CN213615198U - Automatic assembling equipment for fan frame bearing fan blades of cooling fan - Google Patents

Abstract

The utility model discloses a belong to the technical field of direct current fan assembly, specifically a radiator fan frame bearing flabellum automatic assembly equipment, including the supporting box, the upper rear side of the top of supporting box is installed flabellum material loading assembly line, the upper front side is installed fan frame material loading assembly line, radiator fan bearing material loading push-in oiling device, flabellum handling mechanism and positioning mechanism are installed from left to right in proper order to the top of supporting box, fan frame material loading assembly line passes through the lower part of radiator fan bearing material loading push-in oiling device, flabellum handling mechanism and positioning mechanism, and through fan frame material loading assembly line, flabellum material loading assembly line, radiator fan bearing material loading push-in oiling device, jump ring material loading mechanism, positioning mechanism, jump ring push-in mechanism and flabellum handling mechanism, the automatic assembly of radiator fan frame bearing flabellum can be realized, not only can improve the assembly efficiency, the consistency of the finished product can also be improved.

Description

Automatic assembling equipment for fan frame bearing fan blades of cooling fan

Technical Field

The utility model relates to a direct current fan equipment technical field specifically is a radiator fan frame bearing flabellum automatic assembly equipment.

Background

The direct current fan is a fan which converts electric energy into machinery through direct current voltage and electromagnetic induction so as to drive fan blades to rotate. The direct current fan has the characteristics of large air quantity, low noise, long service life, corrosion resistance and the like, and the direct current fan is internally provided with the bearing, the silicon steel sheet and the enameled wire, so that the direct current fan has higher reliability.

In the direct current fan production industry, the assembly of the direct current fan mainly adopts manual assembly or semi-automatic equipment assembly, and the two assembly methods not only have low assembly efficiency, but also have poor consistency of finished products.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an automatic equipment of radiator fan frame bearing flabellum to solve the current direct current fan that proposes in the above-mentioned background art not only the packaging efficiency low, and the relatively poor problem of off-the-shelf uniformity.

In order to achieve the above object, the utility model provides a following technical scheme: an automatic assembling device for fan frame bearing fan blades of a cooling fan comprises a support box, a fan blade feeding assembly line is installed on the rear side of the upper portion of the support box, a fan frame feeding assembly line is installed on the front side of the upper portion of the support box, a cooling fan bearing feeding pressing oiling device, a fan blade carrying mechanism and a positioning mechanism are sequentially installed above the support box from left to right, the fan frame feeding assembly line penetrates through the lower portions of the cooling fan bearing feeding pressing oiling device, the fan blade carrying mechanism and the positioning mechanism, the fan blade feeding assembly line penetrates through the lower portions of the fan blade carrying mechanism, a clamp spring feeding mechanism is installed above the support box and is arranged on the lower side of the positioning mechanism, a clamp spring pressing mechanism is installed at the top of an inner cavity of the support box and is arranged on the lower side of the clamp spring feeding mechanism, and the clamp spring feeding mechanism comprises an air cylinder mounting plate and a limiting block, the clamp spring feeding device is characterized in that a clamp spring feeding cylinder is installed on the upper side of the cylinder mounting plate, a clamp spring feeding plate is installed above a piston of the clamp spring feeding cylinder, a clamp spring bin is installed on the front side above the cylinder mounting plate, the clamp spring feeding plate penetrates through the clamp spring bin, a motor is installed above the clamp spring bin, a rotor of the motor penetrates through the top of the clamp spring bin and is connected with a clamp spring stirring blade, a clamp spring stirring brush is arranged below the clamp spring stirring blade, the lower side of the clamp spring stirring brush is attached to the upper side of the clamp spring feeding plate, a limiting plate is installed on the front side below the clamp spring feeding plate, the limiting plate is located on the rear side of the limiting block, a linear guide rail is installed on the front side of the limiting plate, a collision block is installed on the front side of a sliding block of the linear guide rail, a top clamp spring jig is installed on the upper side of the collision block, the top clamp spring, the upper side of the clamp spring jacking jig is inserted in the clamp spring groove, a clamp spring feeding spring is sleeved on the outer side of the clamp spring jacking jig, the upper end and the lower end of the clamp spring feeding spring are respectively attached to the clamp spring feeding plate and the collision block, and the front side of the collision block is connected with a vacuum pump through a pipeline.

