CN214977230U - Radiator heat pipe rolling mechanism and numerical control intelligent rolling forming machine - Google Patents

Abstract

The utility model belongs to the technical field of radiator manufacturing equipment, in particular to a radiator heat pipe rolling mechanism and a numerical control intelligent rolling forming machine, wherein, the radiator heat pipe rolling mechanism comprises a multi-axis device, a first roller train, a second roller train and a third roller train; the multi-axis device is provided with three output ends which are arranged in an annular shape, the first roller group, the second roller group and the third roller group are respectively connected with the three output ends of the multi-axis device, the multi-axis device respectively drives the first roller group, the second roller group and the third roller group to rotate along the annular direction, the first roller group is firstly contacted with the heat pipe and carries out primary positioning on the heat pipe and the radiator, the second roller group carries out secondary positioning on the heat pipe and the radiator and slightly presses the heat pipe into the radiator, and the third roller group is contacted with the heat pipe and tightly presses the heat pipe and the radiator; compared with the traditional punch press beating process, the punch press avoids rigid contact with the heat pipe, the heat pipe is extruded in a flexible contact mode instead, and the phenomenon that the heat pipe is crushed or broken is effectively avoided.

Description

Radiator heat pipe rolling mechanism and numerical control intelligent rolling forming machine

Technical Field

The utility model belongs to the technical field of radiator manufacture equipment, especially, relate to a radiator heat pipe rolling mechanism and numerical control intelligence roll forming machine.

Background

The heat pipe is a heat transfer element with extremely high heat conductivity, and is invented in the United states Los-Allomos national laboratory in 1964 and reaches the peak of theoretical research in the last 60 th century and starts to be applied in the industrial field in 70 th century. It transfers heat through the vapor-liquid phase change of working medium in the totally-enclosed vacuum tube, has extremely high heat conductivity which is hundreds times as high as the heat conductivity of pure copper, and is known as a 'hot superconductor'. The heat pipe radiator with the excellent design after the process is over-closed has the strong performance which can not be achieved by the common heat pipe-free air-cooled radiator.

When the heat pipe radiator is produced, the heat pipe needs to be pressed into a groove which is arranged on the radiator and filled with heat-conducting glue, and the groove is flattened by a pressing machine. At present, after a heat pipe of a radiator is embedded in a material, the heat pipe is higher than the plane of the radiator, in order to meet the assembly requirement, the embedded heat pipe needs to be processed and leveled, a punch press is adopted for beating and pressing, and due to the fact that the beating and pressing speed of the punch press is too high, heat media in the heat pipe have many adverse phenomena of pipe crushing, pipe breaking and the like in the production process, and serious influence is brought to production.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a radiator heat pipe rolling mechanism, the pressure pipe process that aims at solving among the prior art generally adopts the punch press to clap and presses, because the bat of punch press presses speed too fast, can cause the heat pipe to be crushed or break the technical problem of bad phenomena such as pipe.

In order to achieve the above object, an embodiment of the present invention provides a rolling mechanism for heat pipes of a heat radiator, which includes a multi-axis device, a first roller set, a second roller set and a third roller set; the multi-axis machine has three outputs that are the annular and arrange, first roller train second roller train with third roller train respectively with the three output of multi-axis machine is connected, just the multi-axis machine drives respectively first roller train second roller train with third roller train rotates along the annular direction, first roller train at first carries out the primary location with heat pipe and radiator, second roller train carries out the secondary location with heat pipe and radiator and impresses the heat pipe in the radiator slightly, third roller train and heat pipe contact compress tightly heat pipe and radiator.

Optionally, the first roller set includes a first connecting column, a first mounting seat, a first roller, a first connecting shaft, and two first bearings; the top of first spliced pole with one of them output of multiaxis ware is connected, the bottom of first spliced pole with the top fixed connection of first mount pad, set up the first installation cavity that runs through its bottom on the first mount pad, still set up two first mounting holes that run through its both ends lateral wall respectively on the first mount pad, two first mounting hole all with first installation cavity intercommunication, first gyro wheel with first connecting axle all locates in the first installation cavity, just first gyro wheel with the middle part tight fit of first connecting axle is connected, the both ends of first connecting axle are respectively with two the inner circle tight fit of first bearing is connected, two the outer lane of first bearing respectively with two the inner wall tight fit of first mounting hole is connected.

