阅读说明：本技术 热管散热器生产线用散热设备 (Heat radiation equipment for heat pipe radiator production line ) 是由 曾茂进 夏波涛 王捷 胡利辉 于 2021-08-05 设计创作，主要内容包括：本发明公开了一种热管散热器生产线用散热设备,旨在提供一种能够有效的提高由加热炉内输出后的热管散热器的散热降温效率,从而提高热管散热器的生产效率,并有效缩短散热输送带的长度,以降低设备占用的场地面积的热管散热器生产线用散热设备。它包括加热炉输送带与散热输送带、位于加热炉输送带与散热输送带之间的散热器调节装置及风冷散热装置,散热器调节装置用于调节热管散热器的位置,以使输送到散热输送带上的热管散热器的散热翅片与散热输送带的输送方向相垂直,风冷散热装置包括向散热输送带上的热管散热器吹风的第一吹风装置,第一吹风装置的吹风方向与散热输送带的输送方向相垂直。(The invention discloses heat dissipation equipment for a heat pipe radiator production line, and aims to provide heat dissipation equipment for the heat pipe radiator production line, which can effectively improve the heat dissipation and cooling efficiency of a heat pipe radiator output from a heating furnace, thereby improving the production efficiency of the heat pipe radiator, effectively shortening the length of a heat dissipation conveying belt, and reducing the occupied area of the equipment. The air-cooled heat dissipation device comprises a heating furnace conveying belt, a heat dissipation conveying belt, a heat radiator adjusting device and an air-cooled heat dissipation device, wherein the heat radiator adjusting device is positioned between the heating furnace conveying belt and the heat dissipation conveying belt and is used for adjusting the position of a heat pipe radiator so that a heat dissipation fin of the heat pipe radiator conveyed to the heat dissipation conveying belt is perpendicular to the conveying direction of the heat dissipation conveying belt, the air-cooled heat dissipation device comprises a first air blowing device for blowing air to the heat pipe radiator on the heat dissipation conveying belt, and the air blowing direction of the first air blowing device is perpendicular to the conveying direction of the heat dissipation conveying belt.)

1. A heat radiation device for a heat pipe radiator production line is characterized by comprising a heating furnace conveying belt and a heat radiation conveying belt for conveying a heat pipe radiator, a radiator adjusting device for adjusting the position of the heat pipe radiator and an air cooling heat radiation device for cooling the heat pipe radiator, wherein one side of the heat pipe radiator is provided with a plurality of heat radiation fins which are distributed at equal intervals and are parallel to each other, the radiator adjusting device is positioned between the heating furnace conveying belt and the heat radiation conveying belt, the radiator adjusting device is used for adjusting the position of the heat pipe radiator, so that the radiating fins of the heat pipe radiator conveyed to the radiating conveying belt are vertical to the conveying direction of the radiating conveying belt, the air-cooled heat dissipation device comprises a first air blowing device for blowing air to the heat pipe radiator on the heat dissipation conveying belt, the first air blowing device blows air in the horizontal direction, and the air blowing direction of the first air blowing device is perpendicular to the conveying direction of the heat dissipation conveying belt.

2. The heat dissipation device for the heat pipe radiator production line according to claim 1, wherein the radiator adjusting device comprises a left adjusting conveyor belt and a right adjusting conveyor belt which are positioned at the same height and are parallel to each other, a lifting frame positioned between the two adjusting conveyor belts, a lifting frame driving device for driving the lifting frame to lift up and down, and a plurality of position adjusting devices arranged on the lifting frame, wherein the conveying directions of the heating furnace conveyor belt, the adjusting conveyor belt and the heat dissipation conveyor belt are parallel;

the position adjusting device comprises a roller adjusting group, the roller adjusting group comprises a plurality of horizontal adjusting rollers which are sequentially distributed at equal intervals along the conveying direction of the adjusting conveyer belt, the horizontal adjusting rollers of the same roller adjusting group are parallel, an included angle between the axis of each horizontal adjusting roller and the conveying direction of the adjusting conveyer belt is defined as an adjusting angle of each horizontal adjusting roller, each position adjusting device is sequentially distributed along the conveying direction of the adjusting conveyer belt, and the adjusting angle of each horizontal adjusting roller of each position adjusting device is sequentially increased along the conveying direction of the adjusting conveyer belt;

in each position adjusting device, the roller adjusting groups of the position adjusting device close to the output end of the adjusting conveying belt form a group, and the adjusting angle of the horizontal adjusting roller of the position adjusting device is 90 degrees; the roller adjusting groups of the rest position adjusting devices are two groups, and in the same position adjusting device, the two groups of roller adjusting groups are distributed along the conveying direction of the adjusting conveyer belt, the adjusting angles of the horizontal adjusting rollers of the two groups of roller adjusting groups are the same, the horizontal adjusting rollers of the two groups of roller adjusting groups are distributed in an inclined mode, and the inclined directions of the horizontal adjusting rollers of the two groups of roller adjusting groups are opposite.