Preferably, flabellum transport mechanism includes square tube stand and two sucking disc connecting rods, the unipolar module is installed on the right side of square tube stand, fan frame material loading assembly line and flabellum material loading assembly line all are at the downside of unipolar module, the transfer location platform is installed to the front side of fan frame material loading assembly line, the right side of transfer location platform at the unipolar module, cylinder mounting panel about the right side of unipolar module is installed, cylinder about the right side of cylinder mounting panel is installed, the sucking disc connecting block is installed to the piston downside of cylinder about, two the equal movable sleeve in outside of sucking disc connecting rod is equipped with linear bearing, two linear bearing's upper end all runs through the sucking disc connecting block, two linear bearing is symmetrical about the axis of sucking disc connecting block, two the flabellum sucking disc is all installed to the below of sucking disc connecting rod.

Preferably, positioning mechanism includes the landing slab, hexagonal stand is all installed at four turnings of the downside of landing slab, the air cylinder is installed to the upside of landing slab, the flexible end of going up the air cylinder runs through the landing slab and is connected with the joint that floats, the lower extreme that floats the joint is connected with the connecting block, positioning jig is installed to the downside of connecting block, positioning jig is bumping the upside of piece, positioning jig's downside is provided with the location bolt, the location guiding axle, two are all installed to the top left and right sides of connecting block positioning guiding axle's upper end all runs through the landing slab.

Preferably, jump ring impressing mechanism includes two flange boards, two be connected with the support guiding axle between the flange board, the quantity that supports the guiding axle is two, two swing joint has the screw-nut connecting plate between the support guiding axle, the ejector pin is installed to the upside of screw-nut connecting plate, the upper end of ejector pin runs through the upside flange board, the ejector pin is bumping the downside of piece, two swing joint has the lead screw pair between the flange board, and the screw-nut connecting plate cover is established in the vice outside of lead screw, the lower extreme of the lead screw pair runs through downside flange board, downside the connecting rod is installed to the downside of flange board, the downside of connecting rod is connected with the motor mounting panel, servo motor is installed to the lower extreme of motor mounting panel, servo motor's rotor runs through the motor mounting panel and is connected with the.

Preferably, the side all is provided with the flange around flabellum material loading assembly line and the fan frame material loading assembly line, all be connected with the flange fixed plate between the side flange around the flabellum material loading assembly line and between the side flange around the fan frame material loading assembly line, all be provided with optical fiber sensor and block the piece on the flange of flabellum material loading assembly line and fan frame material loading assembly line, optical fiber sensor can carry out the perception to fan frame and flabellum, blocks the external drive device of piece, can block fan frame and flabellum flow when blocking the piece and rise, can continue to flow when blocking piece decline back fan frame and flabellum.

Compared with the prior art, the beneficial effects of the utility model are that:

1) the automatic assembly of the fan blades of the fan frame bearing of the cooling fan can be realized through the fan frame feeding assembly line, the fan blade feeding assembly line, the cooling fan bearing feeding press-in oiling device, the clamp spring feeding mechanism, the positioning mechanism, the clamp spring press-in mechanism and the fan blade carrying mechanism, so that the assembly efficiency can be improved, and the consistency of finished products can also be improved;

2) the stirring of jump ring stirring leaf can sweep into the jump ring inslot with single small-size jump ring, and the vacuum pump can make top jump ring tool produce the negative pressure to the small-size jump ring that will fall into the jump ring inslot adsorbs, and the jump ring feed bin can block the small-size jump ring that send the jump ring board top simultaneously, makes only the small-size jump ring of jump ring inslot shift out in can following the jump ring feed bin, thereby realizes the single material loading of small-size jump ring.

Drawings

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

fig. 2 is a schematic diagram of the structure of the clamp spring feeding mechanism in right view;

FIG. 3 is a schematic view of the top view structure of the stopper of the present invention;

FIG. 4 is a schematic view of the positioning mechanism of the present invention;

FIG. 5 is a schematic view of the snap spring pressing mechanism of the present invention;

FIG. 6 is a schematic top view of the fan blade carrying mechanism of the present invention;

fig. 7 is a schematic view of the right side structure of the fan blade carrying mechanism of the present invention.