Optionally, a first extrusion groove penetrating through the first roller in the annular direction and used for primarily positioning the heat pipe is formed in the first roller, and the first extrusion groove is arranged in an arc shape.

Optionally, the second roller group comprises a second connecting column, a second mounting seat, a second roller, a second connecting shaft and two second bearings; the top of second spliced pole with another output of multiaxis ware is connected, the bottom of second spliced pole with the top fixed connection of second mount pad, set up the second installation cavity that runs through its bottom on the second mount pad, still set up two second mounting holes that run through its both ends lateral wall respectively on the second mount pad, two the second mounting hole all with second installation cavity intercommunication, the second gyro wheel with the second connecting axle is all located in the second installation cavity, just the second gyro wheel with the middle part tight fit of second connecting axle is connected, the both ends of second connecting axle respectively with two the inner circle tight fit of second bearing is connected, two the outer lane of second bearing respectively with two the inner wall tight fit of second mounting hole is connected.

Optionally, a second extrusion groove penetrating through the second roller in the annular direction and used for secondary positioning of the heat pipe is formed in the second roller, and the second extrusion groove is arranged in an arc shape.

Optionally, the arc of the first extrusion groove is greater than the arc of the second extrusion groove.

Optionally, the third roller set includes a third connecting column, a third mounting seat, a third roller, a third connecting shaft, and two third bearings; the top of third spliced pole with the remaining output of multiaxis ware is connected, the bottom of third spliced pole with the top fixed connection of third mount pad, set up the third installation cavity that runs through its bottom on the third mount pad, still set up two third mounting holes that run through its both ends lateral wall respectively on the third mount pad, two the third mounting hole all with third installation cavity intercommunication, the third gyro wheel with the third connecting axle is all located in the third installation cavity, just the third gyro wheel with the middle part tight fit of third connecting axle is connected, the both ends of third connecting axle respectively with two the inner circle tight fit of third bearing is connected, two the outer lane of third bearing respectively with two the inner wall tight fit of third mounting hole is connected.

Optionally, a flange arranged annularly and used for pressing in the heat pipe is arranged on the outer periphery of the third roller.

Optionally, the thicknesses of the first roller, the second roller and the third roller are the same, the first connecting column and the first mounting seat are fastened through two screws, the second connecting column and the second mounting seat are fastened through two screws, and the third connecting column and the third mounting seat are fastened through two screws.

The embodiment of the utility model provides an above-mentioned one or more technical scheme in the radiator heat pipe rolling mechanism have one of following technological effect at least: the utility model discloses a radiator heat pipe rolling mechanism, install second roller train, second roller train and third roller train respectively on the three output of multiaxis ware, place a plurality of heat pipes and a plurality of radiators respectively below second roller train, second roller train and third roller train, place each heat pipe respectively in the recess that is used for installing the heat pipe that sets up on corresponding each radiator, start radiator heat pipe rolling mechanism, first, second roller train contacts with the heat pipe earlier, second roller train leads the heat pipe to one side near the recess and carries out the primary positioning, then, second roller train contacts with the heat pipe and extrudes the heat pipe a little, make the heat pipe just get into in the recess, finally, third roller train contacts with the heat pipe and pushes the heat pipe into the recess entirely, make the heat pipe accomplish the pressure pipe process with the inner wall laminating of recess, compare in traditional punch press bat pressure technology, the rigid contact between the punch and the heat pipe is avoided, the heat pipe is extruded in a flexible contact mode instead, and the phenomenon that the heat pipe is crushed or broken is effectively avoided.

Another embodiment of the utility model provides a numerical control intelligence roll extrusion make-up machine, it includes foretell radiator heat pipe rolling mechanism.

The embodiment of the utility model provides an above-mentioned one or more technical scheme in the numerical control intelligence roll forming machine has one of following technological effect at least: the utility model discloses a numerical control intelligence roll extrusion make-up machine owing to use there is foretell radiator heat pipe rolling mechanism, compares in traditional punch press bat pressure technology, has avoided the rigid contact of punch press with the heat pipe, and the replacement is the mode extrusion heat pipe of flexonics, has avoided the heat pipe effectively to be crushed or the phenomenon of broken pipe to take place.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required for the embodiments or the prior art descriptions will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without inventive labor.

Fig. 1 is a schematic structural diagram of a heat pipe rolling mechanism of a heat sink provided by an embodiment of the present invention.

Fig. 2 is a schematic structural diagram of a first mounting seat, a second mounting seat, and a third mounting seat of a rolling mechanism for heat pipes of a heat sink provided by an embodiment of the present invention.

