CN220140068U

CN220140068U - Feeding mechanism of SMT chip mounter

Info

Publication number: CN220140068U
Application number: CN202320922949.1U
Authority: CN
Inventors: 蔡文燕
Original assignee: Xuzhou Donghe Bangtai Technology Co ltd
Current assignee: Xuzhou Donghe Bangtai Technology Co ltd
Priority date: 2023-04-23
Filing date: 2023-04-23
Publication date: 2023-12-05
Anticipated expiration: 2033-04-23

Abstract

The utility model relates to the technical field of SMT chip mounters and discloses a feeding mechanism of an SMT chip mounter, which comprises a base main body, wherein a sorting mechanism is fixedly connected to the upper end face of the base main body close to one side, a fixing mechanism is fixedly connected to the upper end face of the base main body close to the other side, supporting legs are fixedly connected to four corners of the lower end face of the base main body, the base main body comprises a base shell, a placement hole is formed in the middle of the upper end face of the base shell, a conveying mechanism is rotatably connected to the inside of the placement hole, a sliding layer is fixedly connected to the surface of the conveying mechanism, the sorting mechanism comprises two supporting blocks, rollers are rotatably connected to the middle of one side opposite to the two supporting blocks, and the fixing mechanism comprises four fixing blocks. According to the utility model, the patch can be separated from the middle to two sides through the second motor, the roller, the soft layer and the inclined sliding hole, so that the patch is subjected to certain separation planning.

Description

Feeding mechanism of SMT chip mounter

Technical Field

The utility model relates to the technical field of SMT chip mounters, in particular to a feeding mechanism of an SMT chip mounter.

Background

Through retrieval, the prior patent (publication number: CN 213201307U) is named as a component feeding device of an SMT chip mounter, belongs to the technical field of SMT chip mounter equipment, and mainly solves the problems that a coiled packaged chip component is easy to break due to uneven stress and self gravity in the feeding process, and comprises a charging barrel, a pushing mechanism and a conveying mechanism, wherein an inlet and an outlet are respectively arranged on two sides of the charging barrel, the pushing mechanism is positioned in the inlet, and the conveying mechanism is aligned with the outlet; the conveying mechanism comprises a driving wheel, a driven wheel, a conveying belt and trough plates, wherein the conveying belt is sleeved on the driving wheel and the driven wheel, sleeves are arranged at the centers of the driving wheel and the driven wheel, and the two trough plates are fixed on the sleeves and are respectively positioned on two sides of the conveying belt. In the utility model, the patch elements uniformly and stably move on the conveyor belt, the patch elements scattered and positioned on the conveyor belt cannot be broken, and the whole adsorption process can be continued for a long time.

The inventors found that the following problems exist in the prior art in the process of implementing the present utility model: 1. when the patches are conveyed and discharged, the superposition state needs to be reappeared from the charging barrel, and when the patches are placed in the charging barrel, the phenomenon that the patches are broken due to the height can occur; 2. in the feeding process, the patches are fed out without limitation, so that the patches can be randomly conveyed at the upper end of the conveying mechanism, and time is wasted when the chip mounter is used for grabbing; therefore, a person skilled in the art provides a feeding mechanism of an SMT chip mounter to solve the problems set forth in the background art.

Disclosure of Invention

The utility model aims to solve the defects in the prior art, and provides a feeding mechanism of an SMT chip mounter, which is characterized in that a first motor and a second motor are started to enable a conveying mechanism and a roller to rotate, a chip is placed at one end of the conveying mechanism, the conveying mechanism conveys the chip, when the chip passes through the roller, inclined sliding holes on the soft layer surface of the roller enable the chip to enter between inclined plates from the middle to two sides, the feeding mechanism is simple, the chip can be separated and transported, and the chip can orderly enter the conveying mechanism for conveying.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

the feeding mechanism of the SMT chip mounter comprises a base main body, wherein the upper end surface of the base main body is fixedly connected with a sorting mechanism near one side, the upper end surface of the base main body is fixedly connected with a fixing mechanism near the other side, and four corners of the lower end surface of the base main body are fixedly connected with supporting legs;

the base main body comprises a base shell, a placement hole is formed in the middle of the upper end face of the base shell, a conveying mechanism is rotatably connected in the placement hole, a sliding layer is fixedly connected to the surface of the conveying mechanism, the dividing mechanism comprises two supporting blocks, and a roller is rotatably connected in the middle of one opposite side of each supporting block;

