CN220446506U - Radiating fin clamping blanking mechanical swing arm - Google Patents

Abstract

The utility model discloses a radiating fin clamping and blanking mechanical swing arm, which relates to the technical field of mechanical swing arm clamping. According to the utility model, the two clamping plates move in opposite directions, the two clamping plates extrude and fix the two ends of the radiating fin, the distance between the two clamping plates is adjusted, radiating fins with different sizes are fixed, the radiating fins with different specifications and sizes are adapted according to the radiating fins with different sizes, the two clamping blocks can provide stable clamping force and angle, the radiating fins are ensured to be accurately aligned and fixed with other components, the problems of deviation, dislocation or loosening of the radiating fins are avoided, and the assembly quality and performance of products are ensured.

Description

Radiating fin clamping blanking mechanical swing arm

Technical Field

The utility model relates to the technical field of mechanical swing arm clamping, in particular to a radiating fin clamping blanking mechanical swing arm.

Background

When carrying out metal processing, often need carry out the centre gripping through the metal that will process through the manipulator, then transport or carry out the regulation of angle, the efficiency of improvement work that can be great, fine realization is automatic, holds blanking machinery swing arm and is an automatic clamping system of equipping on mechanical equipment, and it usually comprises bearing structure, swing arm, clamping device etc..

A heat sink is a device for dissipating heat, and is commonly used in electronic devices, computers, automobiles, industrial fields, and the like. Its main function is to increase the heat conduction and dissipation by increasing the surface area and providing a larger heat dissipation surface, thereby maintaining the normal operating temperature of the device.

The clamping size of the clamping blocks of most of the existing clamping blanking mechanical swing arms cannot be changed, radiating fins of different sizes cannot be fixed, when radiating fins of different sizes are faced, the clamping blocks cannot be effectively fixed, assembly requirements of the radiating fins of different sizes cannot be met, multiple sets of clamping blocks of different sizes are possibly required to be prepared for clamping the radiating fins of different sizes, cost and management complexity are increased, more storage space is occupied, and operators need additional time and operation to adjust and adapt to the radiating fins of different sizes, so that production efficiency is reduced, and risks of manual operation are increased.

Disclosure of Invention

The utility model provides a radiating fin clamping and blanking mechanical swing arm which has the advantage that the radiating fins with different sizes can be conveniently and stably clamped by the clamping and blanking mechanical swing arm, so that the problem that the sizes of the radiating fins clamped by the clamping and blanking mechanical swing arm are fixed is solved.

In order to achieve the purpose that the swing arm of the blanking clamping machine is convenient to clamp radiating fins of different sizes stably, the utility model provides the following technical scheme: the utility model provides a fin centre gripping blanking machinery swing arm, includes centre gripping blanking machinery hand swing arm and installs the grip block at centre gripping blanking machinery hand swing arm hand output, the internally mounted of grip block has the clamping assembly, the outside surface mounting of clamping assembly has two grip blocks, two all be equipped with the arc surface on the grip block, two removal grooves have been seted up to the inboard surface of grip block, the inner wall department in removal groove and the outside surface movable contact of grip block, two the outside surface of grip block installs drawing anti-drop subassembly jointly.

As a preferable technical scheme of the utility model, the clamping assembly comprises a first motor and a first shaft, wherein the first motor is arranged in the clamping block, and the first shaft is movably arranged on the outer side surface of the output end of the first motor.

As a preferable mode of the utility model, a collar is mounted on the outer side surface of the first shaft, the outer side surface of the collar is in movable contact with the inside of the clamping block, and a gear ring is mounted on one end surface of the first shaft.

As a preferable technical scheme of the utility model, two movable sliding cavities are formed in the clamping block, and movable sliding blocks are movably arranged at the inner walls of the two movable sliding cavities.

As a preferable technical scheme of the utility model, the outer side surfaces of the two movable sliding blocks are provided with gear bars, and the outer side surfaces of the two gear bars are meshed with the outer side surface of the gear ring.

As a preferable technical scheme of the utility model, one end surfaces of the two movable sliding blocks are provided with connecting plates, and one end surfaces of the connecting plates are fixedly connected with one end surface of the clamping plate.

As a preferable technical scheme of the utility model, the anti-falling assembly comprises a second motor and a second shaft, wherein the second motor is arranged on the outer side surface of any clamping plate, and the second shaft is movably arranged on the outer side surface of the output end of the second motor.

