CN108817919B - A mould pressing subassembly for radiator assembly machine constructs - Google Patents

Abstract

The invention provides a mould pressing component for a radiator assembling mechanism, which comprises an upper mould pressing, a bearing plate and a lower mould pressing from top to bottom; the bearing plate is provided with a base plate positioning groove which is provided with a plurality of limiting channels; four avoidance grooves are vertically formed in the upper pressing die, and two ends of each second radiating fin group are respectively provided with one avoidance groove correspondingly; the bottom of the upper pressing die is provided with a first groove in an upward concave manner, and the first groove is sequentially provided with a first protection groove, a second protection groove, a third protection groove, a second protection groove and a first protection groove; the first groove of the upper pressing die is positioned right above the positioning groove of the base plate, the lower pressing die is provided with a plurality of positioning convex blocks, the positioning convex blocks are provided with plug-in column positioning grooves, the positioning convex blocks are correspondingly arranged with the limiting channels and are in clearance fit, and the base plate are assembled by the matching assembly mechanism and are locked and fixed once through the plug-in columns.

Description

A mould pressing subassembly for radiator assembly machine constructs

Technical Field

The present disclosure relates to molding assemblies, and particularly to a molding assembly for a heat sink assembly mechanism.

Background

Electronic components and various power module produce a large amount of heat in the course of working, and heat can not in time give off, and light then accelerates electronic component ageing process, reduces electronic component's life, and heavy then leads to electronic component's damage, causes serious result even. The electronic element radiator is divided into different structural forms and specifications according to different heat dissipation powers and actual structural requirements, and the structure is generally divided into a plate type structure and a screw type structure. The plate radiator has different fin structures and sizes according to the requirements.

Profile heat sinks are an important form of air-cooled heat sinks for electronic products. For a radiator with a larger width direction (for example, the width direction of the radiator is more than 400 mm), the electronic element air-cooled radiator with the larger width direction can be processed by extrusion equipment with enough tonnage due to the larger width direction in the manufacturing and processing process; in addition, the die has large width and high processing cost when the radiator product is extruded and molded; the extruded section blank has large size deviation, and the shaping difficulty is increased; the reserved quantity during the molding of the profile is increased, and the waste of materials is increased.

Patent 201020630363.0 discloses a split welding type air-cooled radiator, wherein two split-drawn split radiators are butt-welded to form a widened split welding type air-cooled radiator. The two split radiators are formed by extrusion by adopting the same extrusion forming die. The split radiator forms a vertical semi-Y-shaped groove at the butt joint line in the extrusion molding process.

This structure, although reducing the cost, has lower strength, is fragile and is inconvenient to install.

Because we have designed a be used for components of a whole that can function independently welded radiator, including bottom plate, backing plate and grafting post, be equipped with first grafting groove on the bottom plate, first grafting groove and backing plate interference fit, the backing plate male fixation is in first grafting groove, and through grafting post and nut with backing plate and bottom plate locking once fixed, backing plate and the edge rethread welding of first grafting groove carries out the secondary and fixes, is equipped with first fin group, second fin group, third fin group on the bottom plate.

Therefore, a set of equipment is required to perform the splice assembly and welding operations on the heat sink.

Disclosure of Invention

Aiming at the problems, the invention provides a mould pressing component for a radiator assembling mechanism, which is used for assembling a bottom plate and a base plate by matching with the assembling mechanism and locking and fixing the bottom plate and the base plate through a plug-in column for one time, so that the automatic operation is realized, and the working efficiency and the product quality are improved.

The specific technical scheme is as follows:

a mould pressing component for a radiator assembling mechanism comprises an upper mould pressing, a bearing plate and a lower mould pressing from top to bottom;

the bearing plate is provided with a base plate positioning groove which is provided with a plurality of limiting channels;

four avoidance grooves are vertically formed in the upper pressing die, and two ends of each second radiating fin group are respectively provided with one avoidance groove correspondingly; the bottom of the upper pressing die is provided with a first groove in an upward concave manner, and the first groove is sequentially provided with a first protection groove, a second protection groove, a third protection groove, a second protection groove and a first protection groove;

the first groove of the upper pressing die is positioned right above the backing plate positioning groove;

the lower pressing die is provided with a plurality of positioning convex blocks, the positioning convex blocks are provided with splicing column positioning grooves, and the positioning convex blocks are correspondingly arranged with the limiting channels and are in clearance fit.

