CN216922761U - 3C auxiliary material equipment semi-automatization equipment - Google Patents

Abstract

The utility model provides semi-automatic equipment for assembling 3C accessories, which comprises a base with a rotating table, at least one cavity template and a cover plate, wherein the cover plate is hinged to the side of the cavity template and forms covering assembly with the cavity template; the auxiliary material positioning piece is arranged in a cavity opening in the cavity template; the auxiliary material turnover mechanism is rotatably arranged beside the auxiliary material positioning piece and is in nested connection with the independently arranged pressure head assembly; the material turning driving mechanism is used for synchronously compounding actions of the translation stroke component and the longitudinal movement stroke component to form a curve turning track; and the pressure maintaining mechanism is arranged right above the pressure head assembly to form lifting and pressing actions. According to the automatic auxiliary material pasting machine, through logic control, automatic operation of loading, turning and pressing is carried out in order, the working efficiency is obviously improved, the automatic pasting function is realized, the auxiliary material pasting precision is improved, and the product yield is improved. The requirement on the professional performance of personnel is not high, the operation is simple and convenient, and the waste of manpower is reduced.

Description

3C auxiliary material equipment semi-automatization equipment

Technical Field

The utility model belongs to the technical field of machinery, relates to a mobile phone part machining tool, and particularly relates to semi-automatic equipment for assembling 3C accessories.

Background

In the process of assembling mobile phones and flat panels in the 3C electronic industry, auxiliary materials in various shapes are needed to be used for bonding and fixing.

In the existing bonding process, each tool can only bond one auxiliary material, so that in the bonding process, the positioning mode of each bonded auxiliary material is inconsistent, and the relative pressing amount is inconsistent, so that the reject ratio of the product is increased. Moreover, due to the low automation degree, the manual operation is dominant, the used tools are very heavy, the personnel are very labourious in the operation process, a large amount of time period is wasted, the capacity is insufficient, and the labor waste is very serious.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the problems in the prior art, and provides 3C auxiliary material assembling semi-automatic equipment which has the cooperation effect of automatic machinery, ensures that a plurality of auxiliary materials are installed simultaneously, and improves the product quality and the working efficiency.

The purpose of the utility model can be realized by the following technical scheme: the semi-automatic equipment for assembling the 3C accessories comprises a base with a rotating table, wherein at least one cavity template is arranged on the base, and the semi-automatic equipment for assembling the 3C accessories further comprises a cover plate which is hinged to the side of the cavity template and forms covering assembly with the cavity template;

the auxiliary material positioning piece is arranged in a cavity opening in the cavity template;

the auxiliary material turnover mechanism is rotatably arranged beside the auxiliary material positioning piece and is in nested connection with the independently arranged pressure head assembly;

the material turning driving mechanism is used for synchronously compounding actions of the translation stroke component and the longitudinal movement stroke component to form a curve turning track;

and the pressure maintaining mechanism is arranged right above the pressure head assembly to form lifting and pressing actions.

In foretell 3C auxiliary material equipment semi-automatization equipment, the pressure head subassembly is including the supporting shoe and the pressure head piece that are connected, the below of pressure head piece is by the support column bearing.

In foretell 3C auxiliary material equipment semi-automatization equipment, auxiliary material tilting mechanism is including the articulated seat that is located both ends, two rotate through the articulated shaft between the articulated seat and connect the stirring board that is the L type, open the upset opening on the switching lath of stirring board, the upset opening cup joints the pressure head piece, the side of stirring board sets firmly the buffer block, the turnover lath of stirring board suppresses under the upset state the buffer block.

In foretell 3C auxiliary material equipment semi-automatization equipment, translation stroke subassembly includes that translation motor passes through belt drive and connects translation lead screw structure, the stroke subassembly that moves longitudinally includes sliding connection and is in the last stirring lift cylinder of translation lead screw structure, drive linking arm about the stirring lift cylinder, the articulated gyro wheel in bottom of linking arm, the gyro wheel with the turnover lath forms the upset transmission through rolling and sliding contact and connects.