Wherein, in the figures, the respective reference numerals:

10-first roller group 11-first connecting column 12-first mounting seat

13-first roller 14-first connecting shaft 15-first bearing

20-second roller group 21-second connecting column 22-second mounting seat

23-second roller 24-second connecting shaft 25-second bearing

30-third roller group 31-third connecting column 32-third mounting seat

33-third roller 34-third connecting shaft 35-third bearing

121-first mounting cavity 122-first mounting hole 131-first extrusion groove

221-second mounting cavity 222-second mounting hole 231-second extrusion groove

321-third mounting cavity 322-third mounting hole 331-flange.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below by referring to the drawings are exemplary and intended to explain the embodiments of the present invention and are not to be construed as limiting the present invention.

In the description of the embodiments of the present invention, it should be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in the orientation or positional relationship indicated in the drawings, which is only for convenience in describing the embodiments of the present invention and simplifying the description, and do not indicate or imply that the device or element so indicated must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the invention.

Furthermore, the terms "second", "second" are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "second" or "second" may explicitly or implicitly include one or more of that feature. In the description of the embodiments of the present invention, "a plurality" means two or more unless specifically limited otherwise.

In the embodiments of the present invention, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly, e.g., as fixed or detachable connections or as an integral part; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the embodiments of the present invention can be understood by those skilled in the art according to specific situations.

In an embodiment of the present invention, as shown in fig. 1-2, a rolling mechanism for heat pipe of heat sink is provided, which includes a multi-axis machine (not shown), a first roller set 10, a second roller set 20, and a third roller set 30; the multi-axis machine has three output ends that are the annular and arrange, first roller set 10 second roller set 20 with third roller set 30 respectively with the three output of multi-axis machine is connected, just the multi-axis machine drives respectively first roller set 10 second roller set 20 with third roller set 30 rotates along the annular direction, first roller set 10 at first contacts with heat pipe (not shown) and carries out the primary location with heat pipe and radiator (not shown), second roller set 20 carries out the secondary location with heat pipe and radiator and impresses the heat pipe in the radiator a little, third roller set 30 compresses tightly heat pipe and radiator with heat pipe contact.

Specifically, the heat pipe rolling mechanism for heat pipes of the heat radiator of the present invention is to install the second roller set 20, the second roller set 20 and the third roller set 30 on three output ends of a multi-axis device respectively, the multi-axis device belongs to the conventional prior art and can be purchased in the market, a plurality of heat pipes and a plurality of heat radiators are respectively placed below the second roller set 20, the second roller set 20 and the third roller set 30, each heat pipe is respectively placed in a groove (not shown) corresponding to each heat radiator for installing the heat pipe, the heat pipe rolling mechanism is started, first, the second roller set 20 contacts with the heat pipe first, the second roller set 20 guides the heat pipe to one side close to the groove for primary positioning, then, the second roller set 20 contacts with the heat pipe and slightly extrudes the heat pipe, so that the heat pipe just enters the groove, finally, the third roller set 30 contacts with the heat pipe and presses all the heat pipes into the groove, make the inner wall laminating of heat pipe and recess accomplish and press the pipe process, compare in traditional punch press and clap pressure technology, avoided the rigid contact of punch press with the heat pipe, the mode extrusion heat pipe of replacement for flexible contact has avoided the heat pipe to be pressed and has hindered or the phenomenon emergence of broken pipe effectively.

