CN210298414U - Film absorbing and pasting mechanism of carrier tape receiving device - Google Patents

Abstract

The utility model discloses a film absorbing and pasting mechanism of a carrier tape receiving device, which comprises a fixed plate, an absorbing component, a longitudinal moving component and a driving motor; the adsorption component is connected with the longitudinal moving component, the driving motor is fixedly arranged on the fixing plate, the longitudinal moving component is connected with the driving motor, and the driving motor drives the longitudinal moving component to drive the adsorption component to move up and down; the adsorption component comprises a vacuum suction head. The utility model discloses a carrier band receiving device's membrane subsides installation of inhaling constructs, adsorption component's removal orbit is straight from top to bottom, and for the structure of current U-shaped orbit, the removal action of mechanism is more simple, has reduced the structural component of mechanism simultaneously, has more saved the space moreover, has reduced the cost of manufacture, has reduced the maintenance degree of difficulty. Still further, the utility model discloses an inhale membrane subsides installation and construct can adopt motor direct drive, can guarantee the overdraft and the precision of mechanism, reduced the cost of manufacture.

Description

Film absorbing and pasting mechanism of carrier tape receiving device

Technical Field

The utility model relates to a carrier band treatment facility, it is a carrier band receiving device's confession membrane subsides dress mechanism specifically.

Background

In the SMT chip mounting process, an electronic element in a carrier tape is fed into a chip mounter through a feeder, and the chip mounter sucks the electronic element in the carrier tape to mount, so that a mounted device needs to be fed continuously. Therefore, two or more trays of carrier tapes need to be connected together, so that the mounting process is not stopped and is always operated.

At present, a carrier tape receiving machine is already present in the market, chinese patent document CN107031893A entitled as a SMD carrier tape universal receiving machine, and in this patent document, a structure of a suction film pasting mechanism is disclosed, in which a moving track of the suction film pasting mechanism is U-shaped, in this scheme, a moving distance of an adsorption component of the suction film pasting mechanism is large, an action is complex, a mechanism is inconvenient to maintain, and when the mechanism is driven, a force-increasing mechanism needs to be added to ensure a lower pressure degree, and a manufacturing cost is too high.

SUMMERY OF THE UTILITY MODEL

For solving the technical problem, the utility model discloses a carrier band receiving device's inhale membrane subsides installation and construct, simple structure, the cost of manufacture is low, and maintains the convenience.

The utility model discloses an adopt following scheme to realize:

a film absorbing and pasting mechanism of a carrier tape receiving device is characterized by comprising a fixing plate, an absorbing component, a longitudinal moving component and a driving motor;

the adsorption component is connected with the longitudinal moving component, the driving motor is fixedly arranged on the fixing plate, the longitudinal moving component is connected with the driving motor, and the driving motor drives the longitudinal moving component to drive the adsorption component to move up and down;

the adsorption component comprises a vacuum suction head.

Preferably, still including the adsorption component mounting panel, adsorption component install in on the adsorption component mounting panel, the adsorption component mounting panel with the longitudinal movement subassembly is connected, the driving motor drive the longitudinal movement subassembly drives the adsorption component mounting panel reciprocates.

More preferably, the longitudinal moving assembly comprises a swinging piece, a suction assembly mounting plate and a vertical guide assembly;

the swinging piece is fixedly connected with an output shaft of the motor, and swings or rotates around the output shaft of the driving motor;

the adsorption component mounting plate is provided with a track groove, and the swinging piece moves along the direction of the track groove;

the adsorption component mounting panel with the fixed plate passes through the direction subassembly is connected, when the swing piece swings or rotates, drive the adsorption component mounting panel along vertical direction up-and-down motion.

More preferably, the oscillating member is an eccentric wheel or an oscillating lever.

Preferably, the adsorption component comprises a suction head and a suction head mounting seat, the suction head is fixedly mounted below the suction head mounting seat, the suction head mounting seat is connected with the adsorption component mounting plate, and the suction head mounting seat can slide relatively to the adsorption component.

More preferably, the suction assembly further comprises a suction head sliding plate, the suction head sliding plate is fixedly arranged on the suction assembly mounting plate, the suction head mounting seat is arranged on the suction head sliding plate, and the suction head mounting seat slides up and down on the suction head sliding plate.