the fixing mechanism comprises four fixing blocks, the middle of one side of each of the four fixing blocks, which is opposite to each other, is fixedly connected with a fixing plate near the lower end, the front end and the rear end of the lower end face of each fixing plate are slidably connected with a first connecting plate, the middle of the front end and the rear end of the lower end face of each fixing plate is fixedly provided with a second connecting plate, the front end and the rear end of the upper end face of each fixing plate are provided with placing clamping holes, telescopic columns are clamped in the four placing clamping holes, and sliding holes are formed in the middle of the two sides of the upper end face of each first connecting plate;

through the technical scheme, the base main body can support other mechanisms, the sorting mechanism can sort the patches to the fixing mechanism, the fixing mechanism can enable the patches to fixedly slide out, the supporting legs can support the base main body, the conveying mechanism inside the placement holes can enable the patches to be conveyed, the sliding layer can enable the surfaces of the conveying mechanism to be not uneven, the patches to slide without damaging the patch main body, the rotating rollers between the supporting blocks can divide the patches, the fixing plates between the fixing blocks can support and fix two second connecting plates, the two first connecting plates can slide, gaps between the first connecting plates and the second connecting plates are enlarged or reduced, the placement clamping holes enable a through hole to be formed, the holes are evenly formed in the two sides of the hole, the telescopic posts can be fixed, the sliding holes are formed in the upper side and the lower side, and only the sliding holes can be formed.

Further, a connecting hole is formed in one side of the rear end of the inside of the base shell, a first motor is fixedly connected to the inner bottom surface of the connecting hole, and the output end of the first motor is fixedly connected with the conveying mechanism;

through above-mentioned technical scheme, the inside motor of No. one of connecting hole can make conveying mechanism carry out the rotation.

Further, the surface of the roller is fixedly connected with a soft layer, and two inclined sliding holes are formed in the surface of the soft layer;

through above-mentioned technical scheme, the soft layer can not harm the paster, makes the paster carry to leaning on both sides from the centre through the inclined slide hole.

Further, a supporting plate is fixedly connected to the middle of the rear side of one supporting block at the rear end of the two supporting blocks near the lower end, a motor No. two is fixedly connected to the middle of the upper end surface of the supporting plate, and the output end of the motor No. two penetrates through the supporting block and is fixedly connected with the roller;

through above-mentioned technical scheme, the fixed backup pad in the middle of the rear side of two supporting shoe rear ends, no. two motors in the backup pad and roller fixed connection for No. two motors rotate and drive the roller.

Further, opposite inclined plates are fixedly connected between one ends of the first connecting plate and the second connecting plate, two circular fixing holes are formed in the middle of the lower end faces of the four inclined plates close to two sides, balls are rotatably connected in the eight circular fixing holes, and the surfaces of the eight balls are rotatably connected in the conveying mechanism;

through above-mentioned technical scheme, the swash plate of a connecting plate and No. two connecting plate one sides is the funnel form for the paster carries out the level, sets up circular fixed orifices at the swash plate lower extreme, and circular fixed orifices is inside to rotate the ball, and the ball rotates on the smooth layer surface on conveying mechanism.

Further, a plurality of round fixing holes are uniformly formed in the middle of the lower end surfaces of the first connecting plate and the second connecting plate, round balls are rotationally connected to the inside of the round fixing holes, and the round balls are rotationally connected to the surface of the sliding layer;

through above-mentioned technical scheme, the circular fixed orifices of seting up of connecting plate No. one and No. two connecting plates lower extreme rotates the ball in the inside of a plurality of circular fixed orifices, and a plurality of balls rotate with the sliding layer to be connected for a connecting plate No. one and No. two connecting plates have certain strong points in the lower extreme.

Further, clamping blocks are fixedly connected to the upper ends of the surfaces of the four telescopic columns, and the four clamping blocks are clamped with the clamping holes;

through the technical scheme, the clamping block is clamped and fixed in the clamping hole placed at the upper end of the surface of the telescopic column, so that the distance between the first connecting plate and the second connecting plate is enlarged or reduced.

Further, square blocks are fixedly connected to the lower end faces of the four telescopic columns, and the four square blocks are in sliding connection with the telescopic columns in the sliding holes;

through above-mentioned technical scheme, square piece and the lower extreme of flexible post slide from top to bottom in the slide hole inside for square piece is fixed a connecting plate in the slide hole inside.

