CN212876550U - Camera hot pressing module - Google Patents

Abstract

The utility model aims at providing a camera hot pressing module that precision is high, pressure control is accurate. The utility model discloses a lift drive subassembly and a plurality of work module, the work module is including connecting gradually dead weight elimination subassembly, six adjustment subassemblies and hot pressing subassembly, all dead weight elimination subassembly is all fixed lift drive subassembly's activity is served, six adjustment subassemblies are including connecting seat, X axle adjustment platform and the Y axle adjustment platform that connects gradually, the connecting seat pass through the bolt with the expansion end of dead weight elimination subassembly is connected, dead weight elimination subassembly's activity serve be provided with the first adjusting bolt of connecting seat complex, be equipped with matched with angle adjustment groove and second adjusting bolt on the connecting seat. The utility model discloses be applied to hot pressing module's technical field.

Description

Camera hot pressing module

Technical Field

The utility model discloses be applied to the technical field of hot pressing module, in particular to camera hot pressing module.

Background

The lens mount of the camera in the camera module and the PCB need to be glued by special glue, the environmental requirements on temperature and pressure during gluing are sensitive, the effect is best when the camera module can be glued only under certain temperature and pressure, and in addition, the precision requirement is higher. Traditional hot pressing module drives hot pressing assembly through sharp actuating mechanism and directly pushes down, can't guarantee the size of pressure value when pressing, can't reach best bonding effect, and hot pressing assembly and sharp actuating mechanism are lug connection simultaneously, can't adjust, and the precision is low.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that overcome prior art not enough, provide a camera hot pressing module that precision is high, pressure control is accurate.

The utility model adopts the technical proposal that: the utility model discloses a lift drive subassembly and a plurality of work module, the work module is including connecting gradually dead weight elimination subassembly, six adjustment subassemblies and hot pressing subassembly, all dead weight elimination subassembly is all fixed lift drive subassembly's activity is served, six adjustment subassemblies are including connecting seat, X axle adjustment platform and the Y axle adjustment platform that connects gradually, the connecting seat pass through the bolt with the expansion end of dead weight elimination subassembly is connected, dead weight elimination subassembly's activity serve be provided with the first adjusting bolt of connecting seat complex, be equipped with matched with angle adjustment groove and second adjusting bolt on the connecting seat.

According to the scheme, the lifting driving assembly is used for driving the hot pressing assembly to lift, and then the hot pressing assembly is pressed down to perform hot pressing operation on a product. Through setting the dead weight elimination subassembly is gone on six adjusting part and the gravity adjustment of hot pressing subassembly realizes accurate control pressure, guarantees that the pressure value that applies to the product when hot pressing operation keeps invariable. The position and the pitching angle of the hot pressing assembly can be adjusted through the six-axis adjusting assembly, and then the hot pressing operation matched with a product can be accurately carried out. The first adjusting bolt is matched with the connecting seat, so that the matching angle between the connecting seat and the dead weight eliminating assembly is adjusted. Through setting up the angle adjustment groove, and then make the connecting seat can be based on the deformation takes place for the angle adjustment groove, and then adjusts the every single move angle of terminal surface under the connecting seat, through the adjustment of second adjusting bolt carries out the degree of deformation. The X-axis adjusting platform and the Y-axis adjusting platform are common linear adjusting platforms. Through setting up a plurality ofly simultaneously the work module realizes that a plurality of products carry out hot pressing operation simultaneously, improves production efficiency.

One preferred scheme is, dead weight eliminating assembly includes cylinder, fixing base, first straight line slide rail, first slider and spring, the cylinder is fixed on the fixing base, the fixing base with lift drive assembly's expansion end fixed connection, first straight line slide rail is fixed on the fixing base, first slider sliding fit is in on the first straight line slide rail, the one end of spring with fixing base fixed connection, the other end of spring with first slider fixed connection, the expansion end of cylinder with first slider activity fit.

According to the scheme, the spring is arranged to provide pulling force for the first sliding block, so that the first sliding block floats, and meanwhile, the height position of the first sliding block is adjusted by arranging the air cylinder, so that the pulling force provided by the spring is adjusted. Through driving first slider reachs appointed height, and then makes the pull force of spring offsets the gravity of lower part movable assembly, makes the dynamics of pushing down more easily control, improves precision and hot pressing efficiency. The linear movement precision of the first sliding block is improved by arranging the first linear sliding rail.