More preferably, a spring seat is fixedly arranged on the suction head sliding plate, the spring seat is located above the suction head mounting seat, and a spring is connected between the spring seat and the suction head mounting seat.

More preferably, the adsorption assembly further comprises a lower pressing block or a second suction head, the lower pressing block or the second suction head is fixedly or movably connected with the adsorption assembly mounting plate, the lower end of the lower pressing block or the second suction head is not lower than the lower end of the suction head, and the lower pressing block or the second suction head is located behind the vacuum suction head.

More preferably, the side of the lower pressure block facing away from the suction head is chamfered.

The utility model discloses a carrier band receiving device's membrane subsides installation of inhaling constructs, adsorption component's removal orbit is straight from top to bottom, and for the structure of current U-shaped orbit, the removal action of mechanism is more simple, and the structure is more simple has reduced the structural component of mechanism, has more saved the space moreover, and the structure is comparatively simple, and the cost of manufacture is low, has reduced and has maintained the degree of difficulty.

Still further, the utility model discloses an inhale membrane subsides installation and construct can adopt motor direct drive, can guarantee the holding down force of mechanism, reduced the cost of manufacture.

Drawings

Fig. 1 is a schematic structural view of a film absorbing and pasting mechanism of a carrier tape receiving device of the embodiment of the present invention

Fig. 2 is a schematic view of the decomposition structure of the film-sucking and surface-mounting structure of the carrier tape receiving device of the embodiment of the present invention

Fig. 3a left side view of a film absorbing and pasting mechanism of a carrier tape receiving device

In the figure, 1 is a fixing plate, 2 is a suction assembly, 21 is a vacuum suction head, 22 is a suction head mounting seat, 23 is a suction head sliding plate, 24 is a sliding rail, 25 is a sliding block, 26 is a spring seat, 27 is a spring, 28 is a limiting assembly, 281 is a first limiting block, 282 is a second limiting block, 29 is a lower pressing block, 3 is a suction assembly mounting plate, 31 is a track groove, 32 is a backing plate, 4 is a longitudinal moving assembly, 41 is a swinging rod, 42 is a roller, 43 is a sliding rail, 44 is a sliding,

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1 and 2, the present invention relates to a suction film pasting mechanism, which is applied to a carrier tape receiving device. The film absorbing and mounting mechanism comprises a fixing plate 1, an adsorption component 2, an adsorption component mounting plate 3, a longitudinal moving component 4 and a driving motor 5. Wherein, adsorption component 2 installs on adsorption component mounting panel 3, and adsorption component 2 is including vacuum suction head 21, and adsorption component mounting panel 3 is connected with longitudinal movement subassembly 4, and driving motor 5 drive longitudinal movement subassembly 4 to drive adsorption component mounting panel 3 and adsorption component 2 and reciprocate for fixed plate 1. In the scheme, the movement track of the adsorption component is vertical up-and-down movement, and the movement of the adsorption component is simpler than that of the existing film adsorption and mounting mechanism.

Specifically, in this embodiment, the longitudinal moving assembly 4 includes a swing rod 41 and a vertical guiding assembly, wherein one end of the swing rod 41 is fixedly connected to an output shaft of the driving motor 5, the driving motor 5 rotates by a certain angle to drive the other end of the swing rod 41 to swing around the fixed end, the other end of the swing rod 41 is connected to a roller 42, the roller 42 is located in a track groove 31 formed in the adsorption assembly mounting plate 3, and when the swing rod 41 swings, the roller 42 can move left and right in the track groove 31. Further, backing plates 32 are fixedly mounted on the upper and lower sides of the track groove, respectively.

