阅读说明：本技术 一种散热翅片焊接固定用辅助固定构件 (Auxiliary fixing component for welding and fixing radiating fins ) 是由 李为忠 李海兵 于 2021-09-14 设计创作，主要内容包括：本发明提供一种散热翅片焊接固定用辅助固定构件,涉及焊接辅助技术领域,包括工作台,所述工作台上端开设有用于调节间距的散热管定距组件固定槽,所述散热管定距组件固定槽内滑动安装有用于固定与翅片间距的散热管定距组件,所述翅片升降滑轨上端滑动安装有用于固定翅片吸附组件的翅片吸附组件滑动板；本方案首先通过在工作台上滑动设计有散热管定距组件,并通过散热管定距组件旋转手轮拉动落位转杆以落位旋转块旋转,使抬杆圆块抵在连接推杆下端后,使抬杆圆块因自身椭圆形的外形,能够推动连接推杆向上联动定距卡板,并带动其四角的定距卡块脱离与散热管定距组件卡槽的卡紧,从而能够带动在散热管定距组件固定槽内调整位置的效果。(The invention provides an auxiliary fixing component for welding and fixing a radiating fin, which relates to the technical field of welding assistance and comprises a workbench, wherein a radiating pipe distance assembly fixing groove for adjusting the distance is formed in the upper end of the workbench; this scheme is at first through sliding design on the workstation has the cooling tube distance subassembly, and it is rotatory with the rotatory piece that falls to position bull stick through the rotatory hand wheel pulling of cooling tube distance subassembly, make and lift the pole circle piece and support behind the connection push rod lower extreme, make and lift the pole circle piece because of self oval-shaped appearance, can promote the connection push rod and upwards link the distance cardboard, and the distance fixture block that drives its four corners breaks away from the chucking with cooling tube distance subassembly draw-in groove, thereby can drive the effect of adjusting position in cooling tube distance subassembly fixed slot.)

1. The utility model provides a fin welded fastening is with supplementary fixed component, includes workstation (1), its characterized in that: radiating tube distance assembly fixing grooves (2) used for adjusting the distance are formed in the upper end of the workbench (1), radiating tube distance assemblies (3) used for fixing the distance between the radiating tube and the fin are arranged in the radiating tube distance assembly fixing grooves (2) in a sliding mode, radiating tube rotation shaft fixing assemblies (4) used for fixing radiating tube rotation shafts are installed at the upper ends of the radiating tube distance assemblies (3) in a rotating mode, a fin adsorption assembly bottom plate (5) is fixedly installed on the surface of the upper end of the workbench (1) and located on one side of the radiating tube distance assembly fixing grooves (2), a fin lifting slide rail fixing plate (6) vertically upwards from the surface of the fin adsorption assembly bottom plate (5) is fixedly connected with the fin lifting slide rail (12) in an integrated mode, one side surface of the fin lifting slide rail fixing plate (6) close to the radiating tube distance assembly fixing grooves (2), adsorption component fixed plate locking groove (13) that runs through fin lift slide rail fixed plate (6) are seted up to fin lift slide rail (12) front end surface, fin lift slide rail (12) upper end slidable mounting has fin adsorption component sliding plate (7) that are used for fixed fin adsorption component (10), cooling tube distance subassembly (3) include: the radiating pipe distance assembly comprises a radiating pipe distance assembly upper shell (301), a distance clamping plate (302), a distance reset spring (303), distance clamping rods (304), distance clamping blocks (305), a connecting shell (306), a connecting push rod (307), a distance assembly lower shell (308), a falling rotating block (309), a falling bearing (310), a falling rotating rod (311) and a lifting rod round block (312), wherein the radiating pipe distance assembly upper shell (301) is integrally and fixedly connected with the connecting shell (306) at the lower end, the connecting shell (306) is slidably arranged in a radiating pipe distance assembly fixing groove (2), the connecting shell (306) is integrally and fixedly connected with the distance assembly lower shell (308) at the lower end, four distance clamping rods (304) are slidably inserted into the lower end of the radiating pipe distance assembly upper shell (301), and the distance clamping blocks (305) are uniformly and fixedly connected to the lower end of each distance clamping rod (304), every distance chucking pole (304) upper end all integration fixed connection is at distance cardboard (302) lower extreme surface, a plurality of distance reset spring (303) of fixedly connected with between distance cardboard (302) upper end and cooling tube distance subassembly upper shell (301) upper end inner wall, integration fixed connection is rather than surface vertically connecting push rod (307) in the middle of distance cardboard (302) lower extreme surface, just connecting push rod (307) run through to distance subassembly inferior valve (308).