A further preferred scheme is that the movable end of the cylinder is movably matched with the first slider through a linkage assembly, the linkage assembly comprises a connecting block, a movable block, a supporting block and a pressure sensor, the connecting block is fixedly connected with the movable end of the cylinder, the supporting block is fixedly connected with the connecting block, the movable block is fixedly connected with the first slider, the movable block is located between the connecting block and the supporting block, and the pressure sensor is fixed on the movable block and matched with the connecting block.

According to the scheme, the movable block is arranged between the connecting block and the supporting block, so that the movable block is in contact with the supporting block to provide supporting force when the tension provided by the spring is insufficient, when the tension provided by the spring is greater than the gravity of the lower component, the movable block is in contact with the connecting block and is limited, at the moment, the pressure sensor is matched with the connecting block to detect the pressure, and then accurate tension numerical values are obtained to control the lower pressure degree.

A further preferred scheme is that the first slider is provided with a first adjusting block in threaded fit with the first adjusting bolt, and the connecting seat is provided with a top plate in fit with the first adjusting bolt.

According to the scheme, the first adjusting block is arranged to fix the first adjusting bolt, the top plate is arranged on the connecting seat, the connecting seat is pushed to adjust the pitching angle by adjusting the extending length of the first adjusting bolt after the bolt matched with the first sliding block is loosened, and then the bolt matched with the first sliding block is screwed down to fix the angle.

According to a preferable scheme, a second adjusting block is arranged on the connecting seat, a guide inclined plane is arranged on the lower end face of the second adjusting block, a connecting bolt is arranged on the second adjusting block, the connecting bolt sequentially penetrates through the second adjusting block and the angle adjusting groove and then is in threaded connection with the connecting seat, the second adjusting bolt is in threaded fit with the connecting seat, the end portion of the second adjusting bolt is connected with a top block, the top block is located between the second adjusting block and the connecting seat, an adjusting inclined plane matched with the guide inclined plane is arranged on the upper end face of the top block, and a waist-shaped hole matched with the connecting bolt is formed in the top block.

According to the scheme, the second adjusting block is arranged, the connecting bolt is arranged, the connecting seat is driven to deform along the angle adjusting groove through the second adjusting block, and then the pitching angle of the lower end face of the connecting seat is adjusted. Through setting up the kicking block with the lower terminal surface cooperation of second adjusting block, rethread rotates second adjusting bolt changes the adjustment inclined plane with the cooperation length on direction inclined plane, and then changes the deformation volume, realizes accurate adjustment. The waist-shaped hole is formed to enable the top block and the connecting bolt not to interfere with each other.

Preferably, the working module further comprises a product jig matched with the hot-pressing assembly, and the product jig is arranged below the hot-pressing assembly.

According to the scheme, the product jig is used for clamping products.

According to a preferable scheme, the lifting driving assembly comprises an electric cylinder, a fixed frame, a second linear guide rail and a second sliding block, the electric cylinder and the second linear guide rail are fixed on the fixed frame, the second sliding block is in sliding fit with the second linear guide rail, the second sliding block is fixedly connected with the movable end of the electric cylinder, and the plurality of working modules are fixed on the second sliding block.

According to the scheme, the fixing frame is used for providing support. The linear movement precision of the second sliding block is improved by arranging the second linear guide rail. The electric cylinder drives the second sliding block to lift, and then drives the hot-pressing assembly to perform pressing action.

Drawings

Fig. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic perspective view of the working module at a first viewing angle;

FIG. 3 is a schematic perspective view of the second view of the working module;

FIG. 4 is an enlarged view of portion A of FIG. 3;

FIG. 5 is a schematic perspective view of the top block;

FIG. 6 is a schematic perspective view of the deadweight elimination assembly from a first perspective;

fig. 7 is a perspective view of the self weight reducing assembly from a second perspective.