3. When the lifting frame descends to the lowest position, the horizontal adjusting rolling shafts of the position adjusting devices are positioned below the upper surfaces of the adjusting conveying belts, and at the moment, the heat pipe radiators conveyed to the radiator adjusting devices are supported on the two adjusting conveying belts; when the lifting frame rises to the highest position, the horizontal adjusting rolling shafts of the position adjusting devices are positioned above the upper surface of the adjusting conveying belt, and at the moment, the heat pipe radiators conveyed to the radiator adjusting devices are supported on the horizontal adjusting rolling shafts of the rolling shaft adjusting groups.

4. The heat dissipation device as claimed in claim 2, wherein a plurality of fins are equally spaced and parallel to each other on one side of the heat pipe radiator, the thickness of the fin is defined as T, and the distance between two adjacent fins is defined as D; the diameters of the horizontal adjusting rollers of each position adjusting device are the same, the diameter of each horizontal adjusting roller is larger than D, and the center distance between any two adjacent horizontal adjusting rollers in the same roller adjusting group is an integral multiple of (T + D).

5. The heat dissipating device of claim 2 or 3, further comprising a stop rod assembly, wherein the stop rod assembly comprises two parallel horizontal stop rods, the horizontal stop rods are parallel to the conveying direction of the conveying belt of the heating furnace, and the horizontal stop rods are located right above the conveying belt of the heating furnace.

6. The heat dissipating device of claim 4, wherein one end of the horizontal limiting rod is close to the input end of the conveying belt of the heating furnace, the other end of the horizontal limiting rod extends above the adjusting conveying belt in the direction of the adjusting conveying belt, the other end of the horizontal limiting rod is close to the output end of the adjusting conveying belt, one of the two horizontal limiting rods is located above one adjusting conveying belt, and the other horizontal limiting rod is located above the other adjusting conveying belt.

7. The heat dissipation device as claimed in claim 1, 2 or 3, wherein the heat sink adjustment device further comprises a frame and a vertical guide sleeve disposed on the frame, the lifting frame is provided with a vertical guide rod matched with the vertical guide sleeve, the lifting frame driving device comprises a top plate disposed on the lifting frame, a rotating shaft rod rotatably disposed on the frame, an eccentric wheel disposed on the rotating shaft rod, and a synchronous belt transmission mechanism or a chain transmission mechanism connecting the rotating shaft rod and a rotating shaft for adjusting a driving wheel of the conveying belt, the top plate is disposed below the position adjustment device, the top plate is disposed above the eccentric wheel, and the top plate is supported on the eccentric wheel.

8. The heat dissipating device of claim 6, wherein the vertical guide rod further comprises a guide rod limiting block, and the guide rod limiting block is located above the vertical guide sleeve.

9. The heat dissipating apparatus of claim 2 or 3, wherein the adjusting belt is a link plate belt.

10. The heat dissipating apparatus of claim 1, 2 or 3, wherein the heating furnace conveyor belt and the heat dissipating conveyor belt are both link plate conveyor belts.

Technical Field

The invention relates to heat pipe radiator production equipment, in particular to heat pipe radiator production line heat radiation equipment.

Background

The conventional heat pipe radiator generally includes a radiator body (generally square), a plurality of parallel heat dissipation fins equidistantly distributed on one side of the radiator body, and a heat pipe embedded in the radiator body, wherein the radiator body and the heat dissipation fins are generally of an integrally formed structure. The actual production process of the heat pipe radiator is generally as follows, the radiator body and the radiating fins are integrally manufactured and molded, and the side surface of the radiator body opposite to the radiating fins is provided with heat pipe embedding grooves; then, the heat pipe and the hot-melt filler are placed into a heat pipe embedding groove together, then a heat pipe radiator is manually placed on a heating furnace conveying belt (the notch of the heat pipe embedding groove of the heat pipe radiator is upward, and a radiating fin is downward and supported on the heating furnace conveying belt), the heat pipe radiator is input into a tunnel type heating furnace through the heating furnace conveying belt, and the heat pipe radiator is heated, so that the hot-melt filler is melted, and the heat pipe is embedded into a radiator body; and then, outputting the heat pipe radiator to a heat dissipation conveyor belt through a heating furnace conveyor belt, arranging an air-cooled heat dissipation device above the heat dissipation conveyor belt, blowing air downwards by the air-cooled heat dissipation device to cool the heat pipe radiator on the heat dissipation conveyor belt, and manually taking down the heat pipe radiator from the heat dissipation conveyor belt after the temperature of the heat pipe radiator is reduced to a set value. The existing production line for manufacturing the heat pipe radiator has the following defects that the heat pipe radiator has higher temperature after being output from the tunnel type heating furnace, and the air cooling heat dissipation device adopts a heat dissipation mode of blowing air from top to bottom, so that the heat dissipation and cooling effects on the heat pipe radiator are poor, the heat dissipation and cooling time of the heat pipe radiator after being output from the tunnel type heating furnace is required to be prolonged, and the production efficiency of the heat pipe radiator is influenced; but also greatly prolong the length of the heat dissipation conveying belt and increase the occupied area of the equipment.