2. The auxiliary fixing member for welding and fixing a radiating fin according to claim 1, wherein: radiating tube distance subassembly fixed slot (2) both sides just are located workstation (1) and are provided with radiating tube distance subassembly draw-in groove (14), fin adsorption subassembly sliding plate (7) are close to the one end of radiating tube distance subassembly fixed slot (2) and rotate through fin adsorption subassembly bearing frame (8) and install fin bradyseism pipe (9), fixed fin adsorption subassembly (10) of the other end fixedly connected with of fin bradyseism pipe (9), it is provided with locking lead screw (17) to slide in adsorption subassembly fixed plate locking groove (13), locking lead screw (17) one end is rotated and is alternated on fin adsorption subassembly sliding plate (7), the other end fixedly connected with locking groove hand wheel (16) of locking lead screw (17), fin bradyseism pipe (9) include: the fin adsorption component fixing barrel (901), a bearing seat connecting shaft (902) and a buffer spring (903).

3. The auxiliary fixing member for welding and fixing a radiating fin according to claim 2, wherein: bearing frame connecting axle (902) fixed connection is on the inner circle of fin adsorption component bearing frame (8), bearing frame connecting axle (902) front end cover is equipped with the fixed section of thick bamboo of fin adsorption component (901), fixed buffer spring (903) that is provided with between the fixed section of thick bamboo of bearing frame connecting axle (902) and fin adsorption component (901) inside low side, fixed fin adsorption component (10) include: adsorption plate (1001), fixed magnetic pole (1002), slip magnetic pole (1003) and magnetic pole stopper (1004), adsorption plate (1001) back fixed connection is on adsorbing subassembly fixed plate (11), adsorb subassembly fixed plate (11) fixed connection and adsorb subassembly fixed cylinder (901) side surface at the fin, adsorption plate (1001) upper end surface four corners respectively fixed mounting have fixed magnetic pole (1002), adsorption plate (1001) upper end surface slides and alternates has a plurality of slip magnetic poles (1003), every fixed magnetic pole (1002) and slip magnetic pole (1003) lower extreme integration fixedly connected with magnetic pole stopper (1004).

4. The auxiliary fixing member for welding and fixing a radiating fin according to claim 1, wherein: the utility model discloses a distance subassembly lower casing, including distance subassembly inferior valve (308), the rotation of inner wall low side is installed and is fallen position rotatory piece (309), the rotatory piece (309) one end that falls is rotated through the bearing that falls (310) and is connected with the bull stick that falls (311), just fall position bull stick (311) and be located connecting push rod (307) under the integration be connected with and lift pole circle piece (312), the other end fixedly connected with cooling tube distance subassembly rotatory hand wheel (15) of bull stick (311) that falls.

5. The auxiliary fixing member for welding and fixing a radiating fin according to claim 1, wherein: the radiating pipe rotating shaft fixing assembly (4) comprises: fixed subassembly shell (401), outer cover slip spacing strip (402), adjusting nut (403), outer cover (404), plum blossom clamp splice spacing collar (405), spacing platform (406), interior cover spout (407), interior cover spacing collar (408), interior cover (409), plum blossom clamp splice spout (410), adjust ring gear (411), plum blossom clamp splice draw runner (412), plum blossom clamp splice limiting plate (413), plum blossom clamp splice (414), adjusting gear (415) and gear shaft (416), fixed subassembly shell (401) lower extreme rotates and installs at cooling tube distance subassembly upper shell (301) upper end surface.

6. The auxiliary fixing member for welding and fixing a radiating fin according to claim 5, wherein: fixed subassembly shell (401) low side inner wall integration fixedly connected with spacing platform (406), interior swivel nut spout (407) have been seted up to spacing platform (406) upper end, have interior swivel nut spacing collar (408) through a plurality of ball slidable mounting in interior swivel nut spout (407), swivel nut (409) in interior swivel nut spacing collar (408) upper end integration is connected with, interior swivel nut (409) upper end is rotated and is connected with outer barrel (404), outer barrel (404) are through a plurality of outer barrel slip spacing strips (402) fixed subassembly shell (401) of slidable mounting.