Detailed Description

As shown in fig. 1 to 7, in this embodiment, the utility model discloses a lift drive assembly 1 and two work modules, the work module is including the dead weight that connects gradually elimination subassembly 2, six adjusting part 3 and hot pressing subassembly 4, all dead weight elimination subassembly 2 is all fixed on lift drive assembly 1's the activity is served, six adjusting part 3 is including connecting seat 301, X axle adjustment platform 302 and the Y axle adjustment platform 303 that connect gradually, connecting seat 301 pass through the bolt with the loose end of dead weight elimination subassembly 2 is connected, be provided with on the loose end of dead weight elimination subassembly 2 with connecting seat 301 complex first adjusting bolt 304, be equipped with matched with angle adjustment groove 305 and second adjusting bolt 306 on connecting seat 301.

In this embodiment, the dead weight removing assembly 2 includes a cylinder 201, a fixed seat 202, a first linear sliding rail 203, a first slider 204 and a spring 205, the cylinder 201 is fixed on the fixed seat 202, the fixed seat 202 is fixedly connected with the movable end of the lifting driving assembly 1, the first linear sliding rail 203 is fixed on the fixed seat 202, the first slider 204 is in sliding fit on the first linear sliding rail 203, one end of the spring 205 is fixedly connected with the fixed seat 202, the other end of the spring 205 is fixedly connected with the first slider 204, and the movable end of the cylinder 201 is movably matched with the first slider 204.

In this embodiment, the movable end of the air cylinder 201 is movably engaged with the first slider 204 through a linkage assembly, the linkage assembly includes a connection block 206, a movable block 207, a support block 208 and a pressure sensor 209, the connection block 206 is fixedly connected with the movable end of the air cylinder 201, the support block 208 is fixedly connected with the connection block 206, the movable block 207 is fixedly connected with the first slider 204, the movable block 207 is located between the connection block 206 and the support block 208, and the pressure sensor 209 is fixed on the movable block 207 and engaged with the connection block 206.

In this embodiment, the first slider 204 is provided with a first adjusting block 210 in threaded engagement with the first adjusting bolt 304, and the connecting seat 301 is provided with a top plate in engagement with the first adjusting bolt 304.

In this embodiment, the connecting seat 301 is provided with a second adjusting block 307, a guiding inclined plane is provided on a lower end surface of the second adjusting block 307, a connecting bolt 308 is provided on the second adjusting block 307, the connecting bolt 308 sequentially penetrates through the second adjusting block 307 and the angle adjusting groove 305 and then is in threaded connection with the connecting seat 301, the second adjusting bolt 306 is in threaded fit with the connecting seat 301, the end of the second adjusting bolt 306 is connected with a top block 309, the top block 309 is located between the second adjusting block 307 and the connecting seat 301, an adjusting inclined plane adapted to the guiding inclined plane is provided on an upper end surface of the top block 309, and a waist-shaped hole adapted to the connecting bolt 308 is provided on the top block 309. The second adjusting block 307 is further provided with an angle auxiliary adjusting groove, and the deformation of the connecting seat 301 is reduced by the angle auxiliary adjusting groove, so that the connecting seat 301 is guaranteed to be firm and reliable in structure.

In this embodiment, the working module further includes a product fixture 5 engaged with the hot pressing assembly 4, and the product fixture 5 is disposed below the hot pressing assembly 4.

In this embodiment, the lifting driving assembly 1 includes an electric cylinder 101, a fixed frame 102, a second linear guide 103 and a second slider 104, the electric cylinder 101 and the second linear guide 103 are both fixed on the fixed frame 102, the second slider 104 is in sliding fit on the second linear guide 103, the second slider 104 is fixedly connected with a movable end of the electric cylinder 101, and a plurality of the working modules are all fixed on the second slider 104.

The utility model discloses a theory of operation:

during calibration, firstly, the bolt for connecting the connecting seat 301 and the first slider 204 is loosened, and the first adjusting bolt 304 is lifted up or down by adjusting the extending length of the first adjusting bolt 304, so as to adjust the pitch angle of the connecting seat 301 in the X-axis direction.

After the connecting bolt 308 is loosened, the length of the second adjusting bolt 306 is adjusted to change the length of the top block 309 matched with the second adjusting block 307, so that the lower portion of the connecting seat 301 is bent along the angle adjusting groove 305, and the adjustment of the pitch angle of the lower portion of the connecting seat 301 along the Y-axis direction is realized.

The hot pressing assembly 4 is adjusted in a translation manner through the adjusting screws on the X-axis adjusting platform 302 and the Y-axis adjusting platform 303.

