CN210247195U

CN210247195U - SMT paster automatic feeding mechanism

Info

Publication number: CN210247195U
Application number: CN201920761778.2U
Authority: CN
Inventors: Yongming Sun; 孙永明
Original assignee: Shenzhen Intelligent Automation Equipment Co ltd
Current assignee: Shenzhen Intelligent Automation Equipment Co ltd
Priority date: 2019-05-24
Filing date: 2019-05-24
Publication date: 2020-04-03
Anticipated expiration: 2029-05-24

Abstract

The utility model aims at providing a simple structure, efficient and can realize safely carrying chip's SMT paster automatic feeding mechanism. The utility model discloses a base, locate the magazine at base top, locate the material pushing component of magazine one side and locating the pay-off subassembly of magazine opposite side, seted up on the magazine with the material pushing component looks adaptation push away the material mouth of pipe and with the ejection of compact mouth of pipe of pay-off subassembly looks adaptation, be equipped with locating component on the base, be equipped with on the pay-off subassembly with the flexible line of material pipe looks adaptation and install the ejector pad of flexible line one end. The utility model discloses be applied to chip feeding equipment's technical field.

Description

SMT paster automatic feeding mechanism

Technical Field

The utility model relates to a chip feeding equipment's technical field, in particular to SMT paster automatic feeding mechanism.

Background

SMT is Surface mount Technology (Surface Mounted Technology), an acronym for Surface Mounted Technology, which is one of the most popular techniques and processes in the electronic assembly industry. Surface Mount Technology (SMT) is known as Surface mount or Surface mount technology. The surface-mounted component (SMC/SMD, chip component in Chinese) with no pins or short leads is mounted on the surface of a Printed Circuit Board (PCB) or other substrates, and is soldered and assembled by means of reflow soldering, dip soldering and the like. In the feeding mode for packaging the chip by using the flat square plastic tube, the traditional mode is to adopt a straight vibrator for feeding, so that the structure is complex, the cost is high, and the service performance of some chips can be influenced under high-frequency vibration.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that overcome prior art not enough, provide a simple structure, efficient and can realize safely carrying chip's SMT paster automatic feeding mechanism.

The utility model adopts the technical proposal that: the utility model discloses a base, locate the magazine at base top, locate the material pushing component of magazine one side and locating the pay-off subassembly of magazine opposite side, seted up on the magazine with the material pushing component looks adaptation push away the material mouth of pipe and with the ejection of compact mouth of pipe of pay-off subassembly looks adaptation, be equipped with locating component on the base, be equipped with on the pay-off subassembly with the flexible line of material pipe looks adaptation and install the ejector pad of flexible line one end.

According to the scheme, the material box is internally loaded with the material pipe, and the material pipe is internally loaded with a plurality of chips; the pushing assembly is used for pushing the material pipe to the positioning assembly and pushing the empty material pipe to the material pipe recovery position; the feeding assembly is used for pushing out the chip in the feed pipe; the material pushing component moves, the material pushing component follows the material pushing pipe orifice enters the material box and follows the material pipe the ejection of compact mouth of pipe releases, and final material pipe propelling movement arrives on the locating component, by the locating component will the material pipe is fixed, the last power supply drive of the material feeding component flexible line, the flexible line drives the ejector pad gets into the material intraduct and releases the chip of the material intraduct to accomplish the material loading of chip, so, compared with traditional chip conveying mode, its simple structure to avoid the vibration to cause the condition of damage to the chip, accomplish the material loading of chip more safely, the utility model discloses a chip material loading process is accomplished by equipment is automatic, and its work efficiency is high.

According to a preferred scheme, the base is provided with a fixing block, a limiting block and a photoelectric sensor which are matched with the material box, and the fixing block is provided with a groove matched with the material box.

According to the scheme, the fixing block, the limiting block and the groove are used for fixing the material box, and the photoelectric sensor is used for detecting whether the material pipe is arranged in the material box.

