92: third movable bar, 93: and a fifth spring.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-8, the present invention provides a technical solution: a roughening treatment device for a CPU radiator fin comprises a bottom plate 1, a mounting frame 2, a collecting box 3, a feeding mechanism 4, a sliding rod 41, a first spring 42, a feeding table 43, a stop block 44, a grinding mechanism 5, a rotating shaft 51, a grinding wheel 52, a spur gear set 53, a motor 54, a blanking mechanism 6, a blanking box 61, a base 62, an air cylinder 63, a first connecting rod 64, a first support 65, a push block 66, a lifting mechanism 7, a second connecting rod 71, a rotary connecting block 72, a torsion spring 73, a sliding rail 74, a first wedge-shaped block 75, a second wedge-shaped block 76, a second spring 77, a positioning mechanism 8, a second support 81, a first movable rod 82, a third spring 83, a second movable rod 84, a fourth spring 85, a clamping block 86, a discharging mechanism 9, a third support 91, a third movable rod 92 and a fifth spring 93, wherein the top of the mounting frame 2 is arranged at the top of the bottom plate 1, the collecting box 3 is arranged at the front side of, a feeding mechanism 4 is connected between the top of the bottom plate 1 and the mounting rack 2, and a polishing mechanism 5 is installed on the upper portion of the mounting rack 2.

The left side and the right side of the top of the bottom plate 1 are symmetrically provided with four sliding rods 41, the top ends of the four sliding rods 41 are connected with the mounting frame 2, a feeding table 43 is arranged between the four sliding rods 41 in a sliding manner, the four sliding rods 41 are sleeved with first springs 42, two ends of each first spring 42 are connected to the feeding table 43 and the corresponding sliding rod 41 respectively, and a stop block 44 is fixedly connected to the right side of the top of the feeding table 43.

The upper portion interval rotary type of mounting bracket 2 is equipped with axis of rotation 51, and the quantity of axis of rotation 51 is nine, all installs emery wheel 52 on nine axis of rotation 51, is connected with spur gear group 53 between nine axis of rotation 51 rear sides, and the bolt rigid coupling has motor 54 on mounting bracket 2, and the output shaft of motor 54 is connected with middle axis of rotation 51.

The left side of the top of the bottom plate 1 is provided with a blanking box 61, the left side of the top of the bottom plate 1 is symmetrically provided with a base 62, the upper part of the base 62 is fixedly connected with a cylinder 63 through a bolt, the left side of the top of the bottom plate 1 is provided with a first support 65, a first connecting rod 64 is slidably arranged on the first support 65, the first connecting rod 64 is connected with an expansion rod of the cylinder 63, the top end of the first connecting rod 64 is welded with a push block 66, and the push block 66 is slidably matched with the.

The right-hand member of first connecting rod 64 is connected with second connecting rod 71, second connecting rod 71 right side rotary type is equipped with rotary type connecting block 72, the cover is equipped with torsion spring 73 on the second connecting rod 71, torsion spring 73's both ends are connected respectively on second connecting rod 71 and rotary type connecting block 72, bottom plate 1 top right side symmetry is equipped with slide rail 74, slidingtype is equipped with first wedge 75 between two slide rails 74, all the cover is equipped with second spring 77 on two slide rails 74, slide rail 74 and first wedge 75 are connected respectively at the both ends of second spring 77, the rigid coupling has second wedge 76 in the middle of the pay-off platform 43 bottom, second wedge 76 and the contact cooperation of first wedge 75.

The left side and the right side of the bottom of the feeding table 43 are symmetrically provided with a second support 81, a first movable rod 82 is arranged between the front side and the rear side of the second support 81 in a sliding manner, a third spring 83 is sleeved on the rear side of the first movable rod 82, two ends of the third spring 83 are respectively connected to the first movable rod 82 and the second support 81, a second movable rod 84 is arranged on the upper portion of the rear side of the first movable rod 82 in a sliding manner, a clamping block 86 is welded at the front end of the second movable rod 84, a fourth spring 85 is sleeved on the second movable rod 84, and two ends of the fourth spring 85 are respectively connected to the clamping block 86 and the first movable rod 82.