The direction subassembly, to the direction of adsorption component mounting panel 3 in vertical direction, wherein, in this embodiment, the direction subassembly includes slide rail 43 and slider 44, and slide rail 43 fixed mounting is on fixed plate 1, slider 44 and adsorption component mounting panel 3 fixed connection, and slider 44 can reciprocate on slide rail 43. When the driving motor 5 drives the swing lever 42 to swing, the arc-shaped swing track of the swing lever 41 is decomposed into the vertical up-and-down movement of the adsorption component mounting plate 3 and the movement of the roller 42 in the track groove 31 in the track groove direction due to the guiding action of the track groove 31 and the slide rail 43. Compared with the structure of the U-shaped track groove, the structure has the advantages that the movement of the adsorption assembly is simpler, the downward pressure of the mechanism can be ensured by directly driving the adsorption assembly by the motor in the scheme, and the manufacturing cost is reduced.

In some embodiments, the swing rod can be replaced by an eccentric wheel or other eccentric connecting piece or swing piece which swings or rotates eccentrically, and the mechanism which can generate eccentric motion to drive the adsorption assembly mounting plate to move up and down is the equivalent of the embodiment.

In some embodiments, the guiding assembly is not limited to the connection manner of the sliding rail and the sliding block, and other guiding structures can be regarded as equivalents of the guiding assembly in the present scheme.

In other embodiments, the longitudinal moving assembly is not limited to be driven by an eccentric motion, but may also be driven by a rack or a screw, and the like, and all of the embodiments of the present invention belong to the inventive concept of the present invention.

Wherein, absorption subassembly 2 includes vacuum suction head 21, suction head mount pad 22, suction head slide 23, and vacuum suction head 21 fixed mounting is in the below of suction head mount pad 22, and suction head slide 23 is fixed to be set up on absorption subassembly mounting panel 3, and suction head mount pad 22 sets up on suction head slide 23, and suction head mount pad 22 and suction head slide 23 slidable relatively. In this scheme, when the swing rod 41 drives the adsorption component mounting plate 3 and the adsorption component 2 to move downward, when the suction head of the adsorption component moves to the carrying position, the suction head cannot move downward any more, and the suction head mounting seat 22 and the suction head sliding plate 23 generate relative movement, so that the damage of the mechanism caused by the rigid connection between the adsorption component 2 and the adsorption component mounting plate 3 can be avoided. Specifically, in the present embodiment, the nozzle slide plate 23 is provided with a slide rail 24 in a vertical direction, and the nozzle mounting base is fixedly connected with a slide block 25, which can drive the nozzle mounting base 22 and the vacuum nozzle 21 to move up and down along the slide rail.

Further, in the present embodiment, a spring seat 26 is provided on the tip slide plate 23, the spring seat 26 is provided above the tip mounting seat 22, and a spring 27 is connected between the spring seat 26 and the tip mounting seat 22. Specifically, holes are formed in the upper ends of the spring seat and the suction head mounting seat, and the two ends of the spring are respectively plugged into the holes of the spring seat and the holes of the suction head mounting seat. In the scheme, when the longitudinal moving component 4 drives the adsorption component mounting plate 3 and the adsorption component 2 to move downwards and the lower end of the vacuum suction head 21 reaches the carrier tape, the longitudinal moving component 4 drives the adsorption component mounting plate 3 to move downwards continuously, and the spring 27 connected between the spring seat 26 and the suction head mounting seat 22 generates downward flexible pressure on the suction head mounting seat and the suction head, so that the suction head presses the membrane and the carrier tape at the same time, and the membrane is only adhered to the carrier tape.

Still further, in this embodiment, the adsorption assembly 2 further includes a limiting assembly, specifically, the limiting assembly 28 includes a first limiting block 281 and a second limiting block 282, wherein the first limiting block 281 is fixedly connected to the suction head installation seat 22, the second limiting block 282 is fixedly connected to the adsorption assembly installation plate 3 and the suction head sliding plate 23, the first limiting block 281 is higher than the second limiting block 282, and the second limiting block 282 supports the first limiting block 281 to limit the suction head installation seat 22 and the vacuum suction head 21.