In another embodiment of the present invention, as shown in fig. 1-2, the first roller set 10 includes a first connecting column 11, a first mounting seat 12, a first roller 13, a first connecting shaft 14 and two first bearings 15; the top of first spliced pole 11 with one of them output of multiaxis ware is connected, the bottom of first spliced pole 11 with the top fixed connection of first mount pad 12, set up first installation cavity 121 that runs through its bottom on the first mount pad 12, still set up two first mounting holes 122 that run through its both ends lateral wall respectively on the first mount pad 12, two first mounting holes 122 all with first installation cavity 121 intercommunication, first gyro wheel 13 with first connecting axle 14 all locates in the first installation cavity 121, just first gyro wheel 13 with the middle part tight fit of first connecting axle 14 is connected, the both ends of first connecting axle 14 respectively with two the inner circle tight fit of first bearing 15 is connected, two the outer lane of first bearing 15 respectively with two the inner wall tight fit of first mounting hole 122 is connected. Specifically, the first connecting column 11 is arranged in a cylindrical shape, the top of the first connecting column 11 is fixedly connected with one of the output ends of the multi-axis device, the bottom of the first connecting column 11 is fixedly connected with the first mounting seat 12, the first mounting seat 12 is provided with a first mounting cavity 121 with a downward opening, the first mounting cavity 121 is arranged in a rectangular shape, the first mounting seat 12 is further provided with two first mounting holes 122, the two first mounting holes 122 are both communicated with the first mounting cavity 121, the two first mounting holes 122 are both arranged in a circular shape, the first connecting shaft 14 penetrates through the first roller 13 to fix the first roller 13, then the two first bearings 15 are respectively sleeved at both ends of the first connecting shaft 14 in the length direction, and then the two first bearings 15 are respectively arranged in the two first mounting holes 122, so that the mounting of the first roller 13 can be realized, the thickness of the first roller 13 is just smaller than the inner wall of the first mounting cavity 121, the first roller 13 can keep stable rotation when the pipe is pressed, and the pipe pressing precision is improved.

In another embodiment of the present invention, as shown in fig. 1-2, the first roller 13 is provided with a first extruding groove 131 penetrating through the annular direction thereof and used for primarily positioning the heat pipe, and the first extruding groove 131 is arc-shaped. Specifically, first extrusion groove 131 has been seted up on first gyro wheel 13's the circumferencial direction, and first extrusion groove 131 is the arc form setting, and when first extrusion groove 131 and the surface contact of heat pipe, can play the positioning action to the heat pipe, with the heat pipe location in the recess of radiator, be favorable to carrying out the secondary location.

In another embodiment of the present invention, as shown in fig. 1-2, the second roller set 20 includes a second connecting column 21, a second mounting seat 22, a second roller 23, a second connecting shaft 24 and two second bearings 25; the top of second spliced pole 21 with another output of multiaxis ware is connected, the bottom of second spliced pole 21 with the top fixed connection of second mount pad 22, set up the second installation cavity 221 that runs through its bottom on the second mount pad 22, still set up two second mounting holes 222 that run through its both ends lateral wall respectively on the second mount pad 22, two second mounting holes 222 all with second installation cavity 221 intercommunication, second gyro wheel 23 with second connecting axle 24 all locates in the second installation cavity 221, just second gyro wheel 23 with the middle part tight fit of second connecting axle 24 is connected, the both ends of second connecting axle 24 respectively with two the inner circle tight fit of second bearing 25 is connected, two the outer lane of second bearing 25 respectively with two the inner wall tight fit of second mounting hole 222 is connected. Specifically, the second connecting column 21 is arranged in a cylindrical shape, the top of the second connecting column 21 is fixedly connected with one output end of the multi-axis device, the bottom of the second connecting column 21 is fixedly connected with the second mounting seat 22, the second mounting seat 22 is provided with a second mounting cavity 221 which is downward in the direction of opening, the second mounting cavity 221 is arranged in a rectangular shape, the second mounting seat 22 is further provided with two second mounting holes 222, the two second mounting holes 222 are both communicated with the second mounting cavity 221, the two second mounting holes 222 are both arranged in a circular shape, the second connecting shaft 24 penetrates through the second roller 23 to fix the second roller 23, then the two second bearings 25 are respectively sleeved at the two ends of the second connecting shaft 24 in the length direction, and then the two second bearings 25 are respectively arranged in the two second mounting holes 222, so that the installation of the second roller 23 can be realized, the thickness of the second roller 23 is just smaller than the inner wall of the second mounting cavity 221, the second roller 23 can keep stable rotation when the pipe is pressed, which is beneficial to improving the pipe pressing precision.

In another embodiment of the present invention, as shown in fig. 1-2, the second roller 23 is provided with a second extruding groove 231 penetrating through the annular direction thereof and used for secondarily positioning the heat pipe, and the second extruding groove 231 is disposed in an arc shape. Specifically, second extrusion groove 231 has been seted up on the circumferencial direction of second gyro wheel 23, and second extrusion groove 231 is the arc form setting, and when second extrusion groove 231 and the surface contact of heat pipe, can play the positioning action to the heat pipe, with the heat pipe relocate in the recess of radiator to in squeezing the entering recess slightly with the heat pipe, be favorable to carrying out accurate pressure pipe.