The utility model has the following beneficial effects:

1. according to the feeding mechanism of the SMT chip mounter, the first motor and the second motor are started to enable the conveying mechanism and the roller to rotate, the patches are placed at one end of the conveying mechanism, the conveying mechanism is used for conveying the patches, when the patches pass through the roller, the patches enter between the inclined plates from the middle to two sides through the inclined sliding holes on the soft layer surface of the roller, the using mechanism is simple, the patches can be separated and transported, the patches can sequentially enter the conveying mechanism to be conveyed, and the practicability of the feeding mechanism is enhanced.

2. According to the feeding mechanism of the SMT chip mounter, disclosed by the utility model, the round balls are rotated at the lower ends of the first connecting plate, the second connecting plate and the inclined plate through the gap between the first connecting plate and the second connecting plate, so that the first connecting plate, the second connecting plate and the inclined plate cannot move along with the conveying mechanism, the clamping block is vertically separated from the placing clamping hole by pulling the telescopic column, when the telescopic column ascends, the square block in the sliding hole at the upper end of the first connecting plate ascends, the first connecting plate is driven by the sliding telescopic column, the telescopic column is loosened after the telescopic column reaches a certain position, the clamping block is clamped with the placing clamping hole, the patches with different sizes can be horizontally fixed and transported, the patches can be better grasped by the chip mounter, and the practicability of the feeding mechanism is enhanced

Drawings

Fig. 1 is a schematic axial view of a feeding mechanism of an SMT chip mounter according to the present utility model;

fig. 2 is a schematic front section view of a feeding mechanism of an SMT chip mounter according to the present utility model;

fig. 3 is a schematic side sectional view of a feeding mechanism of an SMT chip mounter according to the present utility model;

fig. 4 is a schematic top view of a feeding mechanism of an SMT chip mounter according to the present utility model;

fig. 5 is a schematic side view of a roller of an SMT chip mounter feeding mechanism according to the present utility model;

fig. 6 is an enlarged schematic diagram of a portion a of a feeding mechanism of an SMT chip mounter according to the present utility model;

fig. 7 is an enlarged schematic diagram of a B-position of a feeding mechanism of an SMT chip mounter according to the present utility model.

Legend description:

1. a base body; 2. a sorting mechanism; 3. a fixing mechanism; 4. support legs; 101. a base housing; 102. placing the hole; 103. a conveying mechanism; 104. a sliding layer; 105. a connection hole; 106. a motor I; 201. a support block; 202. a roller; 203. a soft layer; 204. a diagonal slide hole; 205. a support plate; 206. a motor II; 301. a fixed block; 302. a fixing plate; 303. a first connecting plate; 304. a sloping plate; 305. a circular fixing hole; 306. a ball; 307. placing a clamping hole; 308. a telescopic column; 309. a clamping block; 310. square blocks; 311. a sliding hole; 312. and a second connecting plate.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-7, one embodiment provided by the present utility model is: the feeding mechanism of the SMT chip mounter comprises a base main body 1, wherein the upper end surface of the base main body 1 is fixedly connected with a sorting mechanism 2 near one side, the upper end surface of the base main body 1 is fixedly connected with a fixing mechanism 3 near the other side, and four corners of the lower end surface of the base main body 1 are fixedly connected with supporting legs 4;

the base body 1 comprises a base shell 101, a placing hole 102 is formed in the middle of the upper end surface of the base shell 101, a conveying mechanism 103 is rotatably connected in the placing hole 102, a sliding layer 104 is fixedly connected to the surface of the conveying mechanism 103, the sorting mechanism 2 comprises two supporting blocks 201, and a roller 202 is rotatably connected in the middle of one side opposite to the two supporting blocks 201;

the fixing mechanism 3 comprises four fixing blocks 301, fixing plates 302 are fixedly connected to the middle of one side of each of the four fixing blocks 301, which is opposite to each other, a first connecting plate 303 is slidably connected to the middle of the two opposite sides of the lower end faces of the two fixing plates 302, a second connecting plate 312 is fixed to the middle of the two opposite sides of the lower end faces of the two fixing plates 302, holding clamping holes 307 are formed in the middle of the upper end faces of the two fixing plates 302, telescopic columns 308 are clamped in the four holding clamping holes 307, and sliding holes 311 are formed in the middle of the two sides of the upper end faces of the two first connecting plates 303;

the base body 1 can support other mechanisms, the sorting mechanism 2 can sort the patches to the fixing mechanism 3, the fixing mechanism 3 can enable the patches to fixedly slide out, the supporting legs 4 can support the base body 1, the conveying mechanism 103 inside the placement holes 102 can enable the patches to be conveyed, the sliding layer 104 can enable the surfaces of the conveying mechanism 103 to be not uneven, the patches can slide without damaging the patch body, the roller 202 which rotates between the supporting blocks 201 can divide the patches, the fixing plates 302 between the fixing blocks 301 can support and fix two second connecting plates 312, the two first connecting plates 303 can also slide, gaps between the first connecting plates 303 and the second connecting plates 312 are enlarged or reduced, the clamping holes 307 are placed to enable a through hole to be uniformly formed in two sides of the hole, the telescopic columns 308 can be fixed without falling down, the sliding holes 311 are formed in holes from top to bottom, and only the vertical sliding can be performed.