7. The auxiliary fixing member for welding and fixing a radiating fin according to claim 6, wherein: every outer swivel nut slides spacing strip (402) homogeneous body and connects on fixed subassembly shell (401) inner wall, interior swivel nut (409) lower extreme integration is connected with regulation ring gear (411), it is connected with adjusting gear (415) to adjust ring gear (411) lower extreme meshing, the coaxial integration fixedly connected with gear shaft (416) in adjusting gear (415) side, the coaxial integration fixedly connected with adjusting nut (403) of the other end of gear shaft (416).

8. The auxiliary fixing member for welding and fixing a radiating fin according to claim 7, wherein: interior swivel nut (409) upper end surface has seted up a plurality of plum blossom clamp splice spout (410), every equal slidable mounting has plum blossom clamp splice draw runner (412), every in plum blossom clamp splice spout (410) homogeneous fixedly connected with plum blossom clamp splice limiting plate (413), every plum blossom clamp splice limiting plate (413) upper end homogeneous fixedly connected with plum blossom clamp splice (414), every plum blossom clamp splice (414) all with plum blossom clamp splice spacing collar (405) in close contact with, just plum blossom clamp splice spacing collar (405) integration is connected on outer swivel nut (404) top inner wall.

Technical Field

The invention relates to the technical field of welding assistance, in particular to an auxiliary fixing component for welding and fixing a radiating fin.

Background

The fins of the radiator are the heart part of the radiator, and the welding of the fins is particularly important in the manufacturing process. Whether the angle and the position of the fin welding meet the requirements directly affect the performance of the radiator. Because the types of the radiators are numerous, the specifications of the fins are relatively more, the form change of the fins is also large, and the number of the fins in different types is different.

However, in the prior art, when the fins of the large-sized heat sink are welded in a large-sized factory, because the fins are designed in various types and have different specifications, it is difficult to maintain the stability of the fins during the fixed welding, and the angles of the aligned fins are different, and in order to ensure the welded seam to be firm, the frame for fixing the fins is generally required to be aligned with the fins for welding, and the above operation is too strict for the fixing equipment.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides an auxiliary fixing component for welding and fixing a radiating fin, which solves the problems that when the fin of a large radiator is welded in a large factory at present, because the fins have various designs and different specifications, the fin is difficult to keep stable during fixed welding, the aligning angle of the fins is different, and in order to ensure that the welded seam is firm, a frame for fixing the fin is generally required to be aligned with the fin for welding, and the operation has too harsh requirements on fixing equipment.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme: an auxiliary fixing component for welding and fixing radiating fins comprises a workbench, wherein radiating tube distance assembly fixing grooves for adjusting the distance are formed in the upper end of the workbench, radiating tube distance assemblies for fixing the distance between the radiating tube distance assemblies and fins are slidably mounted in the radiating tube distance assembly fixing grooves, radiating tube rotating shaft fixing assemblies for fixing radiating tube rotating shafts are rotatably mounted at the upper ends of the radiating tube distance assemblies, a fin adsorption assembly bottom plate is fixedly mounted on the surface of the upper end of the workbench and positioned on one side of the radiating tube distance assembly fixing grooves, a fin lifting slide rail fixing plate is fixedly connected to the upper end surface of the fin adsorption assembly bottom plate in an integrated mode and vertically upwards extends to the surface of the fin lifting slide rail fixing plate, a fin lifting slide rail is fixedly connected to one side surface of the fin lifting slide rail fixing plate, which is close to the radiating tube distance assembly fixing grooves in an integrated mode, a fin lifting slide rail fixing plate locking groove penetrating through the fin lifting slide rail fixing plate is formed in the front end surface of the fin lifting slide rail fixing plate, and a fin adsorption component sliding plate for fixing the fin adsorption component is slidably mounted at the upper end of the fin lifting slide rail.

As preferred, cooling tube distance subassembly fixed slot both sides just are located the workstation and are provided with cooling tube distance subassembly draw-in groove, the fin adsorption subassembly sliding plate is close to the one end of cooling tube distance subassembly fixed slot and rotates through fin adsorption subassembly bearing frame and installs fin bradyseism pipe, the fixed fin adsorption subassembly of the other end fixedly connected with of fin bradyseism pipe, it is provided with locking lead screw to slide in the adsorption subassembly fixed plate locking groove, locking lead screw one end is rotated and is alternate on the fin adsorption subassembly sliding plate, locking lead screw's other end fixedly connected with locking groove hand wheel, fin bradyseism pipe includes: the fin adsorption component fixing cylinder, the bearing seat connecting shaft and the buffer spring.

