CN108466050B - Full-automatic fan blade wheel press-fitting device - Google Patents

Abstract

The invention relates to the technical field of mechanical engineering and automation, in particular to a full-automatic fan blade wheel press-fitting device, which comprises: the device comprises a conveying press-fitting frame body, a fan feeding mechanism, a motor feeding mechanism and a press-fitting driving mechanism. The press-fit support body comprises a press-fit support table and a press-fit cavity positioned above the press-fit support table. The fan feeding mechanism comprises a direct vibration feeding component for conveying the fan and a fan pushing component for pushing the fan into the press-fit cavity. The motor feeding mechanism comprises a rotary table for conveying a motor and a plurality of press-fitting stations arranged on the rotary table. The press-fit driving mechanism comprises a press-fit head which is arranged above the press-fit cavity and is suitable for press-fitting the fan and the motor, and a lifting driving component which is connected with the press-fit head and is suitable for driving the press-fit head to longitudinally move.

Description

Full-automatic fan blade wheel press-fitting device

Technical Field

The invention relates to the technical field of mechanical engineering and automation, in particular to a full-automatic fan blade wheel press-fitting device.

Background

For press fitting of the fan and the motor, a manual press fitting mode is adopted in the prior art, on one hand, the fan and the motor are required to be taken out respectively, and then the fan and the motor are assembled through a press fitting tool, so that the fan and the motor are assembled in place. The manual press-fitting mode has low working efficiency and cannot meet the industrial production requirement of high-speed development.

Disclosure of Invention

The invention aims to provide a full-automatic fan blade wheel press-fitting device, which aims to solve the technical problem of automatic press-fitting of fans and motors.

The full-automatic fan blade wheel press-fitting device is realized by the following steps:

A full automatic fan blade wheel press-fitting device, comprising:

The conveying and press-fitting frame comprises a press-fitting supporting table and a press-fitting cavity positioned above the press-fitting supporting table;

the fan feeding mechanism comprises a direct vibration feeding component for conveying a fan and a fan pushing component for pushing the fan into the press-fit cavity;

the motor feeding mechanism comprises a rotary table for conveying a motor and a plurality of press-fitting stations arranged on the rotary table; and

The press-fit driving mechanism comprises a press-fit head which is arranged above the press-fit cavity and is suitable for press-fitting the fan and the motor, and a lifting driving assembly which is connected with the press-fit head and is suitable for driving the press-fit head to longitudinally move.

In a preferred embodiment of the present invention, the conveying press-fitting frame further includes a set of symmetrical press-fitting support frames vertically disposed above the press-fitting support table, and a top support plate disposed on top of the set of press-fitting support frames;

the lifting driving assembly comprises a pressing plate fixed with the pressing head, a group of sliding sleeve rods arranged between the pressing plate and the end face of the top supporting plate, which is opposite to the pressing supporting table, and a lifting driving cylinder arranged at the top of the top supporting plate, wherein a piston rod of the lifting driving cylinder penetrates through the top supporting plate and then is connected with the pressing plate.

In a preferred embodiment of the present invention, the bottom end of the press-fitting head downward fan is provided with an extended press-fitting positioning pin.

In a preferred embodiment of the present invention, the fan pushing assembly includes a pair of clamping blocks adapted to clamp the fan from both sides of the fan and a pair of clamping cylinders respectively connected to the pair of clamping blocks and adapted to drive the pair of clamping blocks to move in opposite directions;

A pair of clamping blocks are respectively provided with a connecting block towards the side ends of the press-fit cavity; the pair of clamping blocks are respectively fixedly connected to the bottom end surface of a cover plate through corresponding connecting blocks; a bottom supporting plate is correspondingly arranged below the cover plate;

A group of sliding rails are symmetrically arranged on the bottom supporting plate, and sliding blocks are arranged on the sliding rails in a sliding manner; the sliding blocks of the group of sliding rails are connected with the cover plate, and the cover plate is fixedly connected with the pair of clamping cylinders; and through grooves are formed in the clamping areas formed by the corresponding pair of clamping blocks on the cover plate and the bottom supporting plate.

