CN202815369U - Repair-type bonding press - Google Patents

Abstract

A repair-type bonding press comprises a bonding press body, an alignment and rotation mechanism disposed on a bottom plate of the bonding press body, and a control system. The control system repairs an IC (integrated circuit) to be repaired at one edge of a returned part located on the alignment and rotation mechanism, and then controls the alignment and rotation mechanism to turn the returned part at an angle for the repair of an IC at a next edge with no need of detaching and re-mounting the returned part on the alignment and rotation mechanism. An operating stage of the repair-type bonding press has the function of rotating. When multiple edges of an LCD (liquid crystal display) need to be repaired, the position of the LCD is adjusted by rotating the operating stage with no need of re-clamping the LCD. Therefore, time is saved and repair efficiency is high.

Description

Reprocess this press of formula

Technical field

The utility model relates to a kind of press, especially reprocesses this press of formula.

Background technology

This press in the market has multiple, such as patent documentation CN201440189U multi-section FOG hot press, this press comprises platform and four individual organizational: the LCD microscope carrier, precompressed mechanism, left press mechanism, right press mechanism, four mechanisms are installed on the platform of supporting component, mobile platform and precompressed mechanism are in the centre position of multi-section FOG hot press, right press mechanism is in the right end position of left press mechanism of multistage and right press mechanism hot press, such press pressure is even, controlled, the pressing reliable in quality, but Shortcomings part: the work microscope carrier of such attaching mechanism does not possess spinfunction, when the LCD(LCDs) during the more than place, position that need to reprocess, can only repair first wherein one side of LCD, unload LCD after having repaired, adjusting the LCD position lays equal stress on behind the new clamping, could process in addition on one side, because the again clamping of LCD has spent the plenty of time, so the sticking machine of this type reparation working (machining) efficiency is not high.

The utility model content

The purpose of this utility model is to provide and can on same repairing machine, realize this press of the formula of reprocessing that keeps in repair by the IC of the different edge of repair piece, diverse location to society.

The technical solution of the utility model is: a kind of this press of formula of reprocessing is provided, comprise this press main body, be arranged at contraposition and rotating mechanism and control system on the base plate of described press main body, the instruction that described control system pre-enters according to the operator, after will being positioned at the IC maintenance that certain need on one side by repair piece on contraposition and the rotating mechanism reprocess, control again contraposition and rotating mechanism repair piece is rotated an angle, carry out the IC maintenance on lower one side, and need not and to be pulled down refitting by repair piece from contraposition and rotating mechanism.

Described contraposition and rotating mechanism comprise the work microscope carrier, described work microscope carrier is connected with the first synchronizing wheel, described the first synchronizing wheel is connected by Timing Belt with the second synchronizing wheel, described the second synchronizing wheel is connected with the first servomotor, described the first servomotor is fixedly connected with the first bearing, described work microscope carrier is located on described the first bearing and with described the first bearing and is flexible connection, described the first bearing is located on the second bearing and with described the second bearing and is flexible connection, described the second bearing is located on the 3rd bearing and with described the 3rd bearing and is flexibly connected by the Y linear guides, and described the 3rd bearing and described base plate are flexibly connected by the x-ray guide rail.

As to improvement of the present utility model, described contraposition and rotating mechanism also comprise elevating mechanism, described elevating mechanism comprises the bearing seat linear guides that is arranged on described the second bearing, Z axis screw mandrel supporting seat, the second servomotor, the Z axis screw mandrel, with described bearing seat the linear guides bearing seat that is flexibly connected and the friction block that is arranged on described the first bearing, described the second servomotor is connected by the first shaft joint with described Z axis screw mandrel, described Z axis screw mandrel supporting seat is enclosed within on the described Z axis screw mandrel, described Z axis screw mandrel and described bearing seat are flexibly connected by screw pair, and the bearing that is arranged on the described bearing seat contacts with the inclined-plane of described friction block.

As to improvement of the present utility model, described friction block has two.

As to improvement of the present utility model, described the 3rd bearing is provided with the 3rd servomotor, Y-axis screw mandrel and at least two s' Y-axis screw mandrel supporting seat, described the 3rd servomotor is connected by the second shaft joint with described Y-axis screw mandrel, described Y-axis screw mandrel supporting seat is enclosed within on the described Y-axis screw mandrel, and described Y-axis screw mandrel and described the second bearing are flexibly connected by screw pair.

