CN210671191U - Locking structure of chip mounter feeder - Google Patents

Abstract

The utility model discloses a locking structure of chip mounter feeder, through be provided with the side link on the feeder organism, first connecting rod, the second connecting rod, the spacer pin, the fixation clamp realizes that the locking of fixation clamp changes the attitude and the open mode, set up the spout according to the side link on, set up the spacer pin on the feeder organism, thereby the spout slides through the spacer pin and drives first connecting rod and drive the motion of second connecting rod, fix the fixation clamp also motion along with on the second connecting rod, consequently, the fixation clamp can press from both sides tightly and loosen the chip mounter, this structure can manually regulated, and the simple structure of this locking structure, and convenient operation, it is more convenient to use, simultaneously to pressing from both sides the heavy protection of feeder when pressing from both sides tight chip mounter.

Description

Locking structure of chip mounter feeder

Technical Field

The utility model relates to a chip mounter field especially relates to a locking structure of chip mounter feeder.

Background

Feeder among the prior art need press from both sides on the chip mounter, and the device structure setting of the fixed clamp chip mounter on the feeder is complicated, and most of can not manually be adjusted, the feeder unstable phenomenon of fixing easily, the feeder drops easily takes place, influences the production of mill.

SUMMERY OF THE UTILITY MODEL

The utility model discloses aim at solving the above-mentioned clamping device on the feeder fixed unstable problem on the chip mounter, provide a locking structure of chip mounter feeder.

The utility model discloses a realize through following technical scheme:

a locking structure of a chip mounter feeder comprises a connecting rod structure, a sliding groove, a fixing clamp and a limiting pin, wherein the connecting rod structure can slide left and right, the limiting pin is arranged on a feeder body and penetrates through the sliding groove, the sliding groove can be limited when the sliding groove rotates, the fixing clamp is arranged on the connecting rod structure, the connecting rod structure rotates, the connecting rod structure comprises a connecting rod, a first connecting rod and a second connecting rod, one end of the connecting rod is hinged to the feeder body, the middle end of the connecting rod is hinged to the first connecting rod, and the other end of the connecting rod is used for pushing the connecting rod; one end of the second connecting rod is hinged with the first connecting rod, the hinged position is far away from the hinged position of the side link and the first connecting rod, and the other end of the second connecting rod is hinged on the feeder body; the sliding groove is arranged on the side link and is transversely arranged; the fixing clamp is arranged on the second connecting rod, the connecting rod structure can drive the fixing clamp to move upwards, the fixing clamp can be matched with other appliances to clamp the other appliances, the feeder body can be fixed on the appliances, the connecting rod structure can drive the fixing clamp to move downwards, and the feeder body can be taken down from the appliances.

Preferably, the side link extends out of a connecting rod and is connected with the first connecting rod in a hinged mode.

Preferably, the sliding groove is an arc sliding groove.

Preferably, the rod part of the second connecting rod is arranged in an arc shape, the hinged end of the second connecting rod and the feeder body is arranged in a fan shape, the arc boundary of the fan-shaped arrangement part of the second connecting rod is the bottom boundary of the second connecting rod, and when the second connecting rod rotates towards the side link, the fan-shaped arrangement part of the second connecting rod drives the fixing clamp to move upwards.

Preferably, the fixing clamp is provided with a protrusion, and when the fixing clamp clamps other appliances to fix the feeder body, the protrusion is matched with the corresponding concave part on the other appliances.

The beneficial effects are that: compared with the prior art, the utility model discloses a locking structure of chip mounter feeder is through combining fixation clamp and locking structure, is that the fixation clamp has to open and press from both sides tight effect to the corresponding position on the chip mounter through the locking structure to can manual regulation, the simple structure of this locking structure, convenient operation, it is more convenient to use.

Drawings

The following detailed description of embodiments of the invention is provided in conjunction with the accompanying drawings, in which:

FIG. 1 is a schematic view of a feeder;

FIG. 2 is a schematic view of the locking mechanism when it is open;

fig. 3 is a schematic structural diagram when the locking structure is locked.

