CN212601588U - Liquid cooling board runner subassembly assembly fixture - Google Patents

Abstract

The utility model discloses a liquid cooling board runner subassembly assembly fixture, comprising a base plate, first U-shaped locating plate, the second U-shaped locating plate, the arc wall locating plate, first L-shaped locating plate, second L-shaped locating plate, and be fixed in first location boss and second location boss on the bottom plate up end, be located on the bottom plate up end between first location boss and the second location boss for runner plate installation face, the position that is close to runner plate installation face on the up end of first location boss is fixed with the location lug, the location lug is provided with the arc side, first U-shaped locating plate, the second U-shaped locating plate, the arc wall locating plate is all connected on the up end of first location boss, first L-shaped locating plate, second L-shaped locating plate all connects on the up end of second location boss. The utility model discloses can realize the accurate installation location of runner subassembly, avoid because the follow-up bad phenomenon of matching that the size precision difference leads to takes place, effectively improve the production efficiency of liquid cooling board.

Description

Liquid cooling board runner subassembly assembly fixture

Technical Field

The utility model relates to a liquid cooling board assembly field specifically is a liquid cooling board runner subassembly assembly fixture.

Background

At present, the liquid cooling plate has wide application in various high-density heat dissipation fields and various structures. The main structure form is that the aluminum plate is embedded and sleeved with the copper runner plate, wherein the copper runner plate mainly comprises the copper runner plate and a copper pipeline. The aluminum plate and the copper runner plate in the liquid cooling plate are mainly formed by machining technology, the size precision is high, the copper pipeline is mainly formed by bending a pipe bending machine, and the size precision is far lower than the machining precision of the aluminum plate and the copper runner plate. In the assembling process of the liquid cooling plate, the size precision of the copper pipe is lower than that of the copper runner plate and the aluminum plate, so that the installation and the positioning of the copper pipe are key links influencing the production efficiency of batch products. Conventional installation mainly depends on workman's manual installation to realize, and the installation accuracy is not high, can lead to copper runner subassembly welding to accomplish the back from this, and aluminum plate carries out the in-process of assembling, because dimensional deviation causes the assembly badly, consumes more manpower and materials to repair and joins in marriage.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to provide a liquid cooling board runner subassembly assembly fixture can realize the accurate installation location of runner subassembly, avoids taking place because the follow-up bad phenomenon of matching that the size precision difference leads to, has effectively improved the production efficiency of liquid cooling board.

The technical scheme of the utility model is that:

a liquid cooling plate runner component assembly tool comprises a runner plate, a first U-shaped runner, a second U-shaped runner, a third U-shaped runner, a first L-shaped runner and a second L-shaped runner, two ends of the first U-shaped flow passage, the second U-shaped flow passage and the third U-shaped flow passage are inserted into the flow passage positioning holes on the flow passage plate, the end part of the first L-shaped flow channel horizontal part and the end part of the second L-shaped flow channel horizontal part are inserted into the flow channel positioning holes on the flow channel plate, the first U-shaped runner is positioned in the U-shaped groove of the second U-shaped runner, the second U-shaped runner is positioned in the U-shaped groove of the third U-shaped runner, the horizontal part of the first L-shaped flow passage and the horizontal part of the second L-shaped flow passage are parallel to each other, the second L-shaped flow channel vertical part is positioned between the vertical part of the first L-shaped flow channel and the flow channel plate; the assembly tool for the liquid cooling plate runner assembly comprises a bottom plate, a first U-shaped positioning plate, a second U-shaped positioning plate, an arc-shaped groove positioning plate, a first L-shaped positioning plate, a second L-shaped positioning plate, a first positioning boss and a second positioning boss, wherein the first positioning boss and the second positioning boss are fixed on the upper end surface of the bottom plate; when the runner assembly is assembled, the arc-shaped side face of the positioning lug is attached to the U-shaped inner ring of the first U-shaped runner, the U-shaped inner ring of the first U-shaped positioning plate is attached to the U-shaped outer ring of the first U-shaped runner, the U-shaped outer ring of the first U-shaped positioning plate is attached to the U-shaped inner ring of the second U-shaped runner, the U-shaped inner ring of the second U-shaped positioning plate is attached to the U-shaped outer ring of the second U-shaped runner, the U-shaped outer ring of the second U-shaped positioning plate is attached to the U-shaped inner ring of the third U-shaped runner, the arc-shaped notch of the arc-shaped groove positioning plate faces the direction of the mounting surface of the runner plate, the arc-shaped groove surface of the arc-shaped groove positioning plate is attached to the U-shaped outer ring of the third U-shaped runner, the first L-shaped runner is respectively attached to the L-shaped inner wall of the first L-shaped positioning.