A third support 91 is fixedly connected to the upper portion of the right side of the mounting frame 2, a third movable rod 92 is arranged on the third support 91 in a sliding mode, a fifth spring 93 is sleeved on the third movable rod 92, and two ends of the fifth spring 93 are connected to the third movable rod 92 and the third support 91 respectively.

When a worker needs to perform roughening treatment on the CPU radiator fins, the worker firstly needs to put the CPU radiator fins on the feeding mechanism 4, when the CPU radiator fins are positioned on the feeding mechanism 4, the worker needs to pull the feeding mechanism 4 upwards, the feeding mechanism 4 is stretched, the feeding mechanism 4 moves upwards to drive the CPU radiator fins to move upwards, when the CPU radiator fins move upwards to be close to the polishing mechanism 5, the worker needs to control the polishing mechanism 5 to rotate, the polishing mechanism 5 can rotate to perform roughening treatment on the CPU radiator fins, when the worker temporarily does not need to perform roughening treatment on the CPU radiator fins, the worker needs to close the polishing mechanism 5, at the moment, the polishing mechanism 5 temporarily stops performing roughening treatment on the CPU radiator fins, then the worker needs to quickly loosen the feeding mechanism 4, and the feeding mechanism 4 has a resetting function, the feeding mechanism 4 can drive the CPU radiator fins to move downwards, if workers need to continue to conduct roughening treatment on the CPU radiator fins, the workers need to replace the CPU radiator fins on the feeding mechanism 4, then the workers repeat the operation again, and the device can conduct conveying and roughening treatment on the CPU radiator fins.

Firstly, a worker needs to put the CPU radiator fins on the feeding table 43, after the CPU radiator fins are positioned on the feeding table 43, the worker needs to pull the feeding table 43 to slide upwards on the sliding rod 41, the first spring 42 is stretched, the feeding table 43 slides upwards to drive the CPU radiator fins to slide upwards, the stop 44 can limit the CPU radiator fins, when the worker needs to replace and take out the CPU radiator fins on the feeding table 43, the worker needs to quickly loosen the feeding table 43, the first spring 42 is reset, the feeding table 43 is pulled to slide downwards on the sliding rod 41 by the first spring 42, the stop 44 is driven to move downwards by the feeding table 43 sliding downwards, at this time, the worker can take out the CPU radiator fins on the feeding table 43, and if the worker needs to continue to perform roughening treatment on the CPU radiator fins, the worker repeats the above operations again, the device can make the CPU radiator fins be positioned in the grinding mechanism 5 at intervals.

When the CPU radiator fins move upwards to be close to the grinding wheel 52, a worker needs to start the motor 54 to rotate, the output shaft of the motor 54 rotates to drive the middle rotating shaft 51 to rotate, the other rotating shafts 51 are driven to rotate through the spur gear set 53, the rotating shaft 51 rotates to drive the grinding wheel 52 to rotate, the grinding wheel 52 rotates to perform roughening processing on the CPU radiator fins, when the worker does not need roughening processing on the CPU radiator fins temporarily, the worker needs to turn off the motor 54, the grinding wheel 52 stops roughening processing on the CPU radiator fins temporarily, if the worker needs to continue roughening processing on the CPU radiator fins, the worker repeats the operation again, and the device can adaptively roughen the CPU radiator fins as required.