As a preferable technical scheme of the utility model, a rotary column is movably arranged on the outer side surface of the other clamping plate, and a baffle is jointly arranged on the outer side surface of the rotary column and the outer side surface of the second shaft.

Compared with the prior art, the utility model provides the radiating fin clamping blanking mechanical swing arm, which has the following beneficial effects:

this fin centre gripping blanking machinery swing arm mutually supports through the movable groove with remove smooth chamber, makes and removes slider, gear strip, connecting plate and grip block and carry out steady directional movement, and two grip blocks remove in opposite directions, and two grip blocks extrude the fin both ends fixedly, adjust the interval between two grip blocks to fix the fin of equidimension, can adjust according to the fin of equidimension, adapt to the fin of equidimension, two grip blocks can provide stable clamping force and angle, ensure that the fin aligns with the accuracy of other subassemblies and is fixed, help avoiding the skew, dislocation or the not hard up problem of fin, guarantee assembly quality and the performance of product.

This fin centre gripping blanking machinery swing arm, through column spinner, second shaft and baffle mutually support, the column spinner makes the baffle stable carry out rotary motion, single anti-package prevents that the fin from coming off from the grip block, has increased the fixed stability of fin effectively, prevents that the fin from becoming flexible or coming off under vibration or other exogenic actions, ensures that the fin is stably fixed on the grip block, through the firm fixed of assurance fin, reduces the fin and drops or loose risk, can avoid the emergence of trouble and quality problem, ensures the stability of product.

Drawings

FIG. 1 is a schematic view of the external structure of the present utility model;

FIG. 2 is a schematic view of the outer structure of the clamping block according to the present utility model;

FIG. 3 is a schematic view of the internal structure of the clamping block according to the present utility model;

fig. 4 is a schematic view of an internal structure of a clamping block according to another aspect of the present utility model.

In the figure: 1. clamping a swing arm of a blanking manipulator; 2. a clamping block; 3. a first motor; 4. a first shaft; 5. a collar; 6. a gear ring; 7. a gear strip; 8. moving the slide block; 9. a connecting plate; 10. moving the sliding cavity; 11. a moving groove; 12. a clamping plate; 13. a second motor; 14. a second shaft; 15. a baffle; 16. an arc surface; 17. and (5) rotating the column.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-4, the utility model discloses a radiating fin clamping blanking mechanical swing arm, which comprises a clamping blanking mechanical swing arm 1 and a clamping block 2 arranged at the hand output end of the clamping blanking mechanical swing arm 1, wherein a clamping assembly is arranged in the clamping block 2, two clamping plates 12 are arranged on the outer side surface of the clamping assembly, arc surfaces 16 are arranged on the two clamping plates 12, two movable grooves 11 are formed in the inner side surface of the clamping block 2, the inner wall of the movable grooves 11 is movably contacted with the outer side surfaces of the clamping plates 12, the outer side surfaces of the two clamping plates 12 are jointly provided with an anti-falling assembly, the two clamping plates 12 move in opposite directions, the two clamping plates 12 squeeze and fix the two ends of a radiating fin, the rotating circle number of a first shaft 4 is driven by a first motor 3, so that the distance between the two clamping plates 12 is adjusted, radiating fins with different sizes are fixed, the radiating fins with different sizes can be adjusted according to radiating fins with different specifications, the radiating fins with different specifications can be conveniently replaced in the production process, the same clamping blocks 2 are used in different projects or products, the two clamping blocks 2 can be accurately moved in parallel to each other, the quality of the radiating fins can be guaranteed, the quality of the radiating fins can be stably-shifted to the quality of the radiating fins, the radiating fins can be accurately and stably-shifted to the quality can be guaranteed, the quality of the quality can be stably-shifted to be guaranteed, and the quality can be well, and good quality can be well guaranteed, and stable, and quality can be well, and stable, and quality can be well and stable.

The clamping assembly comprises a first motor 3 and a first shaft 4, the first motor 3 is arranged in the clamping block 2, the first shaft 4 is movably arranged on the outer side surface of the output end of the first motor 3, the first motor 3 is controlled to work through a controller, the first motor 3 drives the first shaft 4 to perform rotary motion, and the first shaft 4 drives the clamping ring 5 to perform rotary motion.