As to improvement of the present utility model, described base plate is provided with the 4th servomotor, X-axis screw mandrel and at least two s' X-axis screw mandrel supporting seat, described the 4th servomotor is connected by the 3rd shaft joint with described X-axis screw mandrel, described X-axis screw mandrel supporting seat is enclosed within on the described X-axis screw mandrel, and described X-axis screw mandrel and described the 3rd bearing are flexibly connected by screw pair.

As to improvement of the present utility model, described press main body comprises support, is provided with the press structure perpendicular to the middle part on the plate face of the close contraposition of the panel of base plate and rotating mechanism on the described support.

As to improvement of the present utility model, also be provided with volume glue section dress on the described panel.

The microscope carrier of working described in the utility model is connected with described the first synchronizing wheel, described the first synchronizing wheel is connected by Timing Belt with the second synchronizing wheel, described the second synchronizing wheel is connected with the first servomotor, described the first servomotor is fixedly connected with the first bearing, described the first servomotor rotates by above-mentioned syndeton driving work microscope carrier, so just so that described work microscope carrier has just had spinfunction, when running into the LCD(LCDs) when having plurality of positions to repair, thereby can adjust by rotating described work microscope carrier the position of described LCD, need not dismantle LCD, again clamping LCD has improved the working (machining) efficiency of reprocessing greatly.

Description of drawings

Fig. 1 is the perspective view of a kind of embodiment of the present utility model;

Fig. 2 is contraposition embodiment illustrated in fig. 1 and the perspective view of rotating mechanism;

Fig. 3 is the structural representation of facing of contraposition embodiment illustrated in fig. 1 and rotating mechanism;

Fig. 4 is contraposition embodiment illustrated in fig. 1 and the plan structure synoptic diagram of rotating mechanism;

Fig. 5 is contraposition embodiment illustrated in fig. 1 and the left TV structure synoptic diagram of rotating mechanism;

Fig. 6 is contraposition embodiment illustrated in fig. 1 and the perspective view of the elevating mechanism in the rotating mechanism;

Fig. 7 is the perspective view of the press structure on this press main body embodiment illustrated in fig. 1;

Fig. 8 is the perspective view of volume glue section dress on this press main body embodiment illustrated in fig. 1.

Embodiment

See also Fig. 1 to Fig. 5, what Fig. 1 to Fig. 5 disclosed is a kind of this press of formula of reprocessing, comprise this press main body 1, be arranged at contraposition and rotating mechanism 3 and control system on the base plate 2 of described press main body 1, the instruction that described control system pre-enters according to the operator, after will being positioned at the IC maintenance that certain need on one side by repair piece on contraposition and the rotating mechanism 3 reprocess, control again contraposition and rotating mechanism 3 rotates an angle with repair piece, carry out the IC maintenance on lower one side, and need not and to be pulled down refitting by repair piece from contraposition and rotating mechanism 3.

In the present embodiment, described contraposition and rotating mechanism 3 comprise work microscope carrier 31, described work microscope carrier 31 is connected with the first synchronizing wheel 32, described the first synchronizing wheel (32) is connected by Timing Belt 34 with the second synchronizing wheel 33, described the second synchronizing wheel (33) is connected with the first servomotor 35, described the first servomotor 35 is fixedly connected with the first bearing 36, described work microscope carrier 31 is located on described the first bearing 36 and with described the first bearing 36 and is flexible connection, described the first bearing 36 is located on the second bearing 40 and with described the second bearing 40 and is flexible connection, described the second bearing 40 is located on the 3rd bearing 50 and with described the 3rd bearing 50 and is flexibly connected by Y linear guides 51, and described the 3rd bearing 50 is flexibly connected by x-ray guide rail 52 with described base plate 2.

As shown in Figure 3, in the present embodiment, described the first servomotor 35 drives described work microscope carrier 31 by described the first synchronizing wheel 32, described Timing Belt 34 and described the second synchronizing wheel 33 and rotates, be specially: described the first servomotor 35 drives described the first synchronizing wheel 32 and rotates, described the first synchronizing wheel 32 drives described the second synchronizing wheel 33 by described Timing Belt 34 and rotates, described the second synchronizing wheel 33 further drives described work microscope carrier 31 and rotates, and the rotation direction of described work microscope carrier 31 depends on the rotation direction of described the first servomotor 35.So, just can realize control to 31 rotations of described work microscope carrier by controlling described the first servomotor 35.The work microscope carrier of existing press does not possess spinfunction at present, on LCD that needs are reprocessed screen (LCDs), need more than one side, limit of reprocessing, and when being in different directions, finish in the time of to carry out the reclamation work on other limit after the reprocessing on one side, often need the LCD screen is unloaded, adjust behind the position of LCD screen more again clamping and just can proceed reclamation work, so just wasted the plenty of time, and the utility model, when the LCD screen that needs are reprocessed is reprocessed, can be directly by described work microscope carrier 31 rotations of described the first servomotor of control 35 controls, thereby adjust the position of LCD screen, avoided dismounting LCD screen and the again work of clamping, saved the plenty of time, be greatly improved so that reprocess efficient.