In another embodiment of the present invention, as shown in fig. 1 to 2, the radian of the first extruding groove 131 is larger than that of the second extruding groove 231. Specifically, the radian of the second extrusion groove 231 is smaller than that of the first extrusion groove 131, so that the heat pipe can be positioned when the second extrusion groove 231 is in contact with the heat pipe, and the production precision is improved.

In another embodiment of the present invention, as shown in fig. 1-2, the third roller set 30 includes a third connecting column 31, a third mounting seat 32, a third roller 33, a third connecting shaft 34 and two third bearings 35; the top of third spliced pole 31 with the remaining output of multiaxis ware is connected, the bottom of third spliced pole 31 with the top fixed connection of third mount pad 32, set up the third installation cavity 321 that runs through its bottom on the third mount pad 32, still set up two third mounting holes 322 that run through its both ends lateral wall respectively on the third mount pad 32, two third mounting holes 322 all with third installation cavity 321 intercommunication, third gyro wheel 33 with third connecting axle 34 all locates in the third installation cavity 321, just third gyro wheel 33 with the middle part tight fit of third connecting axle 34 is connected, the both ends of third connecting axle 34 respectively with two the triaxial inner circle tight fit of third bearing 35 is connected, two the outer lane of third bearing 35 respectively with two the inner wall tight fit of third mounting hole 322 is connected. Specifically, the third connecting column 31 is arranged in a cylindrical shape, the top of the third connecting column 31 is fixedly connected with one of the output ends of the multi-axis device, the bottom of the third connecting column 31 is fixedly connected with the third mounting seat 32, the third mounting seat 32 is provided with a third mounting cavity 321 with a downward opening, the third mounting cavity 321 is arranged in a rectangular shape, the third mounting seat 32 is further provided with two third mounting holes 322, the two third mounting holes 322 are both communicated with the third mounting cavity 321, the two third mounting holes 322 are both arranged in a circular shape, the third connecting shaft 34 passes through the third roller 33 to fix the third roller 33, then the two third bearings 35 are respectively sleeved at the two ends of the third connecting shaft 34 in the length direction, and then the two third bearings 35 are respectively arranged in the two third mounting holes 322, so that the third roller 33 can be installed, the thickness of the third roller 33 is just smaller than the inner wall of the third mounting cavity 321, the third roller 33 can keep smooth rotation when the pipe is pressed, which is beneficial to improving the pipe pressing precision.

In another embodiment of the present invention, as shown in fig. 1 to 2, a flange 331 is disposed annularly on the third roller 33 in the circumferential direction and used for pressing in a heat pipe. Specifically, the flange 331 is arranged in the peripheral direction of the third roller 33, the surface of the flange 331 is flat and matched with the plane on the radiator, and then the flange 331 presses the heat pipe into the groove and then stops pressing the pipe continuously, so that excessive pressing of the pipe can be avoided, and the heat pipe is prevented from being broken.

In another embodiment of the present invention, as shown in fig. 1-2, the thickness of the first roller 13, the thickness of the second roller 23 and the thickness of the third roller 33 are the same, the first connecting column 11 and the first mounting seat 12 are fastened by two screws (not shown), the second connecting column 21 and the second mounting seat 22 are fastened by two screws, and the third connecting column 31 and the third mounting seat 32 are fastened by two screws. Specifically, the thickness of first gyro wheel 13, second gyro wheel 23 and third gyro wheel 33 is all the same, is favorable to accelerating the pipe speed of pressing of same model specification heat pipe, through two screw fastening between first spliced pole 11 and the first mount pad 12, through two screw fastening between second spliced pole 21 and the second mount pad 22, through two screw fastening between third spliced pole 31 and the third mount pad 32, is favorable to keeping the steadiness of connecting like this, prevents the pine and takes off.

In another embodiment of the present invention, a numerical control intelligent rolling forming machine is provided, which includes the above-mentioned rolling mechanism for heat pipe of radiator. Specifically, the utility model discloses a numerical control intelligence roll extrusion make-up machine (not shown), owing to use there is foretell radiator heat pipe rolling mechanism, compare in traditional punch press and clap pressure technology, avoided the rigid contact of punch press with the heat pipe, the replacement is the mode extrusion heat pipe of flexonics, has avoided the heat pipe effectively to be crushed or the phenomenon of broken pipe to take place.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. The utility model provides a radiator heat pipe rolling mechanism, includes multiaxis ware, its characterized in that: the rolling mechanism for the heat pipe of the radiator further comprises a first roller group, a second roller group and a third roller group; the multi-axis machine has three outputs that are the annular and arrange, first roller train second roller train with third roller train respectively with the three output of multi-axis machine is connected, just the multi-axis machine drives respectively first roller train second roller train with third roller train rotates along the annular direction, first roller train at first carries out the primary location with heat pipe and radiator, second roller train carries out the secondary location with heat pipe and radiator and impresses the heat pipe in the radiator slightly, third roller train and heat pipe contact compress tightly heat pipe and radiator.