The outside surface mounting of first axle 4 has rand 5, and the outside surface of rand 5 and the inside movable contact of grip block 2, and the one end surface mounting of first axle 4 has gear ring 6, rand 5 and grip block 2 movable contact make first axle 4 steadily carry out rotary motion, and first axle 4 steadily drives gear ring 6 and carries out rotary motion.

Two movable sliding cavities 10 are formed in the clamping block 2, the movable sliding blocks 8 are movably mounted on the inner walls of the two movable sliding cavities 10, the gear strip 7 drives the movable sliding blocks 8 to move in the movable sliding cavities 10, and the movable sliding cavities 10 limit the moving directions of the movable sliding blocks 8 and the gear strip 7.

The outside surfaces of the two movable sliders 8 are provided with gear strips 7, the outside surfaces of the two gear strips 7 are meshed with the outside surfaces of the gear ring 6, the gear ring 6 is meshed with the outside surfaces of the two gear strips 7, and the gear ring 6 drives the two gear strips 7 to move oppositely.

The connecting plate 9 is installed on one end surface of each of the two movable sliding blocks 8, one end surface of the connecting plate 9 is fixedly connected with one end surface of the clamping plate 12, the movable sliding blocks 8 drive the connecting plate 9 to move, and the connecting plate 9 drives the clamping plate 12 to move in the moving groove 11.

The anti-drop subassembly includes second motor 13 and second shaft 14, and second motor 13 installs the outside surface at arbitrary grip block 12, and second shaft 14 movable mounting is at the outside surface of second motor 13 output, and second motor 13 drives second shaft 14 and carries out rotary motion, and second shaft 14 drives baffle 15 and column 17 and carries out rotary motion.

The outer side surface of the other clamping plate 12 is movably provided with a rotating column 17, the outer side surface of the rotating column 17 and the outer side surface of the second shaft 14 are jointly provided with a baffle plate 15, the baffle plate 15 is enabled to stably rotate, an arc surface 16 on the baffle plate 15 is enabled to conveniently rotate, the baffle plate 15 is enabled to move to the bottom end of a radiating fin, the radiating fin is prevented from falling off from the clamping block 2, a barrier is formed between the radiating fin and the clamping block 2, the stability of the radiating fin fixing is effectively improved, the radiating fin is prevented from loosening or falling off under the action of vibration or other external force, the radiating fin is ensured to be stably fixed on the clamping block 2, the radiating fin can be accurately positioned through the design of the baffle plate 15, dislocation or offset of the radiating fin is avoided, the radiating fin and other components are enabled to be aligned correctly, the whole radiating system can normally run and the best radiating effect is provided, the risk of falling off or loosening of the radiating fin is reduced through ensuring the firm fixing of the radiating fin, the occurrence of faults and quality problems can be avoided, and the stability of products is ensured.

The working principle and the using flow of the utility model are as follows: when the cooling fin is required to be clamped and transported, the clamping blanking manipulator swinging arm 1 is started, the clamping blanking manipulator swinging arm 1 drives the clamping block 2 to start, the clamping block 2 moves the gear ring 6 to be meshed with the outer side surfaces of the two gear bars 7, the gear ring 6 drives the two gear bars 7 to move above the cooling fin in opposite directions, the first motor 3 is controlled by the controller to work, the first motor 3 drives the first shaft 4 to perform rotary motion, the first shaft 4 drives the clamping ring 5 to perform rotary motion, the clamping ring 5 is movably contacted with the clamping block 2, the first shaft 4 stably performs rotary motion, the first shaft 4 stably drives the gear ring 6 to perform rotary motion, the gear ring 6 is meshed with the outer side surfaces of the two gear bars 7, the gear ring 6 drives the two gear bars 7 to move in opposite directions, the gear bar 7 drives the moving slide block 8 to move in the moving slide cavity 10, the moving sliding cavity 10 limits the moving direction of the moving sliding block 8 and the gear strip 7, so that the moving sliding block 8 drives the connecting plate 9 to move, the connecting plate 9 drives the clamping plates 12 to move in the moving groove 11, the moving groove 11 synchronously limits the moving direction of the clamping plates 12, the moving groove 11 and the moving sliding cavity 10 are mutually matched, the moving sliding block 8, the gear strip 7, the connecting plate 9 and the clamping plates 12 move stably and directionally, the two clamping plates 12 move in opposite directions, the two clamping plates 12 squeeze and fix the two ends of the radiating fins, the first motor 3 drives the rotation circle number of the first shaft 4, thereby adjusting the distance between the two clamping plates 12, fixing the radiating fins with different sizes, adjusting the radiating fins according to the radiating fins with different sizes, adapting to the radiating fins with different specifications and sizes, the same clamping blocks 2 are used in different projects or products, the two clamping blocks 2 can provide stable clamping force and angle, ensure accurate alignment and fixation of the radiating fin and other components, help to avoid the problems of deviation, dislocation or loosening of the radiating fin, ensure the assembly quality and performance of the products, enable the clamping blocks to realize automatic operation, save time and labor cost, adapt to the requirement of high-speed production, improve the humanization degree of the working environment and reduce the influence of human factors on the quality of the products;