The process of manually replacing the CPU heat sink fins on the feeding table 43 is complicated, so that the worker needs to put the CPU heat sink fins in the feeding box 61 first, the worker needs to start the cylinder 63 to extend and contract, when the extension rod of the cylinder 63 extends, the extension rod of the cylinder 63 drives the first connecting rod 64 to slide to the right side in the first bracket 65, the first connecting rod 64 slides to the right side to drive the push block 66 to move to the right side, the push block 66 moves to the right side to penetrate through the feeding box 61, the push block 66 pushes the CPU heat sink fins at the bottommost part of the feeding box 61 to the feeding table 43, the base 62 plays a supporting role, when the extension rod of the cylinder 63 contracts, the extension rod of the cylinder 63 drives the first connecting rod 64 to slide to the left side in the first bracket 65, the first connecting rod 64 slides to the left side to drive the push block 66 to move to the left side to reset, when the extension rod of the cylinder, the pushing block 66 will push the CPU radiator fins at the bottommost portion of the blanking box 61 to the feeding table 43 again.

When the telescopic rod of the air cylinder 63 extends, the telescopic rod of the air cylinder 63 drives the second connecting rod 71 to move to the right, the second connecting rod 71 moves to the right to drive the rotary connecting block 72 to move to the right, the rotary connecting block 72 moves to the right to contact with the first wedge-shaped block 75, the rotary connecting block 72 rotates, the torsion spring 73 is extended, when the rotary connecting block 72 passes through the first wedge-shaped block 75, the torsion spring 73 drives the rotary connecting block 72 to rotate and reset, when the telescopic rod of the air cylinder 63 contracts, the second connecting rod 71 and the rotary connecting block 72 are driven to move to the left, the rotary connecting block 72 drives the first wedge-shaped block 75 to slide to the left on the slide rail 74, the second spring 77 compresses, the first wedge-shaped block 75 drives the second wedge-shaped block 76 to move upwards in contact with the first wedge-shaped block 75, so as to drive the feeding table 43 to move upwards, when the first wedge block 75 moves to the leftmost side, the movement is stopped, the rotary connecting block 72 rotates, the torsion spring 73 is stretched, when the rotary connecting block 72 passes through the first wedge block 75, the torsion spring 73 drives the rotary connecting block 72 to rotate and reset, then the second spring 77 drives the first wedge block 75 to move rightwards and reset, the first wedge block 75 is separated from the second wedge block 76, the second wedge block 76 and the feeding table 43 move downwards and reset, so that the device can push the feeding table 43 upwards at intervals, and the labor intensity of workers is effectively relieved.

In order to increase the stability of the CPU heat sink fins, after the worker places the CPU heat sink fins on the feeding table 43, the clamping block 86 is pushed backward, the fourth spring 85 is compressed, then the CPU heat sink fins are placed on the feeding table 43, the clamping block 86 is released, the clamping block 86 clamps the CPU heat sink fins under the action of the fourth spring 85, when the worker needs to take out the CPU heat sink fins on the feeding table 43, the above operations are repeated, and after the CPU heat sink fins are taken out, the fourth spring 85 returns to the original state, and drives the clamping block 86 to move forward and reset.

The process of manually taking out the CPU radiator fin on the feeding table 43 is complicated, so the worker needs to push the third movable rod 92 to slide forward in the third bracket 91, the fifth spring 93 is compressed, when the third movable rod 92 moves forward and contacts with the first movable rod 82 at the rear side, the first movable rod 82 is driven to move downward, the third spring 83 is compressed, when the third movable rod 92 contacts with the CPU radiator fin, the third movable rod 92 pushes the CPU radiator fin to move forward, the CPU radiator fin moves forward and falls into the collecting box 3 for collection, then the third movable rod 92 is released, the fifth spring 93 is reset, the fifth spring 93 pushes the third movable rod 92 to slide backward in the third bracket 91, when the third movable rod 92 separates from the first movable rod 82 at the rear side, the third spring 83 restores to the original state and drives the first movable rod 82 at the rear side to move upward, if the worker needs to continue to collect the CPU radiator fins, the worker repeats the operation again, and the device can push the CPU radiator fins to the front side at intervals according to the use requirement and collect the CPU radiator fins.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. The utility model provides a CPU radiator fin roughening treatment device, is including bottom plate (1), mounting bracket (2) and collecting box (3), characterized by, collecting box (3) have been placed at bottom plate (1) top, are connected with feeding mechanism (4) between bottom plate (1) top and mounting bracket (2), and grinding machanism (5) are installed on mounting bracket (2) upper portion.