A connecting hole 105 is formed in one side of the rear end of the inside of the base shell 101, a first motor 106 is fixedly connected to the inner bottom surface of the connecting hole 105, the output end of the first motor 106 is fixedly connected with the conveying mechanism 103, the first motor 106 in the connecting hole 105 can enable the conveying mechanism 103 to rotate and convey, a soft layer 203 is fixedly connected to the surface of the roller 202, two inclined sliding holes 204 are formed in the surface of the soft layer 203, the soft layer 203 cannot damage a patch, and the patch is conveyed from the middle to the two sides through the inclined sliding holes 204;

a supporting plate 205 is fixedly connected to the middle of the rear side of the supporting block 201 at one rear end of the two supporting blocks 201 near the lower end, a motor No. two 206 is fixedly connected to the middle of the upper end surface of the supporting plate 205, the output end of the motor No. two 206 penetrates through the supporting block 201 and is fixedly connected with the roller 202, the supporting plate 205 is fixedly connected to the middle of the rear side of the rear end of the two supporting blocks 201, and the motor No. two 206 on the supporting plate 205 is fixedly connected with the roller 202, so that the motor No. two 206 rotates to drive the roller 202;

opposite inclined plates 304 are fixedly connected between one ends of the first connecting plate 303 and the second connecting plate 312, two circular fixing holes 305 are formed in the middle of two sides of the lower end surfaces of the four inclined plates 304, balls 306 are rotatably connected in the eight circular fixing holes 305, the surfaces of the eight balls 306 are rotatably connected on the sliding layer 104, the inclined plates 304 on one side of the first connecting plate 303 and the second connecting plate 312 are funnel-shaped, so that the patches are horizontally conveyed, the circular fixing holes 305 are formed in the lower ends of the inclined plates 304, the balls 306 rotate in the circular fixing holes 305, and the balls 306 rotate on the surface of the sliding layer 104 on the conveying mechanism 103;

a plurality of round fixing holes 305 are uniformly formed in the middle of the lower end surfaces of the first connecting plate 303 and the second connecting plate 312, round balls 306 are rotationally connected in the round fixing holes 305, the surfaces of the round balls 306 are rotationally connected on the surface of the sliding layer 104, the round fixing holes 305 formed in the lower ends of the first connecting plate 303 and the second connecting plate 312 rotate the round balls 306 in the round fixing holes 305, and the round balls 306 are rotationally connected with the sliding layer 104, so that a certain supporting point exists between the first connecting plate 303 and the second connecting plate 312 at the lower end;

the surface upper end fixedly connected with fixture block 309 of four flexible post 308, four fixture block 309 all with place the joint hole 307 joint setting, fixture block 309 carries out the joint at the surface upper end of flexible post 308 and places joint hole 307 and carry out the joint fixedly, make the distance between connecting plate 303 and the connecting plate 312 No. two enlarge or reduce, the lower terminal surface fixedly connected with square piece 310 of four flexible post 308, four square piece 310 and flexible post 308 all slide connection in slide hole 311 inside, square piece 310 slides from top to bottom in slide hole 311 with the lower extreme of flexible post 308, make square piece 310 fix connecting plate 303 in slide hole 311 inside.

Working principle: the first motor 106 and the second motor 206 are started to enable the conveying mechanism 103 and the roller 202 to rotate, the patch is placed at one end of the conveying mechanism 103, the conveying mechanism 103 conveys the patch, when the patch passes through the roller 202, the patch enters between the inclined plates 304 from the middle to two sides through the inclined sliding holes 204 on the surface of the soft layer 203 on the surface of the roller 202, slides through a gap between the first connecting plate 303 and the second connecting plate 312, and rotates the ball 306 at the lower ends of the first connecting plate 303, the second connecting plate 312 and the inclined plates 304, so that the first connecting plate 303, the second connecting plate 312 and the inclined plates 304 cannot move with the conveying mechanism 103;

the telescopic column 308 is pulled to the patches with different lengths and widths, so that the clamping block 309 is vertically separated from the placing clamping hole 307, when the telescopic column 308 ascends, the square block 310 inside the sliding hole 311 at the upper end of the first connecting plate 303 ascends, the first connecting plate 303 is driven by the sliding telescopic column 308, the telescopic column 308 is loosened after the first connecting plate is slid to a certain position, the clamping block 309 is clamped with the placing clamping hole 307, and the patches with different sizes can be horizontally and fixedly transported.