As shown in Figure 6, described contraposition and rotating mechanism 3 also comprise elevating mechanism 4, described elevating mechanism 4 comprises the bearing seat linear guides 41 that is arranged on described the second bearing 40, Z axis screw mandrel supporting seat 42, the second servomotor 43, Z axis screw mandrel 44, with described bearing seat linear guides 41 bearing seat 45 that is flexibly connected and the friction block 46 that is arranged on described the first bearing 36, described the second servomotor 43 is connected by the first shaft joint 47 with described Z axis screw mandrel 44, described Z axis screw mandrel supporting seat 42 is enclosed within on the described Z axis screw mandrel 44, described Z axis screw mandrel 44 is flexibly connected by screw pair with described bearing seat 45, the bearing 48 that is arranged on the described bearing seat 45 contacts with the inclined-plane 461 of described friction block 46, and friction block described in the present embodiment 46 has two.During use, described the second servomotor 43 drives described Z axis screw mandrel 44 by described the first shaft joint 47 and rotates, described Z axis screw mandrel 44 drives described bearing seat 45 by screw pair and slides along described bearing seat linear guides 41, the glide direction of described bearing seat 45 depends on the rotation direction of described the second servomotor 43,461 rollings along the inclined-plane of described bearing 48 on bearing seat 45 described in the process that described bearing seat 45 slides, thereby promote 36 risings of described the first bearing or guide described the first bearing 36 to descend, because described work microscope carrier 31 is located on described the first bearing 36, so described work microscope carrier 31 also and then rises or under rise, so, by controlling the control that just can realize the lifting of described work microscope carrier 31 that turns to of described the second servomotor 43, just can realize control to the speed of the lifting of described work microscope carrier 31 by the rotating speed of controlling described the second servomotor 43.

Shown in Fig. 1 to 5, described the 3rd bearing 50 is provided with the 3rd servomotor 53, Y-axis screw mandrel 54 and at least two s' Y-axis screw mandrel supporting seat 55, described the 3rd servomotor 53 is connected by the second shaft joint 56 with described Y-axis screw mandrel 54, described Y-axis screw mandrel supporting seat 55 is enclosed within on the described Y-axis screw mandrel 54, and described Y-axis screw mandrel 54 is flexibly connected by screw pair with described the second bearing 40.Described the 3rd servomotor 53 drives described Y-axis screw mandrel 54 by described the second shaft joint 56 and rotates, described Y-axis screw mandrel 54 drives described the second bearing 40 by screw pair and slides along described Y linear guides 51, the glide direction of described the second bearing 40 depends on turning to of described the 3rd servomotor 53, has so just realized the control of moving of described work microscope carrier 31 along Y-axis.

Shown in Fig. 1 to 5, described base plate 2 is provided with the 4th servomotor 60, X-axis screw mandrel 61 and at least two s' X-axis screw mandrel supporting seat 62, described the 4th servomotor 60 is connected by the 3rd shaft joint 63 with described X-axis screw mandrel 61, described X-axis screw mandrel supporting seat 62 is enclosed within on the described X-axis screw mandrel 61, and described X-axis screw mandrel 61 is flexibly connected by screw pair with described the 3rd bearing 50.Described the 4th servomotor 60 drives described X-axis screw mandrel 61 by described the 3rd shaft joint 63 and rotates, described X-axis screw mandrel 61 drives described the 3rd bearing 50 by screw pair and slides along described x-ray guide rail 52, the glide direction of described the 3rd bearing 50 depends on turning to of described the 4th servomotor 60, has so just realized the control of moving of described work microscope carrier 31 along X-axis.

In sum, can realize the spinfunction of described work microscope carrier 31 by controlling described the first servomotor 35; Can realize that by controlling described the second servomotor 43 described work microscope carrier 31 is along the elevating function of Z axis; Can realize that by controlling described the 3rd servomotor 53 described work microscope carrier 31 is along the locomotive function of Y-axis; Can realize that by controlling described the 4th servomotor 60 described work microscope carrier 31 is along the locomotive function of X-axis; Be that described work microscope carrier 31 can move to adjust the position along the X in the space, Y, Z direction, can also adjust the position along the Z axis rotation.Can find out that described work is carried 31 good freedom of motion in the space, can adjust easily the position of LCD screen, avoid dismounting LCD screen and the again work of clamping, save the plenty of time, be greatly improved so that reprocess efficient.