As preferred, bearing frame connecting axle fixed connection is on the inner circle of fin adsorption component bearing frame, bearing frame connecting axle front end cover is equipped with the fixed section of thick bamboo of fin adsorption component, the fixed buffer spring that is provided with between the inside low side of bearing frame connecting axle and the fixed section of thick bamboo of fin adsorption component, fixed fin adsorption component includes: adsorption plate, fixed magnetic pole, slip magnetic pole and magnetic pole stopper, adsorption plate back fixed connection is on the adsorption component fixed plate, adsorption component fixed plate fixed connection is on the fixed section of thick bamboo side surface of fin adsorption component, there is fixed magnetic pole adsorption plate upper end surface four corners fixed mounting respectively, the surface slip interlude of adsorption plate upper end has a plurality of slip magnetic poles, every fixed magnetic pole and the integration fixedly connected with magnetic pole stopper of slip magnetic pole lower extreme.

Preferably, the radiating pipe distance assembly comprises: radiating tube distance subassembly epitheca, distance cardboard, distance reset spring, distance chucking pole, distance fixture block, connection shell, connection push rod, distance subassembly inferior valve, the rotatory piece of position that falls, the bearing that falls, the bull stick that falls and the pole circle piece of lifting, radiating tube distance subassembly epitheca lower extreme integration fixedly connected with connection shell, it slides and sets up in radiating tube distance subassembly fixed slot to connect the shell, connect shell lower extreme integration fixedly connected with distance subassembly inferior valve.

Preferably, the lower end of the upper shell of the radiating pipe spacing assembly is inserted with four spacing clamping rods in a sliding and penetrating manner, the lower end of each spacing clamping rod is uniformly and fixedly connected with a spacing clamping block, the upper end of each spacing clamping rod is integrally and fixedly connected to the surface of the lower end of a spacing clamping plate, a plurality of distance return springs are fixedly connected between the upper end of the distance clamping plate and the inner wall of the upper end of the upper shell of the radiating tube distance assembly, the middle of the lower end surface of the distance clamping plate is integrally and fixedly connected with a connecting push rod vertical to the surface of the distance clamping plate, the connecting push rod penetrates through the lower shell of the distance component, a position-falling rotating block is rotatably arranged at the lower end of the inner wall at one side of the lower shell of the distance component, one end of the position-falling rotating block is rotatably connected with a position-falling rotating rod through a position-falling bearing, and the falling rotating rod is integrally connected with a rod lifting round block right below the connecting push rod, and the other end of the falling rotating rod is fixedly connected with a radiating tube distance assembly rotating hand wheel.

Preferably, the radiating pipe rotation axis fixing assembly includes: fixed subassembly shell, outer barrel slip spacing, adjusting nut, outer barrel, plum blossom clamp splice spacing collar, spacing platform, inner screw shell spout, inner screw shell spacing collar, interior swivel nut, plum blossom clamp splice spout, adjust ring gear, plum blossom clamp splice draw runner, plum blossom clamp splice limiting plate, plum blossom clamp splice, adjusting gear and gear shaft, fixed subassembly shell lower extreme rotates and installs on cooling tube distance subassembly upper shell upper end surface.

Preferably, the inner wall of the lower end of the fixed component shell is fixedly connected with a limiting table in an integrated mode, the upper end of the limiting table is provided with an inner thread sleeve sliding groove, an inner thread sleeve limiting ring is installed in the inner thread sleeve sliding groove in a sliding mode through a plurality of balls, an inner thread sleeve is connected to the upper end of the inner thread sleeve limiting ring in an integrated mode, an outer thread sleeve is connected to the upper end of the inner thread sleeve in a rotating mode, and the outer thread sleeve is installed on the fixed component shell in a sliding mode through a plurality of outer thread sleeve sliding limiting strips.