In a preferred embodiment of the present invention, the fan pushing assembly further includes a pushing driving cylinder provided on the bottom support plate and connected to one of the pair of clamping cylinders.

In a preferred embodiment of the invention, the direct vibration feeding assembly comprises a feeding pipe and a vibration disc connected with the feeding pipe;

the discharge hole of the feed pipe extends into the bottom supporting plate and is in butt joint with a clamping interval formed by a pair of clamping blocks;

The vibration disk is connected with the feed inlet of the feed pipe.

In the preferred embodiment of the invention, the device further comprises a pair of stop structures arranged at the discharge hole of the feeding pipe;

The stop structure comprises a pair of limiting blocks for limiting the fan from two sides of the fan, a stop block positioned at the inner side end of any one of the pair of limiting blocks towards the fan, and a stop driving cylinder arranged at the outer side end of the limiting block with the stop block away from the fan;

The piston rod of the stop driving cylinder penetrates through the limiting block and then is connected with the stop block; and

And an interval formed by the pair of limiting blocks is communicated with the discharge port.

In a preferred embodiment of the present invention, a press-fit supporting block is disposed under the press-fit supporting table corresponding to the press-fit head.

In a preferred embodiment of the invention, the press-fitting station is embedded with a wedge block which is suitable for being propped by the press-fitting supporting block; the wedge block is connected with the jacking block through a connecting shaft; the connecting shaft is sleeved with a spring; and

A containing frame suitable for containing the motor is arranged above the jacking block at a certain gap from the jacking block; the accommodating rack is provided with a through accommodating cavity; when the motor is accommodated in the accommodating cavity, the bottom end of the motor is suitable for being abutted on the jacking block.

In a preferred embodiment of the present invention, a first photoelectric switch is disposed at the bottom of the bottom support plate and located right below the through groove;

the bottom of the bottom supporting plate is positioned beside the first photoelectric switch, and a second photoelectric switch suitable for sensing the motor is arranged.

The beneficial effects of the invention are as follows: according to the full-automatic fan blade wheel press-fitting device, through the fan feeding mechanism, the motor feeding mechanism and the press-fitting driving mechanism which are used in a matched mode, automatic feeding of the fan and the motor and press-fitting between the fan and the motor are achieved automatically, and production efficiency is effectively improved in an automatic process.

Drawings

The invention will be further described with reference to the drawings and examples.

FIG. 1 is a block diagram of a full automatic fan blade wheel press-fit device of the present invention;

FIG. 2 is a partial block diagram of a fully automatic fan blade wheel press-fitting apparatus of the present invention;

FIG. 3 is a second partial block diagram of the full automatic fan blade wheel press-fitting apparatus of the present invention;

FIG. 4 is a partial block diagram of a fully automatic fan blade wheel press-fitting apparatus of the present invention;

FIG. 5 is a partial block diagram of a fully automatic fan blade wheel press-fitting apparatus of the present invention;

Fig. 6 is a partial construction diagram of the full automatic fan blade wheel press-fitting device of the present invention.

In the figure: the press-fit supporting table 101, the press-fit cavity 102, the press-fit supporting frame 104, the top supporting plate 105, the press-fit supporting block 107, the rotary table 201, the press-fit station 203, the wedge block 204, the connecting shaft 205, the spring 206, the jacking block 207, the accommodating frame 208, the press-fit head 301, the press-fit positioning pin 303, the press-fit plate 305, the sliding sleeve rod 306, the lifting driving cylinder 308, the clamping block 401, the connecting block 402, the clamping cylinder 403, the cover plate 405, the bottom supporting plate 407, the sliding rail 408, the sliding block 410, the pushing driving cylinder 412, the through groove 415, the vibration plate 501, the feeding pipe 503, the stopper 505, the stopper block 507, the stopper driving cylinder 508, the motor 600, the fan 700, the first photoelectric switch 800, the connecting frame 802, and the second photoelectric switch 900.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are some embodiments of the present invention, but not all embodiments. All other embodiments, based on the embodiments of the invention, which are apparent to those of ordinary skill in the art without inventive faculty, are intended to be within the scope of the invention.