In the embodiment, the suction assembly 2 further includes a lower pressing block 29, the lower pressing block 29 is fixedly disposed on the suction head sliding plate 23, a lower end of the lower pressing block 29 is not lower than a lower end of the suction head, specifically, the lower end of the lower pressing block 29 may be flush with the lower end of the vacuum suction head 21, or the lower end of the lower pressing block 29 is slightly higher than the lower end of the suction head, and the lower pressing block 29 is located behind the vacuum suction head 21. In the material receiving process of the carrier tape receiving device, the carrier tape needs to be coated after being coated with a film, when the longitudinal moving assembly drives the suction head mounting plate 3 to move downwards, and when the suction head compresses the film and the carrier tape, the lower pressing block 28 continues to move downwards along the edge of the carrier tape at the same time, so that the film is bent, and the film can be adhered to the lower surface of the carrier tape in the subsequent process. Still further, the side of the lower pressure block 29 facing away from the vacuum cleaner head 21 is chamfered.

In another embodiment, the lower pressure block may be arranged to move relative to the tip sled in a manner comparable to that of a vacuum tip.

In other embodiments, the lower pressure block may be replaced by a second suction head, the second suction head may be fixedly or movably connected to the suction head slide plate, the lower end of the second suction head is not lower than the lower end of the vacuum suction head, the second suction head is located behind the vacuum suction head, and the connection mode of the second suction head to the suction head slide plate may refer to the connection mode of the vacuum suction head to the suction head slide plate.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention should be covered by the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (9)

1. A film absorbing and pasting mechanism of a carrier tape receiving device is characterized by comprising a fixing plate, an absorbing component, a longitudinal moving component and a driving motor;

the adsorption component is connected with the longitudinal moving component, the driving motor is fixedly arranged on the fixing plate, the longitudinal moving component is connected with the driving motor, and the driving motor drives the longitudinal moving component to drive the adsorption component to move up and down;

the adsorption component comprises a vacuum suction head.

2. The film absorbing and pasting mechanism for the carrier tape receiving device according to claim 1, further comprising an absorbing component mounting plate, wherein the absorbing component is mounted on the absorbing component mounting plate, the absorbing component mounting plate is connected with the longitudinal moving component, and the driving motor drives the longitudinal moving component to drive the absorbing component mounting plate to move up and down.

3. The film suction and mounting mechanism for the carrier tape receiving device according to claim 2, wherein the longitudinal movement assembly comprises a swinging member, a suction assembly mounting plate, and a vertical guide assembly;

the swinging piece is fixedly connected with an output shaft of the motor, and swings or rotates around the output shaft of the driving motor;

the adsorption component mounting plate is provided with a track groove, and the swinging piece moves along the direction of the track groove;

the adsorption component mounting panel with the fixed plate passes through the direction subassembly is connected, when the swing piece swings or rotates, drive the adsorption component mounting panel along vertical direction up-and-down motion.

4. The film absorbing and pasting mechanism for the carrier tape receiving device according to claim 3, wherein the swinging member is an eccentric wheel or a swinging rod.

5. The film sucking and pasting mechanism for the carrying and receiving device according to any one of claims 1 to 4, wherein the sucking component comprises a vacuum sucking head and a sucking head mounting seat, the vacuum sucking head is fixedly mounted below the sucking head mounting seat, the sucking head mounting seat is connected with the sucking component mounting plate, and the sucking head mounting seat and the sucking component can slide relatively.

6. The film sucking and pasting mechanism with the material receiving device according to claim 5, wherein the sucking component further comprises a sucking head sliding plate, the sucking head sliding plate is fixedly arranged on the sucking component mounting plate, the sucking head mounting seat is arranged on the sucking head sliding plate, and the sucking head mounting seat and the sucking head sliding plate can slide relatively.

7. The film sucking and pasting mechanism with the material receiving device according to claim 6, wherein a spring seat is fixedly arranged on the suction head sliding plate and is located above the suction head mounting seat, and a spring is connected between the spring seat and the suction head mounting seat.

8. The film sucking and pasting mechanism with the material receiving device according to claim 5, wherein the adsorption assembly further comprises a lower pressing block or a second suction head, the lower pressing block or the second suction head is fixedly or movably connected with the adsorption assembly mounting plate, the lower end of the lower pressing block or the second suction head is not lower than the lower end of the vacuum suction head, and the lower pressing block is located behind the vacuum suction head.

9. The film suction and sticking mechanism with the material receiving device according to claim 8, wherein a side of the lower pressing block facing away from the suction head is provided with a chamfer.

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