Preferably, each outer thread sleeve sliding limiting strip is connected to the inner wall of the fixed component shell in a homogeneous mode, the lower end of the inner thread sleeve is integrally connected with an adjusting gear ring, the lower end of the adjusting gear ring is connected with an adjusting gear in a meshed mode, the side face of the adjusting gear is fixedly connected with a gear rotating shaft in a coaxial mode, and the other end of the gear rotating shaft is fixedly connected with an adjusting nut in a coaxial mode.

Preferably, a plurality of plum blossom clamp splice spouts, every have been seted up to interior screw sleeve upper end surface equal slidable mounting has plum blossom clamp splice draw runner in the plum blossom clamp splice spout, every plum blossom clamp splice draw runner upper end homogeneous fixedly connected with plum blossom clamp splice limiting plate, every plum blossom clamp splice limiting plate upper end homogeneous fixedly connected with plum blossom clamp splice, every the plum blossom clamp splice all with plum blossom clamp splice spacing collar in close contact with, just plum blossom clamp splice spacing collar integration is connected on outer screw sleeve top inner wall.

(III) advantageous effects

The invention provides an auxiliary fixing component for welding and fixing a radiating fin. The method has the following beneficial effects:

according to the scheme, according to the problem that fins are difficult to weld and fix in the background technology, the radiating tube distance-fixing assembly is designed on the workbench in a sliding mode, the radiating tube distance-fixing assembly rotates through the radiating tube distance-fixing assembly, the hand wheel is rotated to pull the falling rotating rod to rotate through the falling rotating block, the rod lifting round block is abutted to the lower end of the connecting push rod and rotates through the falling bearing, the rod lifting round block is enabled to have a long axis and a short axis in rotation due to the oval shape of the rod lifting round block, the distance clamping plate can be pushed to be connected with the push rod in an upward linkage mode, the distance clamping blocks at four corners of the connecting push rod can be driven to be separated from the clamping of the clamping grooves of the radiating tube distance-fixing assembly, and the effect of adjusting the position in the radiating tube distance-fixing assembly fixing groove can be driven;

secondly, the fixed magnetic rods fixedly arranged at the four corners of the adsorption plate adsorb the fins, so that the fins are positioned, and the fixed magnetic rods smoothly adsorb the fins on the surfaces of the fins to realize fixation.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic bottom view of the present invention;

FIG. 3 is an enlarged view of the structure of FIG. 2 at A according to the present invention;

FIG. 4 is a schematic view of a heat pipe spacing assembly according to the present invention;

FIG. 5 is a schematic view of a heat dissipating pipe rotation axis fixing assembly according to the present invention;

FIG. 6 is a schematic front view of a heat dissipating pipe rotation shaft fixing assembly according to the present invention;

FIG. 7 is a cross-sectional view taken along line a-a of FIG. 6 according to the present invention;

FIG. 8 is a schematic view of the overall structure of the fin suction assembly of the present invention;

FIG. 9 is a schematic view of the overall structure of the finned shock tube of the present invention;

FIG. 10 is a schematic front view of a finned shock tube of the present invention;

FIG. 11 is a schematic cross-sectional view taken along line b-b of FIG. 10 according to the present invention.

Wherein, 1, a workbench; 2. a radiating pipe distance assembly fixing groove; 3. a radiating pipe distance-fixing component; 301. the radiating pipe distance assembly upper shell; 302. a distance clamping plate; 303. a fixed-distance return spring; 304. a fixed-distance clamping rod; 305. a distance fixing block; 306. connecting the shell; 307. connecting a push rod; 308. a distance component lower shell; 309. a positioning rotating block; 310. a landing bearing; 311. a falling rotating rod; 312. lifting the rod round block; 4. a radiating tube rotating shaft fixing assembly; 401. a fixed component housing; 402. the outer sleeve is provided with a sliding limiting strip; 403. adjusting the nut; 404. an external thread sleeve; 405. a plum blossom clamping block limiting ring; 406. a limiting table; 407. an inner sleeve chute; 408. an inner threaded sleeve limiting ring; 409. an inner threaded sleeve; 410. a plum blossom clamping block chute; 411. adjusting the gear ring; 412. a plum blossom clamping block sliding strip; 413. a plum blossom clamping block limiting plate; 414. a plum blossom clamping block; 415. an adjusting gear; 416. a gear shaft; 5. a fin adsorption assembly base plate; 6. a fin lifting slide rail fixing plate; 7. a fin adsorption component sliding plate; 8. a fin adsorption component bearing seat; 9. a fin damper tube; 901. a fin adsorption component fixing cylinder; 902. a bearing seat connecting shaft; 903. a buffer spring; 10. a fin adsorption assembly; 1001. an adsorption plate; 1002. fixing the magnetic rod; 1003. a sliding magnetic rod; 1004. a magnetic lever stopper; 11. an adsorption component fixing plate; 12. a fin lifting slide rail; 13. a locking groove for fixing plates of the adsorption components; 14. radiating tube distance assembly clamping grooves; 15. the radiating tube distance-fixing component rotates a hand wheel; 16. locking a grooved hand wheel; 17. and locking the screw rod.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example (b):