Disclosure of Invention

The invention aims to provide the heat-radiating equipment for the heat-pipe radiator production line, which can effectively improve the heat-radiating and cooling efficiency of the heat-pipe radiator output from the heating furnace, thereby improving the production efficiency of the heat-pipe radiator, effectively shortening the length of a heat-radiating conveying belt and reducing the occupied area of the equipment.

The technical scheme of the invention is as follows:

a heat radiation device for a heat pipe radiator production line comprises a heating furnace conveying belt and a heat radiation conveying belt for conveying a heat pipe radiator, a radiator adjusting device for adjusting the position of the heat pipe radiator and an air cooling heat radiation device for cooling the heat pipe radiator, wherein one side of the heat pipe radiator is provided with a plurality of heat radiation fins which are distributed at equal intervals and are parallel to each other, the radiator adjusting device is positioned between the heating furnace conveying belt and the heat radiation conveying belt, the radiator adjusting device is used for adjusting the position of the heat pipe radiator, so that the radiating fins of the heat pipe radiator conveyed to the radiating conveying belt are vertical to the conveying direction of the radiating conveying belt, the air-cooled heat dissipation device comprises a first air blowing device for blowing air to the heat pipe radiator on the heat dissipation conveying belt, the first air blowing device blows air in the horizontal direction, and the air blowing direction of the first air blowing device is perpendicular to the conveying direction of the heat dissipation conveying belt.

The heat pipe radiator production line heat dissipation equipment changes the blowing direction of the air cooling heat dissipation device into side blowing, so that in the process of conveying the heat pipe radiator along the heat dissipation conveying belt, the airflow generated by the first blowing device can not only perform integral heat dissipation on the heat pipe radiator, but also perform air blowing heat dissipation on each heat dissipation fin of the heat pipe radiator, thereby improving the heat dissipation efficiency; more importantly, the heat pipe radiator production line heat dissipation equipment of the scheme is provided with the radiator adjusting device between the heating furnace conveying belt and the heat dissipation conveying belt, and the radiator adjusting device is used for adjusting the position of the heat pipe radiator so as to enable the heat dissipation fins of the heat pipe radiator conveyed to the heat dissipation conveying belt to be perpendicular to the conveying direction of the heat dissipation conveying belt; meanwhile, the first air blowing device blows air in the horizontal direction, and the air blowing direction of the first air blowing device is perpendicular to the conveying direction of the heat dissipation conveying belt; so, at the in-process that heat pipe radiator carried along the cooling conveyer belt, the air current that first air-blowing device produced will pass through heat pipe radiator's each radiating fin's clearance, and the air current that first air-blowing device produced is roughly parallel with radiating fin, thereby the very big flow resistance loss that the air current that first air-blowing device produced flows through each radiating fin's clearance of reduction, make the air current can be quick each radiating fin's of flowing through clearance, with the very big cooling efficiency that reduces heat pipe radiator's that improves, thereby improve heat pipe radiator's production efficiency, and effectively shorten cooling conveyer belt's length, reduce the area of ground that equipment occupy.

Preferably, the radiator adjusting device comprises a left adjusting conveyer belt and a right adjusting conveyer belt which are positioned at the same height and are parallel to each other, a lifting frame positioned between the two adjusting conveyer belts, a lifting frame driving device used for driving the lifting frame to lift up and down, and a plurality of position adjusting devices arranged on the lifting frame, wherein the conveying directions of the heating furnace conveyer belt, the adjusting conveyer belt and the radiating conveyer belt are parallel;

the position adjusting device comprises a roller adjusting group, the roller adjusting group comprises a plurality of horizontal adjusting rollers which are sequentially distributed at equal intervals along the conveying direction of the adjusting conveyer belt, the horizontal adjusting rollers of the same roller adjusting group are parallel, an included angle between the axis of each horizontal adjusting roller and the conveying direction of the adjusting conveyer belt is defined as an adjusting angle of each horizontal adjusting roller, each position adjusting device is sequentially distributed along the conveying direction of the adjusting conveyer belt, and the adjusting angle of each horizontal adjusting roller of each position adjusting device is sequentially increased along the conveying direction of the adjusting conveyer belt;