Thus, the following detailed description of the embodiments of the invention, as presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, based on the embodiments of the invention, which are apparent to those of ordinary skill in the art without inventive faculty, are intended to be within the scope of the invention.

As shown in fig. 1 to 6, the present invention provides a full-automatic fan blade wheel press-fitting device, comprising: the conveying press-fitting frame body, the fan feeding mechanism, the motor 600 feeding mechanism and the press-fitting driving mechanism.

And the conveying and press-fitting frame body comprises a press-fitting supporting table 101 and a press-fitting cavity 102 positioned above the press-fitting supporting table 101.

The fan feed mechanism includes a direct vibration feed assembly for delivering the fan 700 and a fan push assembly for pushing the fan 700 into the press-fit cavity 102.

The motor 600 feeding mechanism comprises a rotary table 201 for conveying the motor 600 and a plurality of press-fitting stations 203 arranged on the rotary table 201.

The press-fit driving mechanism comprises a press-fit head 301 which is arranged above the press-fit cavity 102 and is suitable for press-fitting the fan 700 and the motor 600, and a lifting driving component which is connected with the press-fit head 301 and is suitable for driving the press-fit head 301 to longitudinally move. The press-fitting head 301 is provided with an extended press-fitting positioning pin 303 toward the bottom end of the lower fan 700.

Specifically, the conveying press-fitting frame body further comprises a group of symmetrical press-fitting support frames 104 vertically arranged above the press-fitting support table 101 and a top support plate 105 arranged at the top of the group of press-fitting support frames 104. The side end of the press-fit supporting frame 104 facing the rotating table 201 is provided with a concave arc structure, so that the rotating table 201 can convey the motor 600 to the press-fit cavity 102 through the arc structure, and press-fit with the fan 700 is facilitated.

Referring to fig. 2, the lifting driving assembly includes a pressing plate 305 fixed to the pressing head 301, a set of sliding sleeve rods 306 disposed between the pressing plate 305 and an end surface of the top supporting plate 105 opposite to the pressing supporting table 101, and a lifting driving cylinder 308 disposed on the top of the top supporting plate 105, wherein a piston rod of the lifting driving cylinder 308 passes through the top supporting plate 105 and is connected to the pressing plate 305.

Referring to fig. 3, the fan pushing assembly includes a pair of clamping blocks 401 adapted to clamp the fan 700 from both sides of the fan 700, and a pair of clamping cylinders 403 respectively connected to the pair of clamping blocks 401 and adapted to drive the pair of clamping blocks 401 to move in opposite directions; a pair of clamping blocks 401 are respectively provided with a connecting block 402 at the side ends facing the press-fit cavity 102; a pair of clamping blocks 401 are fixedly connected to the bottom end surface of a cover plate 405 through corresponding connecting blocks 402. A bottom support plate 407 is correspondingly arranged below the cover plate 405. The pair of clamping cylinders 403 are in a contracted state in a non-operating state, i.e., the pair of clamping blocks 401 are in a non-clamping state with respect to the fan 700. When it is desired to clamp the fan 700 in press-fit with the motor 600, the pair of clamping cylinders 403 are operated so that the pair of clamping blocks 401 clamp the fan 700. The bottom end surfaces of the connecting block 402, the clamping block 401 and the clamping cylinder 403 are in the same horizontal plane, and a certain gap exists between the bottom end surfaces of the connecting block 402, the clamping block 401 and the clamping cylinder 403 and the bottom supporting plate 407, so that the fan pushing assembly pushes risks of clamping the pair of clamping blocks 401 into the press-fit cavity 102. After the pair of clamping blocks 401 push the fan to the press-fitting position in the press-fitting cavity 102, the clamping cylinders 403 are released, so that the pair of clamping blocks 401 remove the clamping of the fan, and the center hole of the fan is sleeved on the center shaft of the motor.