Detailed Description

As shown in fig. 1-3, a locking structure of a feeder of a chip mounter includes a link structure, a sliding groove 21, a fixing clamp 41, and a limit pin 5, where the link structure can slide left and right, the feeder body 1 is provided with the limit pin 5, the limit pin 5 is fixed on the feeder body, the limit pin 5 passes through the sliding groove 21, and can limit the sliding groove 21 when the sliding groove 21 rotates, the fixing clamp 41 is arranged on the link structure, the link structure rotates, the link structure includes a link rod 2, a first link rod 3, and a second link rod 4, one end of the link rod 2 is hinged on the feeder body 1, the middle end of the link rod 2 is hinged with the first link rod 3, and the other end is used for pushing the link rod 2; one end of a second connecting rod 4 is hinged with the first connecting rod 3, the hinged position is far away from the hinged position of the side link 2 and the first connecting rod 3, and the other end of the second connecting rod 4 is hinged on the feeder body 1; the sliding chute 21 is arranged on the side link 2 and is transversely arranged; the fixing clamp 41 is arranged on the second connecting rod 4, the connecting rod structure can drive the fixing clamp 41 to move upwards, the fixing clamp 41 can be matched with other appliances to clamp other appliances, the feeder body 1 can be fixed on the appliances, the connecting rod structure can drive the fixing clamp 41 to move downwards, and the feeder body 1 can be taken down from the appliances.

When the feeder needs to be clamped on the chip mounter, the side link 2 is pushed towards the direction a, the transverse sliding groove 21 arranged on the side link 2 also moves towards the direction a, when the side link 2 does not move any more under the action of force, the limiting pin 5 is clamped at one end, far away from the direction a, of the sliding groove 21 at the moment, the limiting sliding groove 21 continues to move towards the direction a, and therefore the side link 2 cannot continue to move towards the direction a under the action of force. After the side link 2 is pushed towards the direction a, the hinged ends of the first connecting rod 3 and the side link 2 rotate towards the direction a and move downwards for a certain distance, and the hinged ends of the first connecting rod 3 and the second connecting rod 4 rotate towards the direction of the first connecting rod 3 to be close to each other and move downwards for a proper distance; because the rod part 42 of the second connecting rod 4 is arranged in an arc shape, the concave surface of the rod part 42 arranged in the arc shape faces the bottom of the feeder, the hinged end of the second connecting rod 4 and the feeder body 1 is arranged in a fan shape, the arc boundary of the fan-shaped arrangement part of the second connecting rod 4 is the bottom boundary of the second connecting rod 4, and when the second connecting rod 4 rotates towards the side link 2, the fan-shaped arrangement part of the second connecting rod 4 drives the fixing clamp 41 to move upwards; therefore, after the hinged ends of the first connecting rod 3 and the second connecting rod 4 are closed towards the direction of the first connecting rod 3, the hinged position of the second connecting rod 4 and the first connecting rod 3 rotates towards the direction b, the bottom of the second connecting rod 4 is provided with a sector-shaped setting part, a sector-shaped convex surface faces towards the bottom, the fixing clamp 41 is fixed at one end of the sector-shaped part 43 away from the connecting rod 2, the sector-shaped part 43 is hinged with the feeder body 1, when the hinged position of the second connecting rod 4 and the first connecting rod 3 rotates, the sector-shaped part 43 also conducts automatically, the rotating direction is also the direction b, so that the fixing clamp 41 is driven to move upwards, a part matched with the fixing clamp 41 is arranged on the chip mounter, a protrusion 411 is arranged on the fixing clamp 41, and when the fixing clamp 41 clamps other devices to fix the feeder body 1, the protrusion 411 is matched with. The protrusion 411 is clamped into the concave portion, the fixing clamp 41 may be an iron block with a trapezoidal section, the long side of the iron block is a clamping surface, the protrusion 411 is arranged on the clamping surface, after the protrusion 411 is clamped into the concave portion of the chip mounter, the clamping surface clamps the part of the chip mounter where the feeder is placed together with the bottom of the feeder, in order to ensure that the feeder can be fixed on the chip mounter, other fixing structures are further provided on the feeder, for example, a magnet is arranged at the front end of the feeder, a magnet matched with the magnet is arranged at the corresponding position of the chip mounter, and the magnet attract each other and have a fixing effect on the feeder; the locking structure of this design sets up in the middle part of feeder organism 1, and on the chip mounter can be placed to the front portion of feeder, there is the chip mounter support.