in each position adjusting device, the roller adjusting groups of the position adjusting device close to the output end of the adjusting conveying belt form a group, and the adjusting angle of the horizontal adjusting roller of the position adjusting device is 90 degrees; the roller adjusting groups of the rest position adjusting devices are two groups, and in the same position adjusting device, the two groups of roller adjusting groups are distributed along the conveying direction of the adjusting conveyer belt, the adjusting angles of the horizontal adjusting rollers of the two groups of roller adjusting groups are the same, the horizontal adjusting rollers of the two groups of roller adjusting groups are distributed in an inclined mode, and the inclined directions of the horizontal adjusting rollers of the two groups of roller adjusting groups are opposite.

When the lifting frame descends to the lowest position, the horizontal adjusting rolling shafts of the position adjusting devices are positioned below the upper surfaces of the adjusting conveying belts, and at the moment, the heat pipe radiators conveyed to the radiator adjusting devices are supported on the two adjusting conveying belts; when the lifting frame rises to the highest position, the horizontal adjusting rolling shafts of the position adjusting devices are positioned above the upper surface of the adjusting conveying belt, and at the moment, the heat pipe radiators conveyed to the radiator adjusting devices are supported on the horizontal adjusting rolling shafts of the rolling shaft adjusting groups.

The heat radiator adjusting device of the scheme utilizes the cooperation of the heat radiating fins of the heat pipe radiator and the rolling shaft adjusting group to adjust the position of the heat pipe radiator conveyed along the adjusting conveying belt, so that the heat radiating fins of the heat pipe radiator conveyed to the heat radiating conveying belt are perpendicular to the conveying direction of the heat radiating conveying belt; and in the process of adjusting the position of the heat pipe radiator, the heat radiating fins of the heat pipe radiator are hardly abraded.

Preferably, one side of the heat pipe radiator is provided with a plurality of radiating fins which are distributed at equal intervals and are parallel to each other, the thickness of each radiating fin is defined as T, and the distance between every two adjacent radiating fins is defined as D; the diameters of the horizontal adjusting rollers of each position adjusting device are the same, the diameter of each horizontal adjusting roller is larger than D, and the center distance between any two adjacent horizontal adjusting rollers in the same roller adjusting group is an integral multiple of (T + D).

Preferably, the heating furnace conveying belt structure further comprises a limiting rod assembly, the limiting rod assembly comprises two horizontal limiting rods which are parallel to each other, the horizontal limiting rods are parallel to the conveying direction of the heating furnace conveying belt, and the horizontal limiting rods are located right above the heating furnace conveying belt. Therefore, the heat pipe radiators conveyed on the heating furnace conveying belt can be limited through the two horizontal limiting rods of the limiting rod assembly, and the heat pipe radiators output to the radiator adjusting device on the heating furnace conveying belt are located on the two adjusting conveying belts.

Preferably, one end of each horizontal limiting rod is close to the input end of the conveying belt of the heating furnace, the other end of each horizontal limiting rod extends to the upper side of the adjusting conveying belt in the direction of the adjusting conveying belt, the other end of each horizontal limiting rod is close to the output end of the adjusting conveying belt, one horizontal limiting rod of the two horizontal limiting rods is located above one adjusting conveying belt, and the other horizontal limiting rod of the two horizontal limiting rods is located above the other adjusting conveying belt. Therefore, the heat pipe radiators conveyed on the two adjusting conveying belts can be limited through the two horizontal limiting rods of the limiting rod assembly, so that the heat pipe radiators are conveyed on the two adjusting conveying belts, and the heat pipe radiators can sequentially enter each position adjusting device to ensure that the heat radiating fins of the heat pipe radiators conveyed on the heat radiating conveying belts are perpendicular to the conveying direction of the heat radiating conveying belts.

Preferably, the radiator adjusting device further comprises a rack and a vertical guide sleeve arranged on the rack, a vertical guide rod matched with the vertical guide sleeve is arranged on the lifting frame, the lifting frame driving device comprises a top plate arranged on the lifting frame, a rotating shaft rod rotatably arranged on the rack, an eccentric wheel arranged on the rotating shaft rod and a synchronous belt transmission mechanism or a chain transmission mechanism which is connected with the rotating shaft rod and a rotating shaft of a driving wheel for adjusting the conveying belt, the top plate is positioned below the position adjusting device and above the eccentric wheel, and the top plate is supported on the eccentric wheel. Therefore, in the working process of adjusting the conveying belt, the synchronous belt transmission mechanism or the chain transmission mechanism synchronously drives the rotating shaft rod and the eccentric wheel to rotate, so that the lifting frame and each position adjusting device are driven to lift up and down, and extra power equipment is not required to be arranged to drive the lifting frame to lift up and down.