According to a preferable scheme, the material box comprises an inner box body, a rear back plate fixedly mounted on one side of the inner box body and a front panel arranged on the other side of the inner box body and hinged to the rear back plate, a plurality of material pipes are placed on the inner box body, a clamping and locking assembly and a handle are arranged on the inner box body and the front panel, a material pushing pipe orifice is arranged on the rear back plate, and a material discharging pipe orifice is arranged on the front panel.

According to the scheme, due to the arrangement of the handle, a worker can conveniently carry the material box and open the front panel, and the clamping and locking assembly is used for locking the front panel on the inner box body.

According to a preferable scheme, the material pushing assembly comprises a supporting table fixedly arranged on the base, an empty pushing pipe cylinder fixedly arranged on the supporting table, a movable plate which is in sliding fit with the supporting table and is in transmission connection with the empty pushing pipe cylinder, a material pushing pipe cylinder fixedly arranged on the movable plate and a pipe pushing plate in transmission connection with the material pushing pipe cylinder, the pipe pushing plates are matched with the material pushing pipe opening and the material discharging pipe opening, and supporting plates are arranged at two ends of each pipe pushing plate.

According to the scheme, the material pushing pipe cylinder drives the material pushing pipe to move, the material pushing pipe enters the material box from the material pushing pipe opening and pushes the material pipe out of the material discharging pipe opening, the material pipe is finally fixed by the positioning assembly, the feeding assembly finishes pushing out of chips in the material pipe, when no chip is identified in the material pipe on the positioning assembly, the positioning assembly does not position the material pipe, then the empty material pipe cylinder drives the movable plate, the movable plate slides, and the material pushing pipe is driven to push the material pipe continuously, so that the empty material pipe falls to the material pipe recovery position; due to the arrangement of the supporting plate, in the process that the material pipe is pushed out by the material pushing assembly, the supporting plate supports the material pipe in the material box.

According to a preferable scheme, the positioning assembly comprises two positioning cylinders fixedly arranged at two ends of the base respectively and two positioning plates in one-to-one transmission connection with the positioning cylinders, positioning holes matched with the positioning plates are formed in the base, and the positioning plates are matched with the material pipe.

According to the scheme, the positioning cylinder drives the positioning plate to move downwards, the positioning plate conducts guiding positioning through the positioning hole, the positioning plate blocks and fixes the pushed material pipe, when the fact that the chips in the material pipe are pushed out by the feeding assembly is recognized, the positioning cylinder drives the positioning plate to reset, and finally the empty material pipe is pushed by the pushing assembly to fall to a material pipe recovery position.

One preferred scheme is, the pay-off subassembly include the motor, with the drive disk assembly that motor drive is connected and with the return bend of flexible line looks adaptation, drive disk assembly with flexible line cooperatees and sets up, drive disk assembly includes the casing, locates the regulating wheel at casing top, with the briquetting that regulating wheel cooperatees and sets up, sliding fit is in the inside slider of casing, install in interior idler on the slider and with motor drive is connected and with interior idler matched with drive wheel, the drive wheel is installed on the casing, the briquetting with be equipped with a plurality of spring between the casing, flexible line cooperation sets up interior idler with between the drive wheel.

According to the scheme, one end of the flexible wire is wound inside the bent pipe, the other end of the flexible wire penetrates through the space between the transmission wheel and the inner idle wheel, at the moment, the spring is compressed, the spring applies pressure to the pressing block, the pressing block presses downwards to apply pressure to the sliding block, the inner idle wheel on the sliding block is close to the transmission wheel, the inner idle wheel and the transmission wheel apply clamping force to the flexible wire, and the clamping force is adjusted by adjusting the adjusting wheel; the motor rotates to drive the driving wheel on the driving part to rotate, and due to the existence of clamping force, the driving wheel drives the flexible wire, so that the pushing block on the flexible wire enters the material pipe and pushes out the chip.

Preferably, the motor is in transmission connection with the transmission wheel through a synchronous belt assembly, and an outer idle wheel is arranged on one side of the synchronous belt assembly.