as shown in fig. 1 to 11, an embodiment of the present invention provides an auxiliary fixing member for welding and fixing a radiating fin, including a workbench 1, wherein a radiating pipe distance assembly fixing groove 2 for adjusting a distance is formed at an upper end of the workbench 1, a radiating pipe distance assembly 3 for fixing a distance between the radiating pipe distance assembly fixing groove 2 and the fin is slidably mounted in the radiating pipe distance assembly fixing groove 2, a radiating pipe rotating shaft fixing assembly 4 for fixing a radiating pipe rotating shaft is rotatably mounted at an upper end of the radiating pipe distance assembly fixing groove 3, a fin adsorption assembly bottom plate 5 is fixedly mounted on an upper end surface of the workbench 1 and located on one side of the radiating pipe distance assembly fixing groove 2, a fin lifting slide rail fixing plate 6 vertically upward from a surface of the fin adsorption assembly bottom plate 5 is integrally and fixedly connected to an upper end surface of the fin lifting slide rail fixing plate 6, a fin lifting slide rail 12 is integrally and fixedly connected to a side surface of the fin lifting slide rail fixing plate 6 close to the radiating pipe distance assembly fixing groove 2, an adsorption component fixing plate locking groove 13 penetrating through the fin lifting slide rail fixing plate 6 is formed in the surface of the front end of the fin lifting slide rail 12, and a fin adsorption component sliding plate 7 used for fixing the fin adsorption component 10 is slidably mounted at the upper end of the fin lifting slide rail 12.

Through the technical scheme, the radiating pipe distance-fixing component 3 is slidably designed on the workbench 1, the drop rotating rod 311 is pulled by the radiating pipe distance-fixing component rotating hand wheel 15 to rotate by the drop rotating block 309, so that the rod lifting round block 312 is abutted to the lower end of the connecting push rod 307, and then rotates by the drop bearing 310, so that the rod lifting round block 312 has a difference between a long axis and a short axis due to the oval shape of the rod lifting round block, when rotating, the connecting push rod 307 can be pushed to upwards link the distance-fixing clamping plates 302, the distance-fixing clamping blocks 305 at four corners of the connecting push rod can be driven to be separated from the clamping of the radiating pipe distance-fixing component clamping grooves 14, and the effect of adjusting the position in the radiating pipe distance-fixing component fixing grooves 2 can be driven; secondly, the fins are adsorbed by the fixed magnetic rods 1002 fixedly arranged at the four corners of the adsorption plate 1001 for positioning, and the fins are smoothly adsorbed on the surfaces of the fins by the sliding magnetic rods 1003 for fixing.