Preferably, the vertical guide rod is further provided with a guide rod limiting block, and the guide rod limiting block is located above the vertical guide sleeve.

Preferably, the adjusting conveyor belt is a chain plate conveyor belt.

Preferably, the heating furnace conveying belt and the heat dissipation conveying belt are both chain plate conveying belts.

The invention has the beneficial effects that: the heat dissipation cooling efficiency of the heat pipe radiator after being output from the heating furnace can be effectively improved, so that the production efficiency of the heat pipe radiator is improved, the length of a heat dissipation conveying belt is effectively shortened, and the occupied site area of equipment is reduced.

Drawings

Fig. 1 is a plan view of a heat dissipating apparatus for a heat pipe radiator production line of the present invention.

Fig. 2 is a partial structural schematic diagram of the heat sink adjusting device of the heat sink assembly line for heat pipes according to the present invention when the lifting frame is lowered to the lowest position.

Fig. 3 is a schematic view of a partial structure of the lifting frame of the radiator adjusting device of the heat sink assembly line for heat pipe radiators of the present invention when the lifting frame is lifted to the highest position.

Fig. 4 is a schematic structural diagram of a heat pipe radiator in the prior art.

In the figure:

a heating furnace conveyor belt 1;

a limiting rod component 2;

a heat dissipation conveyor belt 3;

the device comprises a radiator adjusting device 4, an adjusting conveying belt 4.1, a position adjusting device 4.2, a roller adjusting group 4.21, a horizontal adjusting roller 4.211, a lifting frame 4.3, a vertical guide rod 4.31, a machine frame 4.4, a vertical guide sleeve 4.41, a lifting frame driving device 4.5, a top plate 4.51, an eccentric wheel 4.52 and a synchronous belt transmission mechanism 4.53;

the air conditioner comprises a first air blowing device 5, a first air guide pipe 5.1 and a first air inlet pipeline 5.2;

a heat pipe radiator 6 and a radiating fin 6.1.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions of the embodiments of the present invention are clearly explained and illustrated below with reference to the accompanying drawings, but the following embodiments are only preferred embodiments of the present invention, and not all embodiments. Based on the embodiments in the implementation, other embodiments obtained by those skilled in the art without any creative effort belong to the protection scope of the present invention.

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar 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 only for explaining the present scheme, and are not construed as limiting the scheme of the present invention.

These and other aspects of embodiments of the invention will be apparent with reference to the following description and attached drawings. In the description and drawings, particular embodiments of the invention have been disclosed in detail as being indicative of some of the ways in which the principles of the embodiments of the invention may be practiced, but it is understood that the scope of the embodiments of the invention is not limited thereby. On the contrary, the embodiments of the invention include all changes, modifications and equivalents coming within the spirit and terms of the claims appended hereto.

In the description of the present invention, it is to be understood that the terms "thickness", "upper", "lower", "horizontal", "top", "bottom", "inner", "outer", "circumferential", and the like, indicate orientations and positional relationships based on those shown in the drawings, and are used merely for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., and "several" means one or more unless specifically limited otherwise.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integrally formed; may be mechanically coupled, may be electrically coupled or may be in communication with each other; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

The first embodiment is as follows: as shown in fig. 1, fig. 2, fig. 3, and fig. 4, a heat dissipation apparatus for a heat pipe radiator production line includes a limiting rod assembly 2, a heating furnace conveyor belt 1 and a heat dissipation conveyor belt 3 for conveying a heat pipe radiator 6, a radiator adjusting device 4 for adjusting the position of the heat pipe radiator, and an air-cooled heat dissipation device 5 for cooling the heat pipe radiator. In this embodiment, the heating furnace conveyer belts are distributed horizontally. One side of the heat pipe radiator is provided with a plurality of radiating fins 6.1 which are distributed at equal intervals and are parallel to each other, in the embodiment, the heat pipe radiator comprises a rectangular radiator body and a plurality of radiating fins which are distributed at equal intervals and are parallel to each other on one side surface of the radiator body, the radiating fins are flat-shaped, the radiating fins are sequentially distributed at equal intervals along the long edge direction of the radiator body, and the radiator body and the radiating fins are generally of an integrally formed structure.

The air-cooled heat dissipation device 5 comprises a first air blowing device for blowing air to the heat pipe radiator on the heat dissipation conveying belt, the first air blowing device blows air in the horizontal direction, and the air blowing direction of the first air blowing device is perpendicular to the conveying direction of the heat dissipation conveying belt.