In the figure: 1 supporting box, 2 fan frame material loading assembly lines, 3 fan blade material loading assembly lines, 4 radiating fan bearing material loading and pressing oiling devices, 5 clamp spring material loading mechanisms, 501 vacuum pumps, 502 air cylinder mounting plates, 503 clamp spring feeding air cylinders, 504 clamp spring feeding plates, 505 clamp spring bins, 506 motors, 507 clamp spring stirring blades, 508 limiting plates, 509 limiting blocks, 510 top clamp spring jigs, 511 collision blocks, 512 linear guide rails, 513 clamp spring feeding springs, 6 positioning mechanisms, 61 pressing air cylinders, 62 positioning jigs, 63 positioning bolts, 64 floating joints, 65 platform plates, 66 connecting blocks, 67 hexagonal columns, 68 positioning guide shafts, 7 clamp spring pressing mechanisms, 71 servo motors, 72 connecting rods, 73 lead screw pairs, 74 lead screw nut connecting plates, 75 supporting guide shafts, 76 ejector rods, 77 flange plates, 78 motor mounting plates, 8 fan blade carrying mechanisms, 81 square through columns, 82 single-shaft modules, 83 upper and lower air cylinder mounting plates, 84 upper and lower air cylinders, 85 suction cup connecting blocks, 86 transfer positioning tables, 87 linear bearings, 88 suction cup connecting rods and 89 fan blade suction cups.

Detailed Description

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

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of 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 therefore, should not be construed as limiting the present invention.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted", "provided", "sleeved/connected", "connected", and the like are to be understood in a broad sense, such as "connected", which may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example (b):

referring to fig. 1-7, the present invention provides a technical solution: an automatic assembling device for fan frame bearing fan blades of a cooling fan comprises a supporting box 1, a fan blade feeding assembly line 3 is installed on the rear side above the supporting box 1, a fan frame feeding assembly line 2 is installed on the front side above the supporting box 1, a cooling fan bearing feeding and pressing oiling device 4, a fan blade carrying mechanism 8 and a positioning mechanism 6 are sequentially installed above the supporting box 1 from left to right, the fan frame feeding assembly line 2 penetrates through the cooling fan bearing feeding and pressing oiling device 4, the fan blade carrying mechanism 8 and the positioning mechanism 6 from the lower side, the fan blade feeding assembly line 3 penetrates through the lower side of the fan blade carrying mechanism 8, a clamp spring feeding mechanism 5 is installed above the supporting box 1, the clamp spring feeding mechanism 5 is arranged on the lower side of the positioning mechanism 6, a clamp spring pressing mechanism 7 is installed at the top of an inner cavity of the supporting box 1, the clamp spring pressing mechanism 7 is arranged on the lower side of the clamp spring feeding mechanism 5, and the clamp spring feeding mechanism 5 comprises a cylinder mounting plate 502, a clamp spring feeding cylinder 503 is arranged on the upper side of the cylinder mounting plate 502, a clamp spring feeding plate 504 is arranged above a piston of the clamp spring feeding cylinder 503, a clamp spring bin 505 is arranged on the front side above the cylinder mounting plate 502, the clamp spring feeding plate 504 penetrates through the clamp spring bin 505, a motor 506 is arranged above the clamp spring bin 505, a rotor of the motor 506 penetrates through the top of the clamp spring bin 505 and is connected with a clamp spring stirring blade 507, a clamp spring stirring brush is arranged below the clamp spring stirring blade 507, the lower side of the clamp spring stirring brush is attached to the upper side of the clamp spring feeding plate 504, a limiting plate 508 is arranged on the front side below the clamp spring feeding plate 504, the limiting plate 508 is arranged on the rear side of a limiting block 509, a linear guide rail 512 is arranged on the front side of the limiting plate 508, a collision block 511 is arranged on the front side of a sliding block of the linear guide rail 512, a top clamp spring jig 510 is arranged on the upper side of the collision block 511, the top, the upper side of the top clamp spring fixture 510 is inserted into the clamp spring groove, a clamp spring feeding spring 513 is sleeved outside the top clamp spring fixture 510, the upper end and the lower end of the clamp spring feeding spring 513 are respectively attached to the clamp spring feeding plate 504 and the collision block 511, and the front side of the collision block 511 is connected with a vacuum pump 501 through a pipeline.