Fig. 1, Fig. 7 and shown in Figure 8, in the present embodiment, described press main body 1 comprises support 21, is provided with press structure 22 perpendicular to the middle part on the plate face 211 of the close contraposition of the panel of base plate 2 and rotating mechanism 3 on the described support 21, and described panel 211 is provided with volume glue section and fills 23.

Claims (8)

1. reprocess this press of formula for one kind, it is characterized in that: comprise this press main body (1), be arranged at contraposition and rotating mechanism (3) and control system on the base plate (2) of described press main body (1), the instruction that described control system pre-enters according to the operator, after will being positioned at the IC maintenance that certain need on one side by repair piece on contraposition and the rotating mechanism (3) reprocess, control again contraposition and rotating mechanism (3) repair piece is rotated an angle, carry out the IC maintenance on lower one side, and need not and to be pulled down refitting by repair piece from contraposition and rotating mechanism (3).

2. this press of formula of reprocessing according to claim 1, it is characterized in that: described contraposition and rotating mechanism (3) comprise work microscope carrier (31), described work microscope carrier (31) is connected with the first synchronizing wheel (32), described the first synchronizing wheel (32) is connected by Timing Belt (34) with the second synchronizing wheel (33), described the second synchronizing wheel (33) is connected with the first servomotor (35), described the first servomotor (35) is fixedly connected with the first bearing (36), described work microscope carrier (31) is located at described the first bearing (36) upward and is flexible connection with described the first bearing (36), described the first bearing (36) is located at the second bearing (40) upward and is flexible connection with described the second bearing (40), described the second bearing (40) is located at the 3rd bearing (50) upward and is flexibly connected by Y linear guides (51) with described the 3rd bearing (50), and described the 3rd bearing (50) passes through x-ray guide rail (52) flexible connection with described base plate (2).

3. this press of formula of reprocessing according to claim 1 and 2, it is characterized in that: described contraposition and rotating mechanism (3) also comprise elevating mechanism (4), described elevating mechanism (4) comprises the bearing seat linear guides (41) that is arranged on described the second bearing (40), Z axis screw mandrel supporting seat (42), the second servomotor (43), Z axis screw mandrel (44), the bearing seat (45) that is flexibly connected with described bearing seat linear guides (41) and be arranged at friction block (46) on described the first bearing (36), described the second servomotor (43) is connected by the first shaft joint (47) with described Z axis screw mandrel (44), described Z axis screw mandrel supporting seat (42) is enclosed within on the described Z axis screw mandrel (44), described Z axis screw mandrel (44) is flexibly connected by screw pair with described bearing seat (45), and the bearing (48) that is arranged on the described bearing seat (45) contacts with the inclined-plane (461) of described friction block (46).

4. this press of formula of reprocessing according to claim 3, it is characterized in that: described friction block (46) has two.

5. require according to claim 2 described this press of formula of reprocessing, it is characterized in that: described the 3rd bearing (50) is provided with the 3rd servomotor (53), Y-axis screw mandrel (54) and at least two s' Y-axis screw mandrel supporting seat (55), described the 3rd servomotor (53) is connected by the second shaft joint (56) with described Y-axis screw mandrel (54), described Y-axis screw mandrel supporting seat (55) is enclosed within on the described Y-axis screw mandrel (54), and described Y-axis screw mandrel (54) is flexibly connected by screw pair with described the second bearing (40).

6. this press of formula of reprocessing according to claim 5, it is characterized in that: described base plate (2) is provided with the 4th servomotor (60), X-axis screw mandrel (61) and at least two s' X-axis screw mandrel supporting seat (62), described the 4th servomotor (60) is connected by the 3rd shaft joint (63) with described X-axis screw mandrel (61), described X-axis screw mandrel supporting seat (62) is enclosed within on the described X-axis screw mandrel (61), and described X-axis screw mandrel (61) is flexibly connected by screw pair with described the 3rd bearing (50).

7. this press of formula of reprocessing according to claim 6, it is characterized in that: described press main body (1) comprises support (21), and described support (21) is gone up perpendicular to the middle part on the panel (211) of the close contraposition of the panel of base plate (2) and rotating mechanism (3) and is provided with press structure (22).

8. this press of formula of reprocessing according to claim 7 is characterized in that: also be provided with volume glue section's dress (23) on the described panel (211).

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