Further, the top of first protection groove, second protection groove, third protection groove upwards extends respectively and forms the crimping cavity, is equipped with the crimping subassembly in the crimping space, and the crimping subassembly includes the crimping board, and the bottom of crimping board is equipped with a plurality of interval inserts, and the top of crimping board is equipped with a plurality of head rods, and the mobilizable setting of head rod is in the first regulation chamber of crimping cavity, and the cover is established first spring on the head rod, and first spring pressure is established on the roof in crimping board and crimping space.

Further, a plurality of first fixing blocks are arranged on the outer wall of the upper pressing die.

Further, the height of the first protection groove is equal to that of the third protection groove, and the height of the first protection groove is larger than that of the second protection groove.

Further, the widths of the first, second and third protection grooves gradually increase.

The beneficial effects of the invention are as follows:

the invention is used for assembling the bottom plate and the backing plate by matching with the assembling mechanism and locking and fixing the bottom plate and the backing plate through the plug-in column for one time, and the automatic operation is realized, thereby improving the working efficiency and the product quality.

Drawings

FIG. 1 is an exploded view of the present invention.

Fig. 2 is an enlarged view of a portion a in fig. 1.

Fig. 3 is a bottom view of the upper die.

Fig. 4 is a sectional view showing a state of use of the present invention.

Fig. 5 is a structural diagram of the assembled radiator of the present invention.

Fig. 6 is a top view of fig. 5.

Reference numerals

A bottom plate 1, a backing plate 2, an inserting column 3, a first inserting groove 4, a first column 5, a second column 6, a nut 7, a first radiating fin group 8, a second radiating fin group 9, a third radiating fin group 10, a limiting push plate 11,

Bearing plate 21, backing plate positioning groove 22, limiting channel 23, first upper support frame 24, first cylinder 25, upper press die 26, avoiding groove 27, first groove 28, first protection groove 29, second protection groove 210, third protection groove 211, crimping plate 212, spacing insert 213, first connecting rod 214, first adjusting cavity 215, first spring 216, first fixed block 217, first support column 218, first lower support frame 219, second cylinder 220, lower press die 221, second support column 222, second spring 223, positioning bump 224, plug-in column positioning groove 225, inner support column 226, outer support column 227, third spring 228.

Detailed Description

In order to make the technical scheme of the invention clearer and more definite, the invention is further described below with reference to the accompanying drawings, and any scheme obtained by carrying out equivalent substitution and conventional reasoning on the technical characteristics of the technical scheme of the invention falls into the protection scope of the invention.

As shown in fig. 5 and 6, the mold pressing component is used for matching an assembling mechanism to assemble a bottom plate and a base plate of a radiator and fasten and fix the bottom plate and the base plate through plug-in posts once, the radiator comprises a bottom plate 1, a base plate 2 and plug-in posts 3, a first plug-in groove 4 is arranged on the bottom plate and is in interference fit with the base plate, the base plate is fixed in the first plug-in groove in a plug-in way, the thickness of the bottom plate is h1, the depth of the first plug-in groove is h2, the thickness of the base plate is h3, and h2: h1 =1: 3, h1: h3 =1: 2;

the number of the plug-in columns is at least four, the plug-in columns comprise a first column body 5 and a second column body 6 which are integrally formed, the first column body and the second column body are of a cylindrical structure and are coaxially arranged, the outer diameter of the second column body is smaller than that of the first column body, and external threads are arranged on the second column body;

the first channel is arranged on the backing plate, the first channel is in interference fit with the first column, the second channel is arranged on the bottom, the second channel is in clearance fit with the second column, and the first column is inserted into the first channel, so that the second column passes through the second channel and is locked and fixed through the nut 7;

a first radiating fin group 8, a second radiating fin group 9, a third radiating fin group 10, a second radiating fin group and a first radiating fin group are sequentially arranged on one surface of the bottom opposite to the first inserting groove;

the first radiating fin group and the third radiating fin group are all distributed and formed by the setting that a plurality of first radiating fins are parallel to each other, the second radiating fin group is formed by the setting that a plurality of second radiating fins are parallel to each other, the thickness of first radiating fin is the same with the thickness of second radiating fin, the height of first radiating fin is greater than the height of second radiating fin, the length of first radiating fin is greater than the length of second radiating fin.