The upper end face of the bottom plate is fixedly provided with a first supporting cushion block and a second supporting cushion block, the first supporting cushion block is located between the first positioning boss and the flow channel plate mounting face, the horizontal height of the upper end face of the first supporting cushion block is consistent with that of the upper end face of the first positioning boss, the first supporting cushion block is used for supporting the end portions of the first U-shaped flow channel, the second U-shaped flow channel and the third U-shaped flow channel, the second supporting cushion block is located between the second positioning boss and the flow channel plate mounting face, the horizontal height of the upper end face of the second supporting cushion block is consistent with that of the upper end face of the second positioning boss, and the second supporting cushion block is used for supporting the horizontal end portion of the first L-shaped flow channel and the horizontal end portion of the second L-shaped flow channel.

First U-shaped locating plate, second U-shaped locating plate, the equal bolted connection of arc wall locating plate on first locating boss, all be provided with the bolt locating hole that corresponds on first U-shaped locating plate, second U-shaped locating plate, arc wall locating plate and the first locating boss and guarantee that the location installation of first U-shaped locating plate, second U-shaped locating plate, arc wall locating plate is accurate, first L-shaped locating plate, the equal bolted connection of second L-shaped locating plate on second locating boss, all be provided with the bolt locating hole that corresponds on first L-shaped locating plate, second L-shaped locating plate, the second locating boss and guarantee that the location installation of first L-shaped locating plate, second L-shaped locating plate is accurate.

When the runner assembly is assembled, a U-shaped gap is reserved between the arc-shaped side surface of the positioning lug and the U-shaped inner ring of the first U-shaped runner, a U-shaped gap is reserved between the U-shaped inner ring of the first U-shaped positioning plate and the U-shaped outer ring of the first U-shaped runner, a U-shaped gap is reserved between the U-shaped outer ring of the first U-shaped positioning plate and the U-shaped inner ring of the second U-shaped runner, a U-shaped gap is reserved between the U-shaped outer ring of the second U-shaped positioning plate and the U-shaped outer ring of the third U-shaped runner, a U-shaped gap is reserved between the arc-shaped groove surface of the arc-shaped groove positioning plate and the U-shaped outer ring of the third U-shaped runner, a U-shaped gap is reserved between the first L-shaped runner and the L-shaped inner wall of the first L-shaped positioning plate, and a U-shaped gap is reserved between the first L-shaped runner and the L-shaped outer wall of the second L, and a U-shaped gap is reserved between the second L-shaped flow channel and the L-shaped inner wall of the second L-shaped positioning plate.

The width of the U-shaped gap is 0.5-1 mm.

The utility model discloses a quantity and the mode of arranging of first U-shaped locating plate, second U-shaped locating plate, arc wall locating plate, first L shape locating plate, second L shape locating plate, first location boss, second location boss and location lug can be adjusted according to the quantity and the structure of arranging of runner subassembly.

The utility model has the advantages that:

the utility model discloses be provided with first locating boss, second location boss, first lip block and second lip block support the runner subassembly, the first U-shaped locating plate of setting, the second U-shaped locating plate, the arc wall locating plate, first L shape locating plate, second L shape locating plate is fixed a position the runner subassembly respectively, the installation accuracy of runner subassembly has been improved, effectively reduce the time that needs to be consumed in the liquid cooling board runner subassembly assembling process, and avoid the later stage because the increase of the repair work that the size precision difference of runner subassembly and aluminium bottom plate leads to, the efficiency of scale batch production has been improved.

Drawings

Fig. 1 is a schematic structural view of the liquid cooling plate of the present invention.

Fig. 2 is an exploded view of the present invention.

Fig. 3 is a schematic structural view of the assembled liquid cooling plate of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1, the liquid cooling plate runner assembly includes a runner plate 11, a first U-shaped runner 12, a second U-shaped runner 13, a third U-shaped runner 14, a first L-shaped runner 15, and a second L-shaped runner 16, wherein two ends of the first U-shaped runner 12, the second U-shaped runner 13, and the third U-shaped runner 14 are all inserted into runner positioning holes on the runner plate 11, an end of a horizontal portion of the first L-shaped runner 15 and an end of a horizontal portion of the second L-shaped runner 16 are all inserted into runner positioning holes on the runner plate 11, the first U-shaped runner 12 is located in a U-shaped groove of the second U-shaped runner 13, the second U-shaped runner 13 is located in a U-shaped groove of the third U-shaped runner 14, a horizontal portion of the first L-shaped runner 15 and a horizontal portion of the second L-shaped runner 16 are parallel to each other, and a vertical portion of the second L-shaped runner 16 is located between a vertical portion of the first L-shaped runner 15 and the runner plate.