The radiator adjusting device 4 is positioned between the heating furnace conveying belt and the radiating conveying belt. The heat radiator adjusting device is used for adjusting the position of the heat pipe radiator so that the heat radiating fins of the heat pipe radiator conveyed to the heat radiating conveying belt are perpendicular to the conveying direction of the heat radiating conveying belt.

The radiator adjusting device comprises a left adjusting conveyer belt 4.1, a right adjusting conveyer belt 4.1, a lifting frame 4.3, a lifting frame driving device 4.5 and a plurality of position adjusting devices 4.2, wherein the left adjusting conveyer belt and the right adjusting conveyer belt are positioned at the same height and are parallel to each other, the lifting frame is positioned between the two adjusting conveyer belts, and the lifting frame driving device is used for driving the lifting frame to lift up and down. The conveying directions of the heating furnace conveying belt, the adjusting conveying belt and the radiating conveying belt are parallel. In this embodiment, the number of the position adjusting devices is 3. Two synchronous syntropy operations of regulation conveyer belt, in this embodiment, two are adjusted the conveyer belt and are included the drive wheel and follow the driving wheel, and two drive wheels of adjusting the conveyer belt are fixed in same drive shaft, and it is rotatory through same drive shaft drive to guarantee two synchronous syntropy operations of adjusting the conveyer belt.

The position adjusting device 4.2 comprises a roller adjusting group 4.21. The roller adjusting group comprises a plurality of horizontal adjusting rollers 4.211 which are sequentially distributed at equal intervals along the conveying direction of the adjusting conveyer belt, and the horizontal adjusting rollers of the same roller adjusting group are positioned at the same height and are parallel to each other. The horizontal adjusting rollers are horizontally distributed and are rotatably arranged on the lifting frame. The included angle between the axis of the horizontal adjusting roller and the conveying direction of the adjusting conveyer belt is defined as the adjusting angle of the horizontal adjusting roller. The position adjusting devices are sequentially distributed along the conveying direction of the adjusting conveying belt, and the angle of the adjusting angle of the horizontal adjusting roller of each position adjusting device is sequentially increased along the conveying direction of the adjusting conveying belt. The diameters of the horizontal adjusting rolling shafts of the position adjusting devices are the same.

As shown in fig. 1, in each position adjusting device, the roller adjusting group 4.21 of the position adjusting device 4.2 close to the output end of the adjusting conveyer belt is a group, and the horizontal adjusting roller adjusting angle of the position adjusting device is 90 degrees; the roller adjusting groups 4.21 of the other position adjusting devices 4 are two groups, and in the same position adjusting device, the two roller adjusting groups are distributed along the conveying direction of the adjusting conveyer belt, the adjusting angles of the horizontal adjusting rollers of the two roller adjusting groups are the same, the horizontal adjusting rollers of the two roller adjusting groups are distributed in an inclined manner, and the inclined directions of the horizontal adjusting rollers of the two roller adjusting groups are opposite. In this embodiment, the horizontal adjusting roller adjusting angle of the two roller adjusting groups of the position adjusting device near the input end of the adjusting conveyer belt is 80 degrees; the horizontal adjusting roller adjusting angle of the two roller adjusting groups of the position adjusting device positioned in the middle of the adjusting conveyer belt is 85 degrees.

As shown in fig. 2, when the lifting frame is lowered to the lowest position, the horizontal adjusting rollers of each position adjusting device are located below the upper surface of the adjusting conveyer belt, and at this time, the heat pipe radiators 6 conveyed to the radiator adjusting devices are supported on the two adjusting conveyer belts 4.1.

As shown in fig. 3, when the lifting frame is lifted to the highest position, the horizontal adjusting rollers of each position adjusting device are positioned above the upper surface of the adjusting conveyer belt, and at the moment, the heat pipe radiator 6 conveyed to the radiator adjusting device is supported on the horizontal adjusting rollers of the roller adjusting group 4.21; specifically, when the lifting frame ascends to the highest position, the horizontal adjusting rolling shafts of the position adjusting devices are positioned above the upper surface of the adjusting conveying belt, and the distance between each horizontal adjusting rolling shaft and the upper surface of the adjusting conveying belt is 3-10 mm.

The limiting rod assembly comprises two horizontal limiting rods which are parallel to each other, the horizontal limiting rods are parallel to the conveying direction of the conveying belt of the heating furnace, and the horizontal limiting rods are located right above the conveying belt of the heating furnace. Therefore, the heat pipe radiators conveyed on the heating furnace conveying belt can be limited through the two horizontal limiting rods of the limiting rod assembly, and the heat pipe radiators output to the radiator adjusting device on the heating furnace conveying belt are ensured to be positioned on the two adjusting conveying belts; the direction of the heat pipe radiator conveyed on the hot furnace conveying belt is limited, and in actual operation, the radiating fins of the heat pipe radiator can be sequentially distributed along the conveying direction of the heating furnace conveying belt as long as the long side direction of the radiator body is approximately consistent with the conveying direction of the heating furnace conveying belt; meanwhile, the included angle between the radiating fin of the heat pipe radiator and the conveying direction of the conveying belt of the heating furnace is controlled within a set range.