Fan blade handling mechanism 8 includes square tube stand 81 and two sucking disc connecting rods 88, unipolar module 82 is installed on square tube stand 81's right side, fan frame material loading assembly line 2 and the downside of flabellum material loading assembly line 3 all at unipolar module 82, transfer location platform 86 is installed to fan frame material loading assembly line 2's front side, transfer location platform 86 is on unipolar module 82's right side, cylinder mounting panel 83 about installing on unipolar module 82's right side, cylinder 84 about installing on the right side of cylinder mounting panel 83, sucking disc connecting block 85 is installed to cylinder 84's piston downside about going up and down, the equal movable sleeve in outside of two sucking disc connecting rods 88 is equipped with linear bearing 87, sucking disc connecting block 85 is all run through to two linear bearing 87's upper end, two linear bearing 87 are symmetrical about the axis of sucking disc connecting block 85, sucking disc 89 is all installed to two sucking disc connecting rods 88.

Positioning mechanism 6 includes landing slab 65, hexagonal stand 67 is all installed at four corners of landing slab 65's downside, air cylinder 61 is installed to landing slab 65's upside, the flexible end of going up air cylinder 61 runs through landing slab 65 and is connected with floating joint 64, floating joint 64's lower extreme is connected with connecting block 66, positioning jig 62 is installed to connecting block 66's downside, positioning jig 62 is bumping the upside of piece 511, positioning jig 62's downside is provided with location bolt 63, location guiding axle 68 is all installed on the top left and right sides of connecting block 66, landing slab 65 is all run through to the upper end of two location guiding axles 68.

The clamp spring press-in mechanism 7 comprises two flange plates 77, support guide shafts 75 are connected between the two flange plates 77, the number of the support guide shafts 75 is two, a screw rod nut connecting plate 74 is movably connected between the two support guide shafts 75, an ejector rod 76 is installed on the upper side of the screw rod nut connecting plate 74, the upper end of the ejector rod 76 penetrates through the upper flange plate 77, the ejector rod 76 hits the lower side of the block 511, a screw rod pair 73 is movably connected between the two flange plates 77, the screw rod nut connecting plate 74 is sleeved on the outer side of the screw rod pair 73, the lower end of the screw rod pair 73 penetrates through the lower flange plate 77, a connecting rod 72 is installed on the lower side of the lower flange plate 77, the lower side of the connecting rod 72 is connected with a motor mounting plate 78, a servo motor 71 is installed on the lower end of.

The front and back sides of the fan blade feeding assembly line 3 and the fan frame feeding assembly line 2 are provided with flanges, and flange fixing plates are connected between the flanges on the front and back sides of the fan blade feeding assembly line 3 and between the flanges on the front and back sides of the fan frame feeding assembly line 2.

The working principle is as follows: manually placing a fan frame on a fan frame feeding assembly line 2, placing a fan blade on a fan blade feeding assembly line 3, when the fan frame runs to the lower side of a cooling fan bearing feeding pressing oiling device 4, the cooling fan bearing feeding pressing oiling device 4 performs mechanism actions of stator pressing, bearing pressing and oiling on the fan frame, then the fan frame moves towards a fan blade carrying mechanism 8, when the fan blade and the fan frame move to the lower side of the fan blade carrying mechanism 8, a single-shaft module 82 drives a fan blade suction disc 89 to move to the upper side of the fan blade on the fan blade feeding assembly line 3, an upper air cylinder 84 and a lower air cylinder 84 drive a fan blade suction disc 89 to move downwards, the fan blade suction disc 89 adsorbs the fan blade, the upper air cylinder 84 and the lower air cylinder 84 drive the fan blade suction disc 89 with the fan blade to move upwards, the single-shaft module 82 drives the fan blade suction disc 89 with the fan blade to move to the position right above a transfer positioning table 86, after the fan blades are precisely positioned, the single-shaft module 82 drives the fan blade suction cups 89 to be right above the transfer positioning table 86, the upper air cylinder and the lower air cylinder 84 move downwards, the fan blade suction cups 89 absorb the fan blades, the upper air cylinder and the lower air cylinder 84 move upwards, the single-shaft module 82 drives the fan blade suction cups 89 with the fan blades to be right above an upper material flow line of the fan frame, the upper air cylinder and the lower air cylinder 84 move downwards to load the fan blades into the fan frame, the upper air cylinder and the lower air cylinder 84 move;