Referring to fig. 2, a liquid cooling plate runner assembly assembling tool comprises a bottom plate 21, a first U-shaped positioning plate 22, a second U-shaped positioning plate 23, an arc-shaped groove positioning plate 24, a first L-shaped positioning plate 25, a second L-shaped positioning plate 26, a first positioning boss 27 and a second positioning boss 28 which are fixed on the upper end surface of the bottom plate 21, a runner plate mounting surface is arranged between the first positioning boss 27 and the second positioning boss 28 on the upper end surface of the bottom plate 1, a positioning lug 29 is fixed on the upper end surface of the first positioning boss 27 at a position adjacent to the runner plate mounting surface, the positioning lug 29 is provided with an arc-shaped side surface, the first U-shaped positioning plate 22, the second U-shaped positioning plate 23 and the arc-shaped groove positioning plate 24 are all connected on the upper end surface of the first positioning boss 27, and the first L-shaped positioning plate 25 and the second L-shaped positioning plate 26 are all connected on the upper end surface of;

referring to fig. 3, when the flow channel assembly is assembled, a U-shaped gap is left between the arc-shaped side surface of the positioning protrusion 29 and the U-shaped inner ring of the first U-shaped flow channel 12, a U-shaped gap is left between the U-shaped inner ring of the first U-shaped positioning plate 22 and the U-shaped outer ring of the first U-shaped flow channel 12, a U-shaped gap is left between the U-shaped outer ring of the first U-shaped positioning plate 22 and the U-shaped inner ring of the second U-shaped flow channel 13, a U-shaped gap is left between the U-shaped inner ring of the second U-shaped positioning plate 23 and the U-shaped outer ring of the second U-shaped flow channel 13, the U-shaped outer ring of the second U-shaped positioning plate 23 is attached to the U-shaped inner ring of the third U-shaped flow channel 14, the arc-shaped notch of the arc-shaped groove positioning plate 24 faces the flow channel plate mounting surface direction, a U-shaped gap is left between the arc-shaped groove surface of the arc-shaped groove positioning plate 24 and the U-shaped outer, a U-shaped gap is reserved between the first L-shaped flow passage 15 and the L-shaped inner wall of the first L-shaped positioning plate 25, a U-shaped gap is reserved between the first L-shaped flow passage 15 and the L-shaped outer wall of the second L-shaped positioning plate 26, a U-shaped gap is reserved between the second L-shaped flow passage 16 and the L-shaped inner wall of the second L-shaped positioning plate 26, and the width of each U-shaped gap is 0.5-1 mm.

Referring to fig. 2, a first supporting cushion block 210 and a second supporting cushion block 211 are fixed on the upper end surface of the bottom plate 21, the first supporting cushion block 210 is located between the first positioning boss 27 and the flow channel plate mounting surface, and the horizontal height of the upper end surface of the first supporting cushion block 210 is consistent with that of the upper end surface of the first positioning boss 27, the first supporting cushion block 210 is used for supporting the end portions of the first U-shaped flow channel 12, the second U-shaped flow channel 13 and the third U-shaped flow channel 14, the second supporting cushion block 211 is located between the second positioning boss 28 and the flow channel plate mounting surface, and the horizontal height of the upper end surface of the second supporting cushion block 211 is consistent with that of the upper end surface of the second positioning boss 28, and the second supporting cushion block 211 is used for supporting the horizontal end portion of the first L-shaped flow channel 15 and the horizontal end portion of the second L-shaped flow channel;

referring to fig. 2, the first U-shaped positioning plate 22, the second U-shaped positioning plate 23, and the arc-shaped groove positioning plate 24 are all bolted to the first positioning boss 27, the first U-shaped positioning plate 22, the second U-shaped positioning plate 23, the arc-shaped groove positioning plate 24, and the first positioning boss 27 are all provided with corresponding bolt positioning holes 212 to ensure that the first U-shaped positioning plate 22, the second U-shaped positioning plate 23, and the arc-shaped groove positioning plate 24 are accurately positioned and installed, the first L-shaped positioning plate 25, and the second L-shaped positioning plate 26 are all bolted to the second positioning boss 28, the first L-shaped positioning plate 25, the second L-shaped positioning plate 26, and the second positioning boss 28 are all provided with corresponding bolt positioning holes 212 to ensure that the first L-shaped positioning plate 25, and the second L-shaped positioning plate 26 are accurately positioned and.