The edge of the backing plate and the edge of the first inserting groove are fixed secondarily through welding.

The first column body is provided with a limit push plate 11 which can be inserted into a limit slot on the backing plate.

The second channels are positioned at two ends of the second radiating fin group and between the first radiating fin group and the third radiating fin group.

The number of the first radiating fins of the third radiating fin group is larger than the number of the second radiating fins of the second radiating fin group, and the number of the second radiating fins of the second radiating fin group is larger than the number of the first radiating fins of the first radiating fin group.

The first radiating fin group, the second radiating fin group, the third radiating fin group and the bottom plate are of an integrated structure.

As shown in fig. 1 to 3, the molding assembly for a radiator assembly mechanism of the present invention includes an upper molding 26, a bearing plate 21, and a lower molding 221 in this order from top to bottom;

four avoidance grooves 27 are vertically formed in the upper pressing die, and two ends of each second radiating fin group are respectively provided with one avoidance groove correspondingly; the bottom of the upper pressing die is provided with a first groove 28 in an upward concave manner, the first groove is sequentially provided with a first protection groove 29, a second protection groove 210, a third protection groove 211, a second protection groove and a first protection groove, the second protection groove and the third protection groove are respectively in clearance fit with a first radiating fin group, a second radiating fin group and a third radiating fin group, the tops of the first protection groove, the second protection groove and the third protection groove respectively extend upwards to form a pressing cavity, a pressing assembly is arranged in the pressing space and comprises a pressing plate 212, the bottom of the pressing plate is provided with a plurality of interval inserting blocks 213, the interval inserting blocks are arranged between two adjacent first radiating fins or second radiating fins in an inserting manner, the top of the pressing plate is provided with a plurality of first connecting rods 214, the first connecting rods are movably arranged in a first adjusting cavity 215 of the pressing cavity, the first connecting rods are sleeved with first springs 216, and the first springs are pressed on the top walls of the pressing plate and the pressing space;

the lower pressing die is provided with a plurality of positioning convex blocks 224, the positioning convex blocks are provided with splicing column positioning grooves 225, and the positioning convex blocks are correspondingly arranged with the limiting channels and are in clearance fit.

As shown in fig. 4, the molded component of the present invention is applied to a splicing mechanism;

the assembling mechanism comprises a bearing plate 21, a pressing assembly is arranged above the bearing plate, and a jacking assembly is arranged below the bearing plate;

the bearing plate is provided with a base plate positioning groove 22, and the base plate positioning groove is provided with a plurality of limiting channels 23;

the pressing assembly comprises a first upper supporting frame 24, a first air cylinder 25 and an upper pressing die 26;

the outer wall of the upper pressing die is provided with a plurality of first fixing blocks 217, the first fixing blocks are connected with the bearing plate through first supporting columns 218, a plurality of first air cylinders are fixed on the first upper supporting frames, push rods of the first air cylinders penetrate through the first upper supporting frames to be connected with the upper pressing die, and the first air cylinders push the upper pressing die to move up and down above the bearing plate;

the jacking component comprises a first lower supporting frame 219, a second air cylinder 220 and a lower pressing die 221, wherein the first lower supporting frame is fixed below the bearing plate, the lower pressing die is connected with the bearing plate through a second supporting column 222, the lower pressing die is horizontally arranged between the first lower supporting frame and the bearing plate, the second supporting column penetrates through the lower pressing die, the lower pressing die can move up and down along the second supporting column, a second spring 223 is sleeved on the second supporting column, and the second spring is pressed between the first lower supporting frame and the lower pressing die;

the first support column comprises an inner support column 226 and an outer support column 227, the inner support column is movably arranged in the outer support column, and a third spring 228 is sleeved on the inner support column;

the base plate integrated with the first radiating fin group, the second radiating fin group and the third radiating fin group is fixed in the upper pressing die through screws, the base plate is fixed in the base plate positioning groove, the plug-in column is placed in the plug-in column positioning groove, the first air cylinder and the second air cylinder are started, the upper pressing die and the lower pressing die are simultaneously pressed towards the base plate, so that the base plate is embedded into the first plug-in groove, the first column body of the plug-in column is arranged in the first channel of the base plate in an inserting mode, and the second column body of the plug-in column penetrates through the second channel at the bottom and is locked and fixed through nuts.