What need to explain is, 2 both sides of cooling tube distance subassembly fixed slot and being located workstation 1 are provided with cooling tube distance subassembly draw-in groove 14, fin adsorption subassembly sliding plate 7 is close to the one end of cooling tube distance subassembly fixed slot 2 and rotates through fin adsorption subassembly bearing frame 8 and installs fin bradyseism pipe 9, fin bradyseism pipe 9's the fixed fin adsorption subassembly 10 of other end fixedly connected with, it is provided with locking lead screw 17 to slide in adsorption subassembly fixed plate locking groove 13, locking lead screw 17 one end is rotated and is alternates on fin adsorption subassembly sliding plate 7, locking lead screw 17's other end fixedly connected with locking groove hand wheel 16, fin bradyseism pipe 9 includes: a fin adsorption component fixing cylinder 901, a bearing seat connecting shaft 902 and a buffer spring 903; bearing frame connecting shaft 902 fixed connection is on the inner circle of fin adsorption component bearing frame 8, bearing frame connecting shaft 902 front end cover is equipped with the fixed section of thick bamboo 901 of fin adsorption component, the fixed buffer spring 903 that is provided with between the inside low side of the fixed section of thick bamboo 901 of bearing frame connecting shaft 902 and fin adsorption component, fixed fin adsorption component 10 includes: an adsorption plate 1001, a fixed magnetic rod 1002, a sliding magnetic rod 1003 and a magnetic rod limiting block 1004, wherein the back of the adsorption plate 1001 is fixedly connected to an adsorption component fixing plate 11, the adsorption component fixing plate 11 is fixedly connected to one side surface of a fin adsorption component fixing cylinder 901, four corners of the upper end surface of the adsorption plate 1001 are respectively fixedly provided with the fixed magnetic rods 1002, the upper end surface of the adsorption plate 1001 is inserted with a plurality of sliding magnetic rods 1003 in a sliding manner, the lower ends of the fixed magnetic rods 1002 and the sliding magnetic rods 1003 are integrally and fixedly connected with the magnetic rod limiting block 1004, the fins are adsorbed by the fixed magnetic rods 1002 fixedly arranged at the four corners of the adsorption plate 1001, positioning is performed, the fins are smoothly adsorbed on the surfaces of the fins through the sliding magnetic rods 1003, fixing is realized, the fins need to be in close contact with welded radiating pipes, and are afraid that the fins are too soft and easy to deform, so that the contact pressure can be relieved through a buffer spring 903, and ensures intimate contact.

Wherein, the radiating pipe distance assembly 3 comprises: the radiating pipe distance assembly comprises a radiating pipe distance assembly upper shell 301, a distance clamping plate 302, a distance return spring 303, a distance clamping rod 304, a distance clamping block 305, a connecting shell 306, a connecting push rod 307, a distance assembly lower shell 308, a falling position rotating block 309, a falling position bearing 310, a falling position rotating rod 311 and a rod lifting round block 312, wherein the lower end of the radiating pipe distance assembly upper shell 301 is integrally and fixedly connected with the connecting shell 306, the connecting shell 306 is arranged in a radiating pipe distance assembly fixing groove 2 in a sliding mode, and the lower end of the connecting shell 306 is integrally and fixedly connected with the distance assembly lower shell 308; four distance clamping rods 304 are inserted into the lower end of the radiating pipe distance assembly upper shell 301 in a sliding and penetrating manner, a distance clamping block 305 is fixedly connected to the lower end of each distance clamping rod 304 in an integrated manner, the upper end of each distance clamping rod 304 is fixedly connected to the surface of the lower end of the distance clamping plate 302 in an integrated manner, a plurality of distance reset springs 303 are fixedly connected between the upper end of the distance clamping plate 302 and the inner wall of the upper end of the radiating pipe distance assembly upper shell 301, a connecting push rod 307 vertical to the surface of the distance clamping plate 302 is fixedly connected to the middle of the surface of the lower end of the distance clamping plate 302 in an integrated manner, the connecting push rod 307 penetrates through the distance assembly lower shell 308, a falling rotating block 309 is rotatably mounted at the lower end of the inner wall of one side of the distance assembly lower shell 308, one end of the falling rotating block 309 is rotatably connected with a falling rotating rod 311 through a falling bearing 310, and a lifting rod round block 312 is integrally connected to the falling rotating rod 311 and is positioned under the connecting push rod 307, the other end fixedly connected with cooling tube distance subassembly rotation hand wheel 15 of the position bull stick 311 that falls, the rotatory hand wheel 15 pulling of cooling tube distance subassembly position bull stick 311 is rotatory with the rotatory piece 309 that falls, make and lift pole circle piece 312 and support behind connecting push rod 307 lower extreme, it is rotatory through the position bearing 310 that falls, make and lift pole circle piece 312 because of self oval-shaped appearance, during the rotation, there is the difference between major axis and the minor axis, thereby can promote and connect the upwards linkage distance cardboard 302 of push rod 307, and the distance fixture block 305 that drives its four corners breaks away from the chucking with cooling tube distance subassembly draw-in groove 14, thereby can drive the effect of adjusting position in cooling tube distance subassembly fixed slot 2.