after the fan blade is installed, the fan frame with the fan blade flows to the positioning mechanism 6, the upper air cylinder 61 drives the positioning jig 62 to press the fan frame with the fan blade, meanwhile, the positioning bolt 63 is inserted into the positioning hole of the fan frame with the fan blade to position the fan frame, and the action of the positioning mechanism 6 is completed;

then, the clamp spring feeding mechanism 5 starts to act, the clamp spring feeding cylinder 503 drives the clamp spring feeding plate 504 to retract to the clamp spring bin 505, the motor 506 drives the clamp spring stirring blade 507 and the clamp spring stirring brush to rotate, the clamp springs in the clamp spring bin 505 can be swept into clamp spring grooves of the clamp spring feeding plate 504 through rotary stirring, the vacuum pump 1 starts to work, meanwhile, the clamp spring jacking jig 510 generates negative pressure, the negative pressure can adsorb the clamp springs in the clamp spring grooves, after the clamp springs are adsorbed to the clamp springs by the clamp spring jacking jig 510, the clamp spring feeding cylinder 503 drives the clamp spring feeding plate 504 to extend out, meanwhile, redundant clamp springs are scraped down by the clamp spring bin 505 (only 1 clamp spring is left in the clamp spring groove of the clamp spring jig 510), and the action of the clamp spring feeding mechanism 5 is completed;

then the clamp spring pressing-in mechanism 7 starts to act, the servo motor 71 drives the ejector rod 76 to move upwards, the ejector rod 76 moves upwards to drive the collision block 511 to move upwards, the collision block 511 moves upwards to drive the top clamp spring jig 510 to move upwards, the top clamp spring jig 510 moves upwards to press the clamp spring into a fan blade shaft of a fan frame which is positioned by the positioning mechanism 6 and provided with fan blades, after the clamp spring is pressed in, the servo motor 71 drives the ejector rod 76 to move downwards, the collision block 511 moves downwards under the action of a clamp spring feeding spring 513, and the action of the clamp spring pressing-in mechanism 7 is;

and then the upper pressure cylinder 61 drives the positioning jig 62 and the positioning bolt 63 to retract, the clamp spring is installed completely, and the finished fan flows down from the fan frame feeding assembly line 2 to finish finished product blanking.

Having shown and described the basic principles and principal features of the invention and advantages thereof, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof; the present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein, and any reference signs in the claims are not intended to be construed as limiting the claim concerned.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. The utility model provides a radiator fan frame bearing flabellum automatic assembly equipment, includes supporting box (1), its characterized in that: the fan blade feeding assembly line (3) is installed on the rear side of the upper portion of the supporting box (1), the fan frame feeding assembly line (2) is installed on the front side of the upper portion, the cooling fan bearing feeding and pressing-in oiling device (4), the fan blade carrying mechanism (8) and the positioning mechanism (6) are sequentially installed on the upper portion of the supporting box (1) from left to right, the fan frame feeding assembly line (2) penetrates through the cooling fan bearing feeding and pressing-in oiling device (4), the fan blade carrying mechanism (8) and the positioning mechanism (6) from the lower portion, the fan blade feeding assembly line (3) penetrates through the fan blade carrying mechanism (8) from the lower portion, the clamp spring feeding mechanism (5) is installed on the upper portion of the supporting box (1), the clamp spring feeding mechanism (5) is arranged on the lower side of the positioning mechanism (6), and the clamp spring pressing-in mechanism (7) is installed on the top of the inner cavity of the supporting box (, the clamp spring pressing-in mechanism (7) is arranged on the lower side of the clamp spring feeding mechanism (5), the clamp spring feeding mechanism (5) comprises a cylinder mounting plate (502) and a limiting block (509), a clamp spring feeding cylinder (503) is installed on the upper side of the cylinder mounting plate (502), a clamp spring feeding plate (504) is installed above a piston of the clamp spring feeding cylinder (503), a clamp spring bin (505) is installed on the front side of the upper side of the cylinder mounting plate (502), the clamp spring feeding plate (504) penetrates through the clamp spring bin (505), a motor (506) is installed above the clamp spring bin (505), a rotor of the motor (506) penetrates through the top of the clamp spring bin (505) and is connected with a clamp spring stirring blade (507), a clamp spring stirring brush is arranged below the clamp spring stirring blade (507), the lower side of the clamp spring stirring brush is attached to the upper side of the clamp spring feeding plate (504), and a limiting plate (508) is installed on the front side of the lower side of, limiting plate (508) is at the rear side of stopper (509), linear guide (512) are installed to the front side of limiting plate (508), the slider front side of linear guide (512) is installed and is collided piece (511), the upside that collides piece (511) is installed top jump ring tool (510), top jump ring tool (510) and the inside of colliding piece (511) are through the pipeline intercommunication, send jump ring board (504) body front side vertically to have seted up the jump ring groove, the upside of top jump ring tool (510) is pegged graft in the jump ring inslot, the outside cover of top jump ring tool (510) is equipped with send jump ring spring (513), send the upper and lower end of jump ring spring (513) respectively with send jump ring board (504) and collide the piece (511) laminating, it has vacuum pump (501) to collide the front side of piece (511) through the pipe connection.