Finally, it should be noted that: the foregoing description is only illustrative of the preferred embodiments of the present utility model, and although the present utility model has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements or changes may be made without departing from the spirit and principles of the present utility model.

Claims

1. The utility model provides a SMT chip mounter feeding mechanism, includes base main part (1), its characterized in that: the multifunctional pedestal comprises a pedestal main body (1), wherein the upper end face of the pedestal main body (1) is fixedly connected with a sorting mechanism (2) near one side, the upper end face of the pedestal main body (1) is fixedly connected with a fixing mechanism (3) near the other side, and four corners of the lower end face of the pedestal main body (1) are fixedly connected with supporting legs (4);

the base body (1) comprises a base shell (101), a placement hole (102) is formed in the middle of the upper end face of the base shell (101), a conveying mechanism (103) is rotatably connected inside the placement hole (102), a sliding layer (104) is fixedly connected to the surface of the conveying mechanism (103), the dividing mechanism (2) comprises two supporting blocks (201), and a roller (202) is rotatably connected in the middle of one opposite side of each supporting block (201);

the fixing mechanism (3) comprises four fixing blocks (301), the fixing blocks (301) are fixedly connected with fixing plates (302) near the lower ends of two opposite sides of the fixing blocks (301), the lower end faces of the fixing plates (302) are fixedly connected with first connecting plates (303) near the front and rear ends of the fixing plates, second connecting plates (312) are fixedly arranged near the front and rear ends of the lower end faces of the fixing plates (302), placing clamping holes (307) are formed in the front and rear ends of the upper end faces of the fixing plates (302), telescopic columns (308) are arranged in the four placing clamping holes (307) in a clamping mode, and sliding holes (311) are formed in the middle of the two sides of the upper end faces of the first connecting plates (303).

2. The SMT pick and place machine feed mechanism of claim 1, wherein: the novel automatic feeding device is characterized in that a connecting hole (105) is formed in one side of the rear end of the inside of the base shell (101), a first motor (106) is fixedly connected to the inner bottom surface of the connecting hole (105), and the output end of the first motor (106) is fixedly connected with the conveying mechanism (103).

3. The SMT pick and place machine feed mechanism of claim 2, wherein: the surface of the roller (202) is fixedly connected with a soft layer (203), and two inclined sliding holes (204) are formed in the surface of the soft layer (203).

4. The SMT pick and place machine feed mechanism of claim 1, wherein: the rear side middle part of one supporting block (201) of the rear ends of the two supporting blocks (201) is fixedly connected with a supporting plate (205) near the lower end, the middle part of the upper end surface of the supporting plate (205) is fixedly connected with a second motor (206), and the output end of the second motor (206) penetrates through the supporting block (201) and is fixedly connected with a roller (202).

5. The SMT pick and place machine feed mechanism of claim 1, wherein: two the opposite swash plate (304) of equal fixedly connected with between two of one end of connecting plate (303) and connecting plate (312) No. two, four the lower terminal surface of swash plate (304) is close to two circular fixed orifices (305) have all been seted up to the department in the middle of both sides, eight the inside of circular fixed orifice (305) is all rotated and is connected with ball (306), eight ball (306) surface all is rotated at sliding layer (104) and is connected.

6. The SMT pick and place machine feed mechanism of claim 1, wherein: a plurality of round fixing holes (305) are uniformly formed in the middle of the lower end faces of the first connecting plate (303) and the second connecting plate (312), round balls (306) are rotatably connected to the inside of the round fixing holes (305), and the surfaces of the round balls (306) are rotatably connected to the surface of the sliding layer (104).

7. The SMT pick and place machine feed mechanism of claim 1, wherein: four the surface upper end fixedly connected with fixture block (309) of flexible post (308), four fixture block (309) all with place joint hole (307) joint setting, four the lower terminal surface fixedly connected with square piece (310) of flexible post (308), four square piece (310) all are at sliding connection in sliding hole (311) with flexible post (308).