The heat pipe radiator production line heat dissipation equipment of the embodiment specifically works as follows:

firstly, the heating furnace conveyer belt outputs the heated heat pipe radiator to two adjusting conveyer belts of a radiator adjusting device, so that the heat pipe radiator is simultaneously supported on the two adjusting conveyer belts; specifically, in the heat pipe radiator production line, the heating furnace conveying belt passes through the tunnel type heating furnace, the heat pipe radiators on the heating furnace conveying belt are placed on the heating furnace conveying belt in a manner of operators, the heat pipe radiators on the heating furnace conveying belt are located between two horizontal limiting rods, the heat radiating fins of the heat pipe radiators face downwards and are supported on the heating furnace conveying belt through the heat radiating fins, and the heat radiating fins of the heat pipe radiators are sequentially distributed along the conveying direction of the heating furnace conveying belt, so that the heat radiating fins of the heat pipe radiators can be sequentially distributed along the conveying direction of the heating furnace conveying belt; however, because the position of the heat pipe radiator on the conveying belt of the heating furnace is deviated, the heat radiating fins of the heat pipe radiator cannot be ensured to be vertical to the conveying direction of the conveying belt of the heating furnace, and only the included angle between the heat radiating fins of the heat pipe radiator and the conveying direction of the conveying belt of the heating furnace can be controlled within a set range;

secondly, the heat pipe radiators conveyed to the two adjusting conveying belts are supported on the two adjusting conveying belts through radiating fins, and the radiating fins of the heat pipe radiators are sequentially distributed along the conveying direction of the adjusting conveying belts; the heat pipe radiator is conveyed along the two adjusting conveyer belts and sequentially enters each position adjusting device, and in the process, the lifting frame driving device drives the lifting frame and each position adjusting device to continuously lift up and down;

when the lifting frame is lifted to the highest position, the heat pipe radiator is supported on the horizontal adjusting rolling shaft of the rolling shaft adjusting group through the heat radiating fins, and the heat radiating fins of the heat pipe radiator and the horizontal adjusting rolling shaft of the rolling shaft adjusting group are sequentially distributed along the conveying direction of the adjusting conveying belt; if the deviation between the included angle between the radiating fins of the heat pipe radiator and the conveying direction of the adjusting conveying belt and the adjusting angle of the horizontal adjusting roller of the position adjusting device is larger than the set range, the position of the heat pipe radiator is not adjusted;

thus, if the included angle between the radiating fins of the heat pipe radiator conveyed to the adjusting conveying belt and the conveying direction of the adjusting conveying belt is 80 +/-6 degrees, after the adjusting is carried out through the position adjusting device close to the input end of the adjusting conveying belt, the included angle between the radiating fins of the heat pipe radiator and the conveying direction of the adjusting conveying belt is adjusted to be 80 degrees; then, the heat pipe radiator is conveyed to the middle part of the adjusting conveying belt through the two adjusting conveying belts, and then is adjusted through a position adjusting device in the middle part of the adjusting conveying belt, and the included angle between the radiating fins of the heat pipe radiator and the conveying direction of the adjusting conveying belt is adjusted to be 85 degrees; then, the heat pipe radiator is conveyed backwards through the two adjusting conveyer belts and then adjusted through a position adjusting device close to the output end of the adjusting conveyer belts, and the included angle between the radiating fins of the heat pipe radiator and the conveying direction of the adjusting conveyer belts is adjusted to be 90 degrees; so that the radiating fins of the heat pipe radiator conveyed to the radiating conveying belt are vertical to the conveying direction of the radiating conveying belt. Meanwhile, in the process of adjusting the position of the heat pipe radiator, the heat radiating fins and the horizontal adjusting rolling shaft are in rolling friction, so that the heat radiating fins of the heat pipe radiator are hardly abraded.