Referring to fig. 4, a set of sliding rails 408 are symmetrically disposed on the bottom supporting plate 407, and sliding blocks 410 are slidably disposed on the sliding rails 408; the slides 410 of a set of slide rails 408 are each connected to a cover plate 405, the cover plate 405 being fixedly connected to a pair of clamping cylinders 403; the cover plate 405 and the bottom support plate 407 are provided with through grooves 415 in the clamping areas formed by the corresponding pair of clamping blocks 401.

The fan pushing assembly further includes a pushing drive cylinder 412 provided on the bottom support plate 407 and connected to one of the clamping cylinders 403 of the pair of clamping cylinders 403.

The specific implementation principle of the fan pushing component is as follows: the piston rod of the pushing driving cylinder 412 extends out, a certain pushing force moving towards the motor 600 on the press-fit cavity 102 is applied to the clamping cylinder 403 connected with the pushing driving cylinder 412, and as the clamping cylinder 403 is fixedly connected with the cover plate 405, the pushing force applied by the pushing driving cylinder 412 to the clamping cylinder 403 acts on the cover plate 405, so that the cover plate 405 moves towards the motor 600 on the press-fit cavity 102 under the action of the sliding blocks 410 on the group of sliding rails 408, and the pushing process of the fan 700 is realized. When the pushing of the fan 700 is completed, the piston rod of the push driving cylinder 412 is retracted, and the reverse process to the above-described process is performed.

The direct vibration feeding assembly comprises a feeding pipe 503 and a vibration plate 501 connected with the feeding pipe 503; a discharge hole of the feed pipe 503 extends into the bottom supporting plate 407 and is in butt joint with a clamping interval formed by a pair of clamping blocks 401; the vibration plate 501 is connected to the inlet of the feed pipe 503.

In order to facilitate the influence on the rest of the fans 700 in the feeding pipe 503 in the process of pushing the fans 700 to be pressed by the motor 600 and the fans 700 to the pressing cavity 102 by the fan pushing assembly, the fully automatic fan 700 impeller pressing device further comprises a pair of stop structures arranged at the discharging hole of the feeding pipe 503; the stop structure comprises a pair of stop blocks 505 for limiting the fan 700 from two sides of the fan 700, a stop block 507 positioned on the inner side end of any one of the pair of stop blocks 505 facing the fan 700, and a stop driving cylinder 508 arranged on the outer side end of the stop block 505, which is away from the fan 700, of the stop block 507; the piston rod of the stop driving cylinder 508 passes through the stop block 505 and then is connected with the stop block 507; and a section formed by the pair of stoppers 505 is communicated with the discharge port.

Referring to fig. 6, a press-mounting support block 107 is disposed under the press-mounting support table 101 corresponding to the press-mounting head 301. Wedge-shaped blocks 204 which are suitable for being propped by the press-fit supporting blocks 107 are clamped and embedded on the press-fit station 203; the wedge block 204 is connected with the jacking block 207 through a connecting shaft 205; the connecting shaft 205 is sleeved with a spring 206. A containing frame 208 which is suitable for containing the motor 600 is arranged above the jacking block 207 at a certain gap from the jacking block 207; the accommodating rack 208 is provided with a through accommodating cavity; when the motor 600 is accommodated in the accommodating cavity, the bottom end of the motor 600 is adapted to abut against the jacking block 207. The bottom end of the motor 600 is the bottom end of the central shaft of the motor 600.

Referring to fig. 5, a first photoelectric switch 800 is disposed at the bottom of the bottom support plate 407 and directly below the through slot 415; the first photoelectric switch 800 is connected to the bottom of the bottom support plate 407 via a coupling bracket 802. The first photoelectric switch 800 is used for sensing that the fan 700 sent out by the feed port enters the region corresponding to the through slot 415, that is, the clamping interval formed by the pair of clamping blocks 401.

The bottom of the bottom support plate 407 is located beside the first opto-electronic switch 800 with a second opto-electronic switch 900 adapted to sense the motor 600. The second photoelectric switch 900 is used to sense the motor 600 in place for the conveyance of the motor 600 feeding mechanism.