According to the scheme, the outer idler wheel is arranged to adjust the tension of the synchronous belt on the synchronous belt assembly.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

fig. 2 is a schematic structural view from another angle of the present invention;

FIG. 3 is a schematic structural view of the cartridge;

FIG. 4 is a schematic view of the cartridge;

FIG. 5 is a schematic view of the pusher assembly;

FIG. 6 is a schematic structural view of the feed assembly;

FIG. 7 is a schematic view of another angle of the feed assembly;

FIG. 8 is a schematic structural view of the transmission member;

fig. 9 is a sectional view of the transmission member.

Detailed Description

As shown in fig. 1 to 9, in this embodiment, the utility model discloses a base 1, locate the magazine 2 at base 1 top, locate push away material subassembly 3 and locate of magazine 2 one side the feeding subassembly 4 of magazine 2 opposite side, seted up on magazine 2 with push away the material mouth of pipe 21 that pushes away material subassembly 3 looks adaptation and with the ejection of compact mouth of pipe 22 of feeding subassembly 4 looks adaptation, be equipped with locating component 5 on the base 1, be equipped with on the feeding subassembly 4 with the flexible line 41 of material pipe 28 looks adaptation and install the ejector pad 42 of flexible line 41 one end, in this design, the one end of material pipe play chip is equipped with the play chip piece 15 with material pipe 28 looks adaptation, be equipped with the play chip passageway with chip looks adaptation on going out chip piece 15, the chip follows release in the play chip passageway.

The base 1 is provided with a fixed block 11, a limiting block 12 and a photoelectric sensor 13 which are matched with the material box 2, and the fixed block 11 is provided with a groove 14 matched with the material box 2.

The magazine 2 comprises an inner box body 23, a back plate 24 fixedly mounted on one side of the inner box body 23, and a front panel 25 arranged on the other side of the inner box body 23 and hinged to the back plate 24, wherein a plurality of material pipes are placed on the inner box body 23, a clamping lock assembly 26 and a handle 27 are arranged on the inner box body 23 and the front panel 25, a material pushing pipe orifice 21 is arranged on the back plate 24, and a material discharging pipe orifice 22 is arranged on the front panel 25, and in the design, the clamping lock assembly 26 is an existing clamping lock mechanism.

The material pushing assembly 3 comprises a supporting table 31 fixedly mounted on the base 1, an empty pushing material pipe cylinder 32 fixedly mounted on the supporting table 31, a movable plate 33 in sliding fit on the supporting table 31 and in transmission connection with the empty pushing material pipe cylinder 32, a material pushing pipe cylinder 34 fixedly mounted on the movable plate 33, and a material pushing pipe plate 35 in transmission connection with the material pushing pipe cylinder 34, wherein the material pushing plate 35 is matched with the material pushing pipe opening 21 and the material discharging pipe opening 22, and supporting plates 36 are arranged at two ends of the material pushing plate 35.

The positioning assembly 5 comprises two positioning cylinders 51 fixedly mounted at two ends of the base 1 respectively and two positioning plates 52 in one-to-one transmission connection with the positioning cylinders 51, positioning holes matched with the positioning plates 52 are formed in the base 1, and the positioning plates 52 are matched with the material pipe 28.

The feeding assembly 4 comprises a motor 43, a transmission part in transmission connection with the motor 43, and a bent pipe 44 adapted to the flexible wire 41, the transmission part is matched with the flexible wire 41 and comprises a shell 45, an adjusting wheel 46 arranged at the top of the shell 45, a pressing block 47 matched with the adjusting wheel 46, a sliding block 48 in sliding fit with the inside of the shell 45, an inner idle wheel 49 arranged on the sliding block 48 and a transmission wheel 41a which is in transmission connection with the motor 43 and is matched with the inner idle wheel 49, the transmission wheel 41a is arranged on the shell 45, a plurality of springs 42a are arranged between the pressing block 47 and the shell 45, the flexible wire 41 is fitted between the inner idle wheel 49 and the transmission wheel 41a, which, in this design, the clamping force of the transmission wheel 41a and the inner idle wheel 49 on the flexible wire 41 is adjusted by the adjusting wheel 46.