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 (5)

1. A liquid cooling plate runner component assembly tool comprises a runner plate, a first U-shaped runner, a second U-shaped runner, a third U-shaped runner, a first L-shaped runner and a second L-shaped runner, two ends of the first U-shaped flow passage, the second U-shaped flow passage and the third U-shaped flow passage are inserted into the flow passage positioning holes on the flow passage plate, the end part of the first L-shaped flow channel horizontal part and the end part of the second L-shaped flow channel horizontal part are inserted into the flow channel positioning holes on the flow channel plate, the first U-shaped runner is positioned in the U-shaped groove of the second U-shaped runner, the second U-shaped runner is positioned in the U-shaped groove of the third U-shaped runner, the horizontal part of the first L-shaped flow passage and the horizontal part of the second L-shaped flow passage are parallel to each other, the second L-shaped flow channel vertical part is positioned between the vertical part of the first L-shaped flow channel and the flow channel plate; the method is characterized in that: the assembly tool for the liquid cooling plate runner assembly comprises a bottom plate, a first U-shaped positioning plate, a second U-shaped positioning plate, an arc-shaped groove positioning plate, a first L-shaped positioning plate, a second L-shaped positioning plate, a first positioning boss and a second positioning boss, wherein the first positioning boss and the second positioning boss are fixed on the upper end surface of the bottom plate; when the runner assembly is assembled, the arc-shaped side face of the positioning lug is attached to the U-shaped inner ring of the first U-shaped runner, the U-shaped inner ring of the first U-shaped positioning plate is attached to the U-shaped outer ring of the first U-shaped runner, the U-shaped outer ring of the first U-shaped positioning plate is attached to the U-shaped inner ring of the second U-shaped runner, the U-shaped inner ring of the second U-shaped positioning plate is attached to the U-shaped outer ring of the second U-shaped runner, the U-shaped outer ring of the second U-shaped positioning plate is attached to the U-shaped inner ring of the third U-shaped runner, the arc-shaped notch of the arc-shaped groove positioning plate faces the direction of the mounting surface of the runner plate, the arc-shaped groove surface of the arc-shaped groove positioning plate is attached to the U-shaped outer ring of the third U-shaped runner, the first L-shaped runner is respectively attached to the L-shaped inner wall of the first L-shaped positioning.

2. The liquid cooling plate flow channel assembly assembling tool of claim 1, wherein: the upper end face of the bottom plate is fixedly provided with a first supporting cushion block and a second supporting cushion block, the first supporting cushion block is located between the first positioning boss and the flow channel plate mounting face, the horizontal height of the upper end face of the first supporting cushion block is consistent with that of the upper end face of the first positioning boss, the first supporting cushion block is used for supporting the end portions of the first U-shaped flow channel, the second U-shaped flow channel and the third U-shaped flow channel, the second supporting cushion block is located between the second positioning boss and the flow channel plate mounting face, the horizontal height of the upper end face of the second supporting cushion block is consistent with that of the upper end face of the second positioning boss, and the second supporting cushion block is used for supporting the horizontal end portion of the first L-shaped flow channel and the horizontal end portion of the second L-shaped flow channel.

3. The liquid cooling plate flow channel assembly assembling tool of claim 1, wherein: first U-shaped locating plate, second U-shaped locating plate, the equal bolted connection of arc wall locating plate on first locating boss, all be provided with the bolt locating hole that corresponds on first U-shaped locating plate, second U-shaped locating plate, arc wall locating plate and the first locating boss and guarantee that the location installation of first U-shaped locating plate, second U-shaped locating plate, arc wall locating plate is accurate, first L-shaped locating plate, the equal bolted connection of second L-shaped locating plate on second locating boss, all be provided with the bolt locating hole that corresponds on first L-shaped locating plate, second L-shaped locating plate, the second locating boss and guarantee that the location installation of first L-shaped locating plate, second L-shaped locating plate is accurate.

4. The liquid cooling plate flow channel assembly assembling tool of claim 1, wherein: when the runner assembly is assembled, a U-shaped gap is reserved between the arc-shaped side surface of the positioning lug and the U-shaped inner ring of the first U-shaped runner, a U-shaped gap is reserved between the U-shaped inner ring of the first U-shaped positioning plate and the U-shaped outer ring of the first U-shaped runner, a U-shaped gap is reserved between the U-shaped outer ring of the first U-shaped positioning plate and the U-shaped inner ring of the second U-shaped runner, a U-shaped gap is reserved between the U-shaped outer ring of the second U-shaped positioning plate and the U-shaped outer ring of the third U-shaped runner, a U-shaped gap is reserved between the arc-shaped groove surface of the arc-shaped groove positioning plate and the U-shaped outer ring of the third U-shaped runner, a U-shaped gap is reserved between the first L-shaped runner and the L-shaped inner wall of the first L-shaped positioning plate, and a U-shaped gap is reserved between the first L-shaped runner and the L-shaped outer wall of the second L, and a U-shaped gap is reserved between the second L-shaped flow channel and the L-shaped inner wall of the second L-shaped positioning plate.

5. The liquid cooling plate flow channel assembly assembling tool of claim 4, wherein: the width of the U-shaped gap is 0.5-1 mm.

Images