2. The automatic assembling apparatus for fan frame bearing fan blades of heat dissipating fan as claimed in claim 1, wherein: the fan blade carrying mechanism (8) comprises a square tube stand column (81) and two sucker connecting rods (88), a single-shaft module (82) is installed on the right side of the square tube stand column (81), a fan frame feeding assembly line (2) and a fan blade feeding assembly line (3) are both arranged on the lower side of the single-shaft module (82), a transfer positioning table (86) is installed on the front side of the fan frame feeding assembly line (2), the transfer positioning table (86) is arranged on the right side of the single-shaft module (82), an upper cylinder mounting plate and a lower cylinder mounting plate (83) are installed on the right side of the single-shaft module (82), an upper cylinder mounting plate and a lower cylinder mounting plate (84) are installed on the right side of the upper cylinder mounting plate and the lower cylinder mounting plate (83), sucker connecting blocks (85) are installed on the lower sides of pistons of the upper cylinder (84) and the lower cylinder (84), linear bearings (87) are movably sleeved on the outer, two linear bearing (87) are symmetrical about the axis of sucking disc connecting block (85), two flabellum sucking disc (89) are all installed to the below of sucking disc connecting rod (88).

3. The automatic assembling apparatus for fan frame bearing fan blades of heat dissipating fan as claimed in claim 1, wherein: positioning mechanism (6) are including landing slab (65), hexagonal stand (67) are all installed at four corners of downside of landing slab (65), air cylinder (61) is installed to the upside of landing slab (65), go up the flexible end of air cylinder (61) and run through landing slab (65) and be connected with unsteady joint (64), the lower extreme that floats joint (64) is connected with connecting block (66), positioning jig (62) are installed to the downside of connecting block (66), positioning jig (62) are hitting the upside of piece (511), the downside of positioning jig (62) is provided with location bolt (63), location guiding axle (68), two are all installed to the top left and right sides of connecting block (66) the upper end of location guiding axle (68) all runs through landing slab (65).

4. The automatic assembling apparatus for fan frame bearing fan blades of heat dissipating fan as claimed in claim 1, wherein: the clamp spring press-in mechanism (7) comprises two flange plates (77), two support guide shafts (75) are connected between the flange plates (77), the number of the support guide shafts (75) is two, two lead screw nut connecting plates (74) are movably connected between the support guide shafts (75), ejector rods (76) are installed on the upper sides of the lead screw nut connecting plates (74), the upper end of each ejector rod (76) penetrates through the upper flange plate (77), each ejector rod (76) is arranged on the lower side of a collision block (511), a lead screw pair (73) is movably connected between the two flange plates (77), the lead screw nut connecting plates (74) are sleeved on the outer sides of the lead screw pair (73), the lower end of the lead screw pair (73) penetrates through the lower flange plate (77), the lower side of the flange plate (77) is provided with a connecting rod (72), the lower side of the connecting rod (72) is connected with a motor mounting plate (, servo motor (71) is installed to the lower extreme of motor mounting panel (78), servo motor (71)'s rotor runs through motor mounting panel (78) and is connected with screw pair (73).

5. The automatic assembling apparatus for fan frame bearing fan blades of heat dissipating fan as claimed in claim 1, wherein: the side all is provided with the flange around flabellum material loading assembly line (3) and fan frame material loading assembly line (2), all be connected with the flange fixed plate between the side flange around and fan frame material loading assembly line (3) around and between the side flange around fan frame material loading assembly line (2).

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