When the feeder needs to be taken down from the chip mounter, the side link 2 is pushed to move towards the direction opposite to the direction a, the sliding groove 21 also moves towards the direction opposite to the direction a, due to the limitation of the limiting pin 5, the sliding groove 21 slides towards the direction opposite to the direction a through the limiting pin 5 and then is clamped at the other end of the sliding groove 21, the end part is on the same side with the direction a, and at the moment, the side link 2 cannot move any more under the condition of stress; meanwhile, the first link 3 rotates upwards to drive the rod 42 of the second link 4 to rotate upwards, and the sector 43 of the second link 4 rotates in the opposite direction of b for a certain angle, so that the fixing clamp 41 fixed with the sector 43 moves downwards, the protrusion 411 on the fixing clamp 41 also moves downwards, and the fixing clamp 41 loosens the part which is engaged and fixed on the chip mounter.

The side link 2 extends out of a connecting rod 22, the connecting rod is hinged with the first connecting rod 3, the connecting rod 22 is arranged to provide a rotating space for the first connecting rod 3, and the first connecting rod 3 cannot be limited by the side link 2 when rotating and touches the side link 2.

The sliding groove 21 is an arc-shaped sliding groove 21, the sliding groove 21 moves when the arc-shaped sliding groove 21 slides, the limiting pin 5 does not move, and the sliding track of the sliding groove 21 is also arc-shaped under the limitation of the limiting pin 5 according to the arc-shaped design of the sliding groove 21; when the sliding chute 21 slides in the same direction as a, the first connecting rod 3 connected with the side link 2 presses down the rod part 42 of the second connecting rod 4, so that the fixing clamp 41 moves upwards to be engaged with a corresponding structure on the chip mounter, and the feeder is fastened and fixed; when the slide slot 21 slides in the direction opposite to the direction a, the fixing clip 41 is influenced to move downwards and is not engaged with the chip mounter due to the arc design of the effect of the first connecting rod 3 on the rod part 42 of the second connecting rod 4 and the lifting effect.

The above embodiments are not limited to the technical solutions of the embodiments themselves, and the embodiments may be combined with each other into a new embodiment. The above embodiments are only used for illustrating the technical solutions of the present invention and are not limited thereto, and any modification or equivalent replacement that does not depart from the spirit and scope of the present invention should be covered by the scope of the technical solutions of the present invention.

Claims (5)

1. A locking structure of a chip mounter feeder is characterized by comprising a connecting rod structure, a sliding groove (21), a fixing clamp (41) and a limiting pin (5), wherein the connecting rod structure can slide left and right, the limiting pin (5) is arranged on a feeder body (1), the limiting pin (5) penetrates through the sliding groove (21), the sliding groove (21) can be limited when the sliding groove (21) rotates, the fixing clamp (41) is arranged on the connecting rod structure, and the connecting rod structure rotates;

the connecting rod structure comprises a side link (2), a first connecting rod (3) and a second connecting rod (4), one end of the side link (2) is hinged to the feeder body (1), the middle end of the side link (2) is hinged to the first connecting rod (3), and the other end of the side link (2) is used for pushing the side link; one end of the second connecting rod (4) is hinged with the first connecting rod (3), the hinged position is far away from the hinged position of the side link (2) and the first connecting rod (3), and the other end of the second connecting rod (4) is hinged on the feeder body (1);

the sliding chute (21) is arranged on the side link (2) and is transversely arranged;

the fixing clamp (41) is arranged on the second connecting rod (4), the connecting rod structure can drive the fixing clamp (41) to move upwards, the fixing clamp (41) can be matched with other appliances to clamp other appliances, the feeder body (1) can be fixed on the appliances, the connecting rod structure can also drive the fixing clamp (41) to move downwards, and the feeder body (1) can be taken down from the appliances.

2. The locking structure of the feeder of the chip mounter according to claim 1, wherein the link rod (2) extends out of a link rod (22) connected to be hinged with the first link rod (3).

3. The locking structure of the chip mounter feeder according to claim 1, wherein said slide groove (21) is an arc-shaped slide groove (21).

4. The locking structure of the feeder of the chip mounter according to claim 1, wherein the rod portion (42) of the second link (4) is arranged in an arc shape, the hinged end of the second link (4) and the feeder body (1) is arranged in a fan shape, the arc-shaped boundary of the fan-shaped arrangement portion of the second link (4) is the bottom boundary of the second link (4), and when the second link (4) rotates towards the link (2), the fan-shaped arrangement portion of the second link (4) drives the fixing clip (41) to move upwards.

5. The locking structure of the feeder of the chip mounter according to claim 1, wherein the fixing clip (41) is provided with a protrusion (411), and when the fixing clip (41) clamps the feeder body (1) fixed by other appliances, the protrusion (411) is engaged with a corresponding recess on the other appliances.

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