The specific press-fitting process of the full-automatic fan 700 impeller press-fitting device is as follows: when the wedge block 204 of the press-fitting station 203 of the turntable 201 rotates to the press-fitting supporting block 107 on the press-fitting supporting table 101, under the action of the press-fitting supporting block 107, the spring 206 between the wedge block 204 and the lifting block 207 is compressed, the lifting block 207 moves towards one side of the motor 600 under the elastic action of the spring 206, so as to lift the central shaft of the motor 600, at this time, the lifting driving cylinder 308 descends, the press-fitting positioning pin 303 of the press-fitting head 301 is inserted into the central hole of the fan 700 to position the fan 700, the fan 700 is pressed together with the central shaft of the motor 600 along with the downward movement of the lifting driving cylinder 308, and after the press-fitting positioning pin 303 contacts with the central shaft of the motor 600, the press-fitting positioning pin 303 is sprung up and is pressed into place. The lifting driving cylinder 308 is lifted and reset, the rotary table 201 rotates, the press-fitting product which is press-fitted with the fan 700 and the motor 600 is conveyed out, and simultaneously, the next press-fitting process of the motor 600 and the fan 700 is started in a circulating manner.

With the above-described preferred embodiments according to the present invention as an illustration, the above-described descriptions can be used by persons skilled in the relevant art to make various changes and modifications without departing from the scope of the technical idea of the present invention. The technical scope of the present invention is not limited to the description, but must be determined according to the scope of claims.

In the description of the present invention, it should be understood that the terms "orientation" or "positional relationship" are based on the orientation or positional relationship shown in the drawings, and are merely for convenience of description and to simplify the description, rather than to indicate or imply that the apparatus or elements referred to must have a particular orientation, be constructed and operate in a particular orientation, and therefore should not be construed as limiting the invention.

In the present invention, unless explicitly specified and limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communicated with the inside of two elements or the interaction relationship of the two elements. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art according to the specific circumstances.

In the description of the present invention, it should be noted that, directions or positional relationships indicated by terms such as "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., are directions or positional relationships based on those shown in the drawings, or are directions or positional relationships conventionally put in use of the inventive product, are merely for convenience of describing the present invention and simplifying the description, and are not indicative or implying that the apparatus or element to be referred to must have a specific direction, be constructed and operated in a specific direction, and thus should not be construed as limiting the present invention. Furthermore, the terms "first," "second," "third," and the like are used merely to distinguish between descriptions and should not be construed as indicating or implying relative importance.

Furthermore, the terms "horizontal," "vertical," "overhang," and the like do not denote a requirement that the component be absolutely horizontal or overhang, but rather may be slightly inclined. As "horizontal" merely means that its direction is more horizontal than "vertical", and does not mean that the structure must be perfectly horizontal, but may be slightly inclined.

In the present invention, unless expressly stated or limited otherwise, a first feature may include first and second features directly contacting each other, either above or below a second feature, or through additional features contacting each other, rather than directly contacting each other. Moreover, the first feature being above, over, and on the second feature includes the first feature being directly above and obliquely above the second feature, or simply indicating that the first feature is higher in level than the second feature. The first feature being below, beneath, and beneath the second feature includes the first feature being directly below and obliquely below the second feature, or simply indicates that the first feature is less level than the second feature.

Claims (5)

1. Full-automatic fan blade wheel pressure equipment device, its characterized in that includes:

The conveying and press-fitting support body comprises a press-fitting support table (101) and a press-fitting cavity (102) positioned above the press-fitting support table (101);

The fan feeding mechanism comprises a direct vibration feeding component for conveying a fan and a fan pushing component for pushing the fan into the press-fit cavity (102);

The motor (600) feeding mechanism comprises a rotary table (201) for conveying the motor (600) and a plurality of press-fit stations (203) arranged on the rotary table (201); and

The press-fit driving mechanism comprises a press-fit head (301) which is arranged above the press-fit cavity (102) and is suitable for press-fitting the fan and the motor (600), and a lifting driving assembly which is connected with the press-fit head (301) and is suitable for driving the press-fit head (301) to longitudinally move;

The conveying press-fitting frame body further comprises a group of symmetrical press-fitting support frames (104) vertically arranged above the press-fitting support table (101) and a group of top support plates (105) arranged at the tops of the press-fitting support frames (104);