2. The heat sink heat pipe rolling mechanism according to claim 1, wherein: the first roller group comprises a first connecting column, a first mounting seat, a first roller, a first connecting shaft and two first bearings; the top of first spliced pole with one of them output of multiaxis ware is connected, the bottom of first spliced pole with the top fixed connection of first mount pad, set up the first installation cavity that runs through its bottom on the first mount pad, still set up two first mounting holes that run through its both ends lateral wall respectively on the first mount pad, two first mounting hole all with first installation cavity intercommunication, first gyro wheel with first connecting axle all locates in the first installation cavity, just first gyro wheel with the middle part tight fit of first connecting axle is connected, the both ends of first connecting axle are respectively with two the inner circle tight fit of first bearing is connected, two the outer lane of first bearing respectively with two the inner wall tight fit of first mounting hole is connected.

3. The heat sink heat pipe rolling mechanism according to claim 2, wherein: the first roller is provided with a first extrusion groove which runs through the first roller in the annular direction and is used for primarily positioning the heat pipe, and the first extrusion groove is arranged in an arc shape.

4. The heat sink heat pipe rolling mechanism according to claim 3, wherein: the second roller group comprises a second connecting column, a second mounting seat, a second roller, a second connecting shaft and two second bearings; the top of second spliced pole with another output of multiaxis ware is connected, the bottom of second spliced pole with the top fixed connection of second mount pad, set up the second installation cavity that runs through its bottom on the second mount pad, still set up two second mounting holes that run through its both ends lateral wall respectively on the second mount pad, two the second mounting hole all with second installation cavity intercommunication, the second gyro wheel with the second connecting axle is all located in the second installation cavity, just the second gyro wheel with the middle part tight fit of second connecting axle is connected, the both ends of second connecting axle respectively with two the inner circle tight fit of second bearing is connected, two the outer lane of second bearing respectively with two the inner wall tight fit of second mounting hole is connected.

5. The heat sink heat pipe rolling mechanism according to claim 4, wherein: and a second extrusion groove which penetrates through the second roller in the annular direction and is used for positioning the heat pipe for the second time is formed in the second roller, and the second extrusion groove is arranged in an arc shape.

6. The heat sink heat pipe rolling mechanism according to claim 5, wherein: the radian of the first extrusion groove is larger than that of the second extrusion groove.

7. The heat sink heat pipe rolling mechanism according to claim 4, wherein: the third roller group comprises a third connecting column, a third mounting seat, a third roller, a third connecting shaft and two third bearings; the top of third spliced pole with the remaining output of multiaxis ware is connected, the bottom of third spliced pole with the top fixed connection of third mount pad, set up the third installation cavity that runs through its bottom on the third mount pad, still set up two third mounting holes that run through its both ends lateral wall respectively on the third mount pad, two the third mounting hole all with third installation cavity intercommunication, the third gyro wheel with the third connecting axle is all located in the third installation cavity, just the third gyro wheel with the middle part tight fit of third connecting axle is connected, the both ends of third connecting axle respectively with two the inner circle tight fit of third bearing is connected, two the outer lane of third bearing respectively with two the inner wall tight fit of third mounting hole is connected.

8. The heat sink heat pipe rolling mechanism according to claim 7, wherein: and the periphery of the third roller is provided with a flange which is annularly arranged and used for pressing in the heat pipe.

9. The heat sink heat pipe rolling mechanism according to claim 7, wherein: the thicknesses of the first roller, the second roller and the third roller are the same; the first connecting column is fastened with the first mounting seat through two screws, the second connecting column is fastened with the second mounting seat through two screws, and the third connecting column is fastened with the third mounting seat through two screws.

10. The utility model provides a numerical control intelligence roll forming machine which characterized in that: the heat radiator heat pipe rolling mechanism comprises the heat radiator heat pipe rolling mechanism as claimed in any one of claims 1 to 9.

Images