after the radiating fin is stably clamped by the clamping block 2, the second motor 13 drives the second shaft 14 to rotate, the second shaft 14 drives the baffle 15 and the rotary column 17 to rotate, the rotary column 17 enables the baffle 15 to rotate stably, the arc surface 16 on the baffle 15 facilitates the baffle 15 to rotate, the baffle 15 moves to the bottom end of the radiating fin, the radiating fin is prevented from falling off from the clamping block 2, a barrier is formed between the radiating fin and the clamping block 2 by the baffle 15, the stability of the radiating fin fixing is effectively improved, the radiating fin is prevented from loosening or falling off under the action of vibration or other external force, the radiating fin is ensured to be stably fixed on the clamping block 2, the radiating fin can be accurately positioned by the design of the baffle 15, dislocation or offset of the radiating fin is avoided, the radiating fin and other components are enabled to be aligned correctly, the whole radiating system can run normally and an optimal radiating effect is provided, the risk of falling off or loosening of the radiating fin is reduced, faults and quality problems can be avoided, and the stability of products is ensured.

It should be noted that in this document, terms such as "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises an element.

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

Claims (8)

1. The utility model provides a fin centre gripping blanking machinery swing arm, includes centre gripping blanking machinery hand swing arm (1) and installs grip block (2) at centre gripping blanking machinery hand swing arm (1) hand output, its characterized in that: the inside mounting of grip block (2) has the centre gripping subassembly, the outside surface mounting of centre gripping subassembly has two grip blocks (12), two all be equipped with arc surface (16) on grip block (12), two removal groove (11) have been seted up to the inside surface of grip block (2), the inner wall department of removal groove (11) and the outside surface movable contact of grip block (12), two the outside surface of grip block (12) installs the picture anti-drop subassembly jointly.

2. The fin-gripping blanking mechanical swing arm of claim 1, wherein: the clamping assembly comprises a first motor (3) and a first shaft (4), wherein the first motor (3) is arranged in the clamping block (2), and the first shaft (4) is movably arranged on the outer side surface of the output end of the first motor (3).

3. The fin-gripping blanking mechanical swing arm of claim 2, wherein: the outer side surface of the first shaft (4) is provided with a clamping ring (5), the outer side surface of the clamping ring (5) is in movable contact with the inside of the clamping block (2), and one end surface of the first shaft (4) is provided with a gear ring (6).

4. A fin-gripping blanking mechanical swing arm as defined in claim 3, wherein: two movable sliding cavities (10) are formed in the clamping block (2), and movable sliding blocks (8) are movably mounted on the inner wall of each movable sliding cavity (10).

5. The fin-gripping blanking mechanical swing arm of claim 4, wherein: the outer side surfaces of the two movable sliding blocks (8) are provided with gear strips (7), and the outer side surfaces of the two gear strips (7) are meshed with the outer side surface of the gear ring (6).

6. The fin-gripping blanking mechanical swing arm of claim 5, wherein: the connecting plates (9) are arranged on one end surfaces of the two movable sliding blocks (8), and one end surface of each connecting plate (9) is fixedly connected with one end surface of the clamping plate (12).

7. The fin-gripping blanking mechanical swing arm of claim 1, wherein: the anti-falling assembly comprises a second motor (13) and a second shaft (14), wherein the second motor (13) is arranged on the outer side surface of any clamping plate (12), and the second shaft (14) is movably arranged on the outer side surface of the output end of the second motor (13).

8. The fin-gripping blanking mechanical swing arm of claim 7, wherein: the outer side surface of the other clamping plate (12) is movably provided with a rotating column (17), and a baffle plate (15) is jointly arranged on the outer side surface of the rotating column (17) and the outer side surface of the second shaft (14).