The motor 43 is in transmission connection with the transmission wheel 41a through a synchronous belt assembly 43a, and an outer idle wheel 44a is arranged on one side of the synchronous belt assembly 43 a.

Claims

1. The utility model provides a SMT paster automatic feeding mechanism which characterized in that: it includes base (1), locates magazine (2) at base (1) top, locate push away material subassembly (3) and locate of magazine (2) one side push away material subassembly (3) and locate the pay-off subassembly (4) of magazine (2) opposite side, seted up on magazine (2) with push away the material mouth of pipe (21) of pushing away material subassembly (3) looks adaptation and with the ejection of compact mouth of pipe (22) of pay-off subassembly (4) looks adaptation, be equipped with locating component (5) on base (1), be equipped with on pay-off subassembly (4) with flexible line (41) of material pipe looks adaptation and install ejector pad (42) of flexible line (41) one end.

2. An SMT patch feeding mechanism as defined in claim 1, wherein: the base (1) is provided with a fixed block (11), a limiting block (12) and a photoelectric sensor (13) which are matched with the material box (2), and the fixed block (11) is provided with a groove (14) matched with the material box (2).

3. An SMT patch feeding mechanism as defined in claim 1, wherein: the material box (2) comprises an inner box body (23), a rear back plate (24) fixedly arranged on one side of the inner box body (23) and a front panel (25) arranged on the other side of the inner box body (23) and hinged with the rear back plate (24), a plurality of material pipes are placed on the inner box body (23), a clamping lock assembly (26) and a handle (27) are arranged on the inner box body (23) and the front panel (25), a material pushing pipe orifice (21) is arranged on the rear back plate (24), and a material discharging pipe orifice (22) is arranged on the front panel (25).

4. An SMT patch feeding mechanism as defined in claim 1, wherein: the material pushing assembly (3) comprises a supporting table (31) fixedly arranged on the base (1), an air pushing pipe cylinder (32) fixedly arranged on the supporting table (31), a movable plate (33) which is in sliding fit with the supporting table (31) and is in transmission connection with the air pushing pipe cylinder (32), a material pushing pipe cylinder (34) fixedly arranged on the movable plate (33) and a pipe pushing plate (35) in transmission connection with the material pushing pipe cylinder (34), wherein the pipe pushing plate (35) is matched with the material pushing pipe opening (21) and the material discharging pipe opening (22), and supporting plates (36) are arranged at two ends of the pipe pushing plate (35).

5. An SMT patch feeding mechanism as defined in claim 1, wherein: the positioning assembly (5) comprises two positioning cylinders (51) fixedly arranged at two ends of the base (1) respectively and two positioning plates (52) in one-to-one transmission connection with the positioning cylinders (51), positioning holes matched with the positioning plates (52) are formed in the base (1), and the positioning plates (52) are matched with the material pipe.

6. An SMT patch feeding mechanism as defined in claim 1, wherein: the feeding component (4) comprises a motor (43), a transmission part in transmission connection with the motor (43) and a bent pipe (44) matched with the flexible wire (41), the transmission part is matched with the flexible wire (41) and comprises a shell (45), an adjusting wheel (46) arranged at the top of the shell (45), a pressing block (47) matched with the adjusting wheel (46), a sliding block (48) in sliding fit with the shell (45), an inner idle wheel (49) arranged on the sliding block (48) and a transmission wheel (41 a) which is in transmission connection with the motor (43) and is matched with the inner idle wheel (49), the transmission wheel (41 a) is arranged on the shell (45), a plurality of springs (42 a) are arranged between the pressing block (47) and the shell (45), the flexible wire (41) is arranged between the inner idle wheel (49) and the transmission wheel (41 a) in a matching way.

7. An SMT patch automatic feeding mechanism according to claim 6, wherein: the motor (43) is in transmission connection with the transmission wheel (41 a) through a synchronous belt component (43 a), and an outer idle wheel (44 a) is arranged on one side of the synchronous belt component (43 a).