Claims (1)

1. A mould pressing assembly for a radiator assembling mechanism is characterized by comprising an upper mould pressing, a bearing plate and a lower mould pressing from top to bottom in sequence;

the bearing plate is provided with a base plate positioning groove which is provided with a plurality of limiting channels;

four avoidance grooves are vertically formed in the upper pressing die, and two ends of each second radiating fin group are respectively provided with one avoidance groove correspondingly; the bottom of the upper pressing die is provided with a first groove in an upward concave manner, and the first groove is sequentially provided with a first protection groove, a second protection groove, a third protection groove, a second protection groove and a first protection groove;

the first groove of the upper pressing die is positioned right above the backing plate positioning groove;

the lower pressing die is provided with a plurality of positioning convex blocks, the positioning convex blocks are provided with splicing column positioning grooves, and the positioning convex blocks are correspondingly arranged with the limiting channels and are in clearance fit;

the top of the first protection groove, the top of the second protection groove and the top of the third protection groove respectively extend upwards to form a compression joint cavity, a compression joint assembly is arranged in the compression joint cavity and comprises a compression joint plate, a plurality of interval inserting blocks are arranged at the bottom of the compression joint plate, a plurality of first connecting rods are arranged at the top of the compression joint plate and are movably arranged in a first adjusting cavity of the compression joint cavity, a first spring is sleeved on the first connecting rods, and the first spring is arranged on the compression joint plate and the top wall of the compression joint space in a compression joint mode;

the outer wall of the upper pressing die is provided with a plurality of first fixing blocks;

the height of the first protection groove is equal to that of the third protection groove, and the height of the first protection groove is larger than that of the second protection groove;

the widths of the first protection groove, the second protection groove and the third protection groove are gradually increased;

the radiator comprises a bottom plate, a base plate and a plug-in column;

a first radiating fin group, a second radiating fin group, a third radiating fin group, a second radiating fin group and a first radiating fin group are sequentially arranged on one surface of the bottom plate opposite to the first inserting groove;

the first radiating fin group and the third radiating fin group are respectively formed by arranging a plurality of first radiating fins in parallel, and the second radiating fin group is formed by arranging a plurality of second radiating fins in parallel;

the interval insert block is inserted between two adjacent first radiating fins or second radiating fins;

the first fixing blocks are connected with the bearing plates through first supporting columns, a plurality of first air cylinders are fixed on the first upper supporting frames, push rods of the first air cylinders penetrate through the first upper supporting frames to be connected with the upper pressing dies, and the first air cylinders push the upper pressing dies to move up and down above the bearing plates;

the first lower support frame is fixed below the bearing plate, the lower pressing die is connected with the bearing plate through a second support column, the lower pressing die is horizontally arranged between the first lower support frame and the bearing plate, the second support column penetrates through the lower pressing die to enable the lower pressing die to move up and down along the second support column, a second spring is sleeved on the second support column, and the second spring is pressed between the first lower support frame and the lower pressing die;

the first support column comprises an inner support column and an outer support column, the inner support column is movably arranged in the outer support column, and a third spring is sleeved on the inner support column;

the base plate integrated with the first radiating fin group, the second radiating fin group and the third radiating fin group is fixed in the upper pressing die through screws, the base plate is fixed in the base plate positioning groove, the plug-in column is placed in the plug-in column positioning groove, the first air cylinder and the second air cylinder are started, the upper pressing die and the lower pressing die are simultaneously pressed towards the base plate, so that the base plate is embedded into the first plug-in groove, the first column body of the plug-in column is arranged in the first channel of the base plate in an inserting mode, and the second column body of the plug-in column penetrates through the second channel at the bottom and is locked and fixed through nuts.