2. The roughening treatment device for the radiating fins of the CPU radiator according to claim 1, wherein sliding rods (41) are symmetrically arranged on two sides of the top of the bottom plate (1), the number of the sliding rods (41) is four, the top ends of the four sliding rods (41) are connected with the mounting frame (2), a feeding table (43) is arranged between the four sliding rods (41) in a sliding manner, first springs (42) are sleeved on the four sliding rods (41), two ends of each first spring (42) are respectively connected to the feeding table (43) and the corresponding sliding rod (41), and a stop block (44) is fixedly connected to the top of the feeding table (43).

3. The roughening treatment device for the CPU radiator fins according to claim 2, wherein rotating shafts (51) are rotatably arranged at intervals on the upper portion of the mounting frame (2), the number of the rotating shafts (51) is nine, grinding wheels (52) are mounted on the nine rotating shafts (51), a spur gear set (53) is connected between the nine rotating shafts (51), a motor (54) is fixedly connected to the upper portion of the mounting frame (2) through bolts, and an output shaft of the motor (54) is connected with the middle rotating shaft (51).

4. The roughening treatment device for the CPU radiator fins according to claim 3, wherein a blanking box (61) is arranged at the top of the bottom plate (1), bases (62) are symmetrically arranged at the top of the bottom plate (1), the upper portion of each base (62) is fixedly connected with an air cylinder (63) through a bolt, a first support (65) is arranged at the top of the bottom plate (1), a first connecting rod (64) is slidably arranged on each first support (65), each first connecting rod (64) is connected with an expansion rod of each air cylinder (63), a push block (66) is welded at the top end of each first connecting rod (64), and each push block (66) is slidably matched with the blanking box (61).

5. The roughening treatment device for the CPU radiator fins according to claim 4, wherein a second connecting rod (71) is connected to an end of the first connecting rod (64), a rotating connecting block (72) is rotatably arranged on the second connecting rod (71), a torsion spring (73) is sleeved on the second connecting rod (71), two ends of the torsion spring (73) are respectively connected to the second connecting rod (71) and the rotating connecting block (72), sliding rails (74) are symmetrically arranged at the top of the bottom plate (1), a first wedge block (75) is slidably arranged between the two sliding rails (74), a second spring (77) is sleeved on each of the two sliding rails (74), two ends of the second spring (77) are respectively connected to the sliding rails (74) and the first wedge block (75), a second wedge block (76) is fixedly connected to the middle of the bottom of the feeding table (43), and the second wedge block (76) is in contact fit with the first wedge block (75).

6. The roughening treatment device for the CPU radiator fins according to claim 5, wherein second supports (81) are symmetrically arranged on two sides of the bottom of the feeding table (43), first movable rods (82) are arranged on two sides of each second support (81) in a sliding manner, third springs (83) are sleeved on the first movable rods (82), two ends of each third spring (83) are connected to the first movable rods (82) and the second supports (81) respectively, second movable rods (84) are arranged on the upper portions of the first movable rods (82) in a sliding manner, clamping blocks (86) are welded to the end portions of the second movable rods (84), fourth springs (85) are sleeved on the second movable rods (84), and two ends of each fourth spring (85) are connected to the clamping blocks (86) and the first movable rods (82) respectively.

7. The roughening treatment device for the CPU radiator fins according to claim 6, wherein a third support (91) is fixedly connected to the upper portion of the mounting frame (2), a third movable rod (92) is slidably disposed in the third support (91), a fifth spring (93) is sleeved on the third movable rod (92), and two ends of the fifth spring (93) are respectively connected to the third movable rod (92) and the third support (91).

8. The roughening apparatus for CPU radiator fins according to claim 3, wherein the grinding wheel (52) is cylindrical in shape.

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