In this embodiment, the heat dissipating pipe rotation axis fixing unit 4 includes: the radiating pipe spacing assembly comprises a fixed assembly shell 401, an outer sleeve sliding limiting strip 402, an adjusting nut 403, an outer sleeve 404, a plum blossom clamping block limiting ring 405, a limiting table 406, an inner sleeve sliding groove 407, an inner sleeve limiting ring 408, an inner sleeve 409, a plum blossom clamping block sliding groove 410, an adjusting gear ring 411, a plum blossom clamping block sliding strip 412, a plum blossom clamping block limiting plate 413, a plum blossom clamping block 414, an adjusting gear 415 and a gear rotating shaft 416, wherein the lower end of the fixed assembly shell 401 is rotatably installed on the upper end surface of a radiating pipe spacing assembly upper shell 301; a limiting table 406 is integrally and fixedly connected to the inner wall of the lower end of the fixed component shell 401, an inner thread sleeve sliding groove 407 is formed in the upper end of the limiting table 406, an inner thread sleeve limiting ring 408 is slidably mounted in the inner thread sleeve sliding groove 407 through a plurality of balls, an inner thread sleeve 409 is integrally connected to the upper end of the inner thread sleeve limiting ring 408, an outer thread sleeve 404 is rotatably connected to the upper end of the inner thread sleeve 409, and the outer thread sleeve 404 is slidably mounted on the fixed component shell 401 through a plurality of outer thread sleeve sliding limiting strips 402; each outer sleeve sliding limiting strip 402 is integrally connected to the inner wall of the fixed assembly shell 401, when the outer sleeve 404 is matched with the lower end inner thread sleeve 409 in a rotating mode through the outer sleeve sliding limiting strip 402, longitudinal movement on an upper track and a lower track is limited, the lower end of the inner thread sleeve 409 is integrally connected with an adjusting gear ring 411, the lower end of the adjusting gear ring 411 is connected with an adjusting gear 415 in a meshing mode, the side face of the adjusting gear 415 is coaxially and integrally fixedly connected with a gear rotating shaft 416, and the other end of the gear rotating shaft 416 is coaxially and integrally fixedly connected with an adjusting nut 403; the upper end surface of the inner threaded sleeve 409 is provided with a plurality of plum blossom clamping block sliding grooves 410, a plum blossom clamping block sliding strip 412 is slidably mounted in each plum blossom clamping block sliding groove 410, the plum blossom clamping block 414 can slide towards the center in the plum blossom clamping block sliding groove 410 through the plum blossom clamping block sliding strip 412, the upper end of each plum blossom clamping block sliding strip 412 is uniformly and fixedly connected with a plum blossom clamping block limiting plate 413, the upper end of each plum blossom clamping block limiting plate 413 is uniformly and fixedly connected with a plum blossom clamping block 414, each plum blossom clamping block 414 is tightly contacted with a plum blossom clamping block limiting ring 405, the plum blossom clamping block limiting ring 405 is integrally connected to the inner wall of the top end of the outer threaded sleeve 404, the adjusting gear 415 is driven to be meshed with the adjusting gear ring 411 to rotate through the adjusting nut, the inner threaded sleeve 409 can be driven to rotate with the outer threaded sleeve 404 through the upper end, the inner threaded sleeve 403 can move downwards, and the plum blossom clamping block limiting ring 405 can be squeezed downwards to move the plum blossom clamping block 414 to be concentrated towards the middle, thereby clamping the radiating pipe and thus welding.

The working principle is as follows:

the radiating pipe distance-fixing component 3 is designed on the workbench 1 in a sliding manner, and the hand wheel 15 for rotating the radiating pipe distance-fixing component is used for pulling the falling rotary rod 311 to rotate by the falling rotary block 309, so that the rod lifting round block 312 is abutted against the lower end of the connecting push rod 307, and then rotates by the falling bearing 310, and the rod lifting round block 312 has a difference between a long axis and a short axis due to the oval shape of the rod lifting round block, so that the connecting push rod 307 can be pushed to upwards link the distance-fixing clamp plates 302, the distance-fixing clamp blocks 305 at four corners of the connecting push rod can be driven to be separated from the clamping of the radiating pipe distance-fixing component clamp grooves 14, and the effect of adjusting the position in the radiating pipe distance-fixing component fixing grooves 2 can be driven; secondly, the fins are adsorbed by the fixed magnetic rods 1002 fixedly arranged at the four corners of the adsorption plate 1001 for positioning, and the fins are smoothly adsorbed on the surfaces of the fins by the sliding magnetic rods 1003 for fixing.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising a reference structure" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

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.