The lifting driving assembly comprises a pressing plate (305) fixed with the pressing head (301), a group of sliding sleeve rods (306) arranged between the pressing plate (305) and the end surface of the top supporting plate (105) opposite to the pressing supporting table (101), and a lifting driving cylinder (308) arranged at the top of the top supporting plate (105), wherein a piston rod of the lifting driving cylinder (308) penetrates through the top supporting plate (105) and then is connected with the pressing plate (305);

the fan pushing assembly comprises a pair of clamping blocks (401) which are suitable for clamping the fan from two sides of the fan and a pair of clamping cylinders (403) which are respectively connected with the pair of clamping blocks (401) and are suitable for driving the pair of clamping blocks (401) to move in opposite directions;

a pair of clamping blocks (401) are respectively provided with a connecting block (402) towards the side ends of the press-fit cavity (102); the corresponding connecting blocks (402) of the clamping blocks (401) are fixedly connected to the bottom end surface of a cover plate (405); a bottom supporting plate (407) is correspondingly arranged below the cover plate (405);

A group of sliding rails (408) are symmetrically arranged on the bottom supporting plate (407), and sliding blocks (410) are arranged on the sliding rails (408) in a sliding manner; the sliding blocks (410) of the group of sliding rails (408) are connected with the cover plate (405), and the cover plate (405) is fixedly connected with the pair of clamping cylinders (403); a through groove is formed in the cover plate (405) and the bottom supporting plate (407) in a clamping interval corresponding to the pair of clamping blocks (401);

The fan pushing assembly further comprises a pushing driving cylinder (412) which is arranged on the bottom supporting plate (407) and is connected with one clamping cylinder (403) of the pair of clamping cylinders (403);

the direct vibration feeding assembly comprises a feeding pipe (503) and a vibration disc (501) connected with the feeding pipe (503);

the discharge hole of the feed pipe (503) extends into the bottom supporting plate (407) and is in butt joint with a clamping interval formed by a pair of clamping blocks (401);

the vibration disc (501) is connected with a feed port of the feed pipe (503);

The device also comprises a pair of stop structures arranged at the discharge hole of the feed pipe (503);

the stop structure comprises a pair of limiting blocks (505) for limiting the fan from two sides of the fan, a stop block (507) positioned at the inner side end of any one limiting block (505) of the pair of limiting blocks (505) towards the fan, and a stop driving cylinder (508) arranged at the outer side end, away from the fan, of the limiting block (505) with the stop block (507);

The piston rod of the stop driving cylinder (508) penetrates through the limiting block (505) and then is connected with the stop block (507); and

And an interval formed by the pair of limiting blocks (505) is communicated with the discharge port.

2. The full-automatic fan blade wheel press-fitting device according to claim 1, wherein the press-fitting head (301) is provided with an extended press-fitting positioning pin (303) toward the bottom end of the downward fan.

3. The full-automatic fan blade wheel press-fitting device according to claim 1, wherein a press-fitting supporting block (107) is arranged under the press-fitting supporting table (101) corresponding to the press-fitting head (301).

4. A fully automatic fan blade wheel press-fitting device according to claim 3, characterized in that a wedge block (204) suitable for being abutted by the press-fitting support block (107) is clamped and embedded on the press-fitting station (203); the wedge block (204) is connected with the jacking block (207) through a connecting shaft (205); a spring (206) is sleeved on the connecting shaft (205); and

A containing frame (208) which is suitable for containing the motor (600) is arranged above the jacking block (207) at a certain gap from the jacking block (207); the accommodating rack (208) is provided with a through accommodating cavity; when the motor (600) is accommodated in the accommodating cavity, the bottom end of the motor (600) is suitable for being abutted against the jacking block (207).

5. The full-automatic fan blade wheel press-fitting device according to claim 1, wherein a first photoelectric switch (800) is arranged at the bottom of the bottom supporting plate (407) right below the through groove;

The bottom of the bottom supporting plate (407) is located beside the first photoelectric switch (800) and is provided with a second photoelectric switch (900) suitable for sensing the motor (600).