By controlling the extension of the cylinder 201 to adjust the extension length of the spring 205, the first slider 204 reaches a state where the pressure sensor 209 is not triggered and the movable block 207 is not in contact with the supporting block 208, so as to achieve the effect of offsetting the self weight of the first slider 204, the six-axis adjusting assembly 3, and the hot pressing assembly 4.

Lifting drive assembly 1 drives when the working module pushes down, under reaction force the movable block 207 is close to connecting block 206, and triggers pressure sensor 209, under the condition of eliminating the dead weight of the working module, the numerical value that pressure sensor 209 detected is the pressure value that receives of product promptly, the accurate control pressure of being convenient for.

Claims (7)

1. The utility model provides a camera hot pressing module which characterized in that: it includes lift drive subassembly (1) and a plurality of work module, the work module is including the dead weight elimination subassembly (2), six adjustment subassembly (3) and hot pressing subassembly (4) that connect gradually, all dead weight elimination subassembly (2) are all fixed the activity of lift drive subassembly (1) is served, six adjustment subassembly (3) are including connecting seat (301), X axle adjustment platform (302) and Y axle adjustment platform (303) that connect gradually, connecting seat (301) pass through the bolt with the expansion end of dead weight elimination subassembly (2) is connected, the activity of dead weight elimination subassembly (2) is served be provided with connecting seat (301) first adjusting bolt (304) of complex, be equipped with matched with angle adjustment groove (305) and second adjusting bolt (306) on connecting seat (301).

2. The camera hot pressing module according to claim 1, characterized in that: dead weight elimination subassembly (2) include cylinder (201), fixing base (202), first straight line slide rail (203), first slider (204) and spring (205), cylinder (201) are fixed on fixing base (202), fixing base (202) with the expansion end fixed connection of lift drive subassembly (1), first straight line slide rail (203) are fixed on fixing base (202), first slider (204) sliding fit is in on first straight line slide rail (203), the one end of spring (205) with fixing base (202) fixed connection, the other end of spring (205) with first slider (204) fixed connection, the expansion end of cylinder (201) with first slider (204) clearance fit.

3. The camera hot pressing module according to claim 2, wherein: the movable end of the air cylinder (201) is movably matched with the first sliding block (204) through a linkage assembly, the linkage assembly comprises a connecting block (206), a movable block (207), a supporting block (208) and a pressure sensor (209), the connecting block (206) is fixedly connected with the movable end of the air cylinder (201), the supporting block (208) is fixedly connected with the connecting block (206), the movable block (207) is fixedly connected with the first sliding block (204), the movable block (207) is located between the connecting block (206) and the supporting block (208), and the pressure sensor (209) is fixed on the movable block (207) and matched with the connecting block (206).

4. The camera hot pressing module according to claim 2, wherein: the first sliding block (204) is provided with a first adjusting block (210) in threaded fit with the first adjusting bolt (304), and the connecting seat (301) is provided with a top plate in fit with the first adjusting bolt (304).

5. The camera hot pressing module according to claim 1, characterized in that: the connecting seat is characterized in that a second adjusting block (307) is arranged on the connecting seat (301), a guide inclined plane is arranged on the lower end face of the second adjusting block (307), a connecting bolt (308) is arranged on the second adjusting block (307), the connecting bolt (308) sequentially penetrates through the second adjusting block (307) and the angle adjusting groove (305) and then is in threaded connection with the connecting seat (301), the second adjusting bolt (306) is in threaded fit with the connecting seat (301), the end portion of the second adjusting bolt (306) is connected with a top block (309), the top block (309) is located between the second adjusting block (307) and the connecting seat (301), an adjusting inclined plane matched with the guide inclined plane is arranged on the upper end face of the top block (309), and a kidney-shaped hole matched with the connecting bolt (308) is arranged on the top block (309).

6. The camera hot pressing module according to claim 1, characterized in that: the working module further comprises a product jig (5) matched with the hot-pressing assembly (4), and the product jig (5) is arranged below the hot-pressing assembly (4).

7. The camera hot pressing module according to claim 1, characterized in that: lifting drive subassembly (1) includes electric jar (101), mount (102), second linear guide (103) and second slider (104), electric jar (101) with second linear guide (103) are all fixed on mount (102), second slider (104) sliding fit is in on second linear guide (103), second slider (104) with the expansion end fixed connection of electric jar (101), a plurality of the work module is all fixed on second slider (104).

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