Thirdly, the heat pipe radiator is input to the heat dissipation conveying belt through the two adjusting conveying belts and is conveyed backwards through the heat dissipation conveying belt, and because the heat dissipation fins of the heat pipe radiator conveyed to the heat dissipation conveying belt are perpendicular to the conveying direction of the heat dissipation conveying belt, the first air blowing device blows air in the horizontal direction, and the air blowing direction of the first air blowing device is perpendicular to the conveying direction of the heat dissipation conveying belt; so, at the in-process that heat pipe radiator carried along the cooling conveyer belt, the air current that first air-blowing device produced will pass through heat pipe radiator's each radiating fin's clearance, and the air current that first air-blowing device produced is roughly parallel with radiating fin, thereby the very big flow resistance loss that the air current that first air-blowing device produced flows through each radiating fin's clearance of reduction, make the air current can be quick each radiating fin's of flowing through clearance, with the very big cooling efficiency that reduces heat pipe radiator's that improves, thereby improve heat pipe radiator's production efficiency, and effectively shorten cooling conveyer belt's length, reduce the area of ground that equipment occupy.

Specifically, the thickness of the heat dissipation fin 6.1 of the heatpipe heat sink 6 is defined as T, and the distance between two adjacent heat dissipation fins is defined as D. The diameter of the horizontal adjusting roller is larger than D, and the center distance between any two adjacent horizontal adjusting rollers in the same roller adjusting group is integral multiple of (T + D). The center distance between two adjacent horizontal adjusting rollers is the distance between the axes of the two adjacent horizontal adjusting rollers.

The adjusting conveyer belt is a chain plate conveyer belt. The heating furnace conveying belt and the heat dissipation conveying belt are both chain plate conveying belts.

As shown in fig. 1, the first blowing device 5 includes a first air guiding pipe 5.1 parallel to the conveying direction of the heat dissipation conveying belt and a plurality of first air inlet pipes 5.2 connected to the first air guiding pipe, the first air inlet pipes are sequentially distributed along the length direction of the first air guiding pipe, a strip-shaped air outlet extending along the conveying direction of the heat dissipation conveying belt is arranged on one side of the first air guiding pipe facing the heat dissipation conveying belt, the first blowing device uses a fan or a high-pressure air source as power, and air flow generated by the fan or the high-pressure air source enters the first air guiding pipe through each first air inlet pipe and blows air to the heat dissipation conveying belt through the strip-shaped air outlet.

Furthermore, the air-cooled heat dissipation device also comprises a second air blowing device for blowing air to the heat pipe radiators on the adjusting conveying belt, wherein the second air blowing device is positioned above the adjusting conveying belt and blows air to the heat pipe radiators on the adjusting conveying belt from top to bottom.

Further, as shown in fig. 1, one end of the horizontal limiting rod is close to the input end of the conveying belt of the heating furnace, the other end of the horizontal limiting rod extends to the upper side of the adjusting conveying belt in the direction of the adjusting conveying belt, the other end of the horizontal limiting rod is close to the output end of the adjusting conveying belt, one horizontal limiting rod of the two horizontal limiting rods is located above one adjusting conveying belt, and the other horizontal limiting rod is located above the other adjusting conveying belt. Therefore, the heat pipe radiators conveyed on the two adjusting conveying belts can be limited through the two horizontal limiting rods of the limiting rod assembly, so that the heat pipe radiators are conveyed on the two adjusting conveying belts, and the heat pipe radiators can sequentially enter each position adjusting device to ensure that the heat radiating fins of the heat pipe radiators conveyed on the heat radiating conveying belts are perpendicular to the conveying direction of the heat radiating conveying belts.

Further, as shown in fig. 2, the heat sink adjusting device further includes a frame 4.4 and a vertical guide sleeve 4.41 disposed on the frame, and the lifting frame is provided with a vertical guide rod 4.31 engaged with the vertical guide sleeve. And a guide rod limiting block is also arranged on the vertical guide rod and is positioned above the vertical guide sleeve.

The lifting frame driving device is a vertical air cylinder or a vertical electric cylinder or a vertical oil cylinder arranged on the frame. In this embodiment, the crane driving device 4.5 includes a top plate 4.51 arranged on the crane, a rotating shaft rod rotatably arranged on the frame, an eccentric wheel 4.52 arranged on the rotating shaft rod, and a synchronous belt transmission mechanism 4.53 or a chain transmission mechanism connecting the rotating shaft rod and a rotating shaft for adjusting the driving wheel of the conveyer belt, wherein the top plate is arranged below the position adjusting device, the top plate is arranged above the eccentric wheel, and the top plate is supported on the eccentric wheel. Therefore, in the working process of adjusting the conveying belt, the synchronous belt transmission mechanism or the chain transmission mechanism synchronously drives the rotating shaft rod and the eccentric wheel to rotate, so that the lifting frame and each position adjusting device are driven to lift up and down, and extra power equipment is not required to be arranged to drive the lifting frame to lift up and down.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and all simple modifications, alterations and equivalents of the above embodiments according to the technical spirit of the present invention are still within the protection scope of the technical solution of the present invention.