In foretell 3C accessory equipment semi-automatization equipment, pressurize mechanism includes the support frame, set firmly the pressfitting cylinder on the support frame, the flexible end drive of pressfitting cylinder is connected and is protected the pressure head, it is located to protect the pressure head directly over the pressure head subassembly.

In foretell 3C auxiliary material equipment semi-automatization equipment, at least protruding two reference columns of establishing on the top surface of auxiliary material setting element, the auxiliary material setting element is rectangular piece, the auxiliary material setting element with the pressure head subassembly sets up relatively.

In foretell 3C accessory equipment semi-automatization equipment, the casing of base for having the internal assembly chamber, the top surface middle part of casing is independent setting the revolving stage, the below of revolving stage is connected by the rotating electrical machines drive, the rotating electrical machines adorn admittedly in the internal assembly chamber of base.

In foretell 3C auxiliary material equipment semi-automatization equipment, the below of auxiliary material setting element is connected by auxiliary material lift cylinder drive, auxiliary material lift cylinder adorns admittedly in the internal assembly chamber of base.

In the above 3C accessory assembling semi-automatic device, the upper surface of the cavity template is provided with a profiling groove which is matched with the product profile in a downward concave manner, and the bottom wall of the profiling groove is embedded with an optical fiber sensor corresponding to the product hole.

In foretell 3C auxiliary material equipment semi-automatization equipment, set firmly manual spanner on the apron lateral wall, set firmly the pothook on the inside wall, set up down the pothook in the die cavity template, the pothook is connected by the translation pull rod transmission down, the articulated goat's horn spanner of translation pull rod outer end, the edge of prizing of goat's horn spanner supports on the fulcrum board, spacing logical groove is opened to the fulcrum board, the translation pull rod runs through spacing logical groove and cooperation flat recess form spacing support and lean on.

Compared with the prior art, this 3C auxiliary material equipment semi-automatization equipment has following beneficial effect:

1. through logic control, carry out the automation mechanized operation of material loading, stirring, pressfitting in order, show promotion work efficiency, realized automatic laminating function, promoted the auxiliary material precision of pasting, improve the product yield.

2. The requirement on the specialty of personnel is not high, the popularization operation is realized, the operation is simple and convenient, and the waste of manpower is reduced.

3. The later stage can carry out corresponding change according to the product needs and replace the use to one set of equipment can deal with multiple product production, reduces production facility's input, and the practicality is strong easily uses widely.

4. The installation of multiple auxiliary materials is guaranteed, the operation of personnel to multiple tools is reduced, the manufacturing process is reduced, and the productivity is increased.

Drawings

Fig. 1 is a structural view of the overall external form of the 3C auxiliary material assembling semi-automatic apparatus.

Fig. 2 is an internal structure view of the 3C auxiliary material assembling semi-automatic apparatus.

Fig. 3 is a structural diagram of a cavity mold plate in a 3C auxiliary material assembly semi-automatic device.

Fig. 4 is a structural diagram of a material turning driving mechanism in the 3C auxiliary material assembling semi-automatic device.

In the figure, 1, a base; 2. a rotating table; 3. a cavity template; 4. a cover plate; 5. a manual wrench; 6. an auxiliary material positioning piece; 7. a support block; 8. a pressure head block; 9. a poking plate; 10. a buffer block; 11. a lower hook; 12. a claw wrench; 13. a translation motor; 14. a belt; 15. a translation lead screw structure; 16. a material turning and lifting cylinder; 17. a connecting arm; 18. a roller; 19. pressing a cylinder; 20. a pressure maintaining head; 21. a housing; 22. and assembling the plate.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

Example one

As shown in fig. 1 to 4, the 3C auxiliary material assembling semi-automatic apparatus includes a base 1 having a rotating table 2, two cavity templates 3 are disposed on the base 1, and the 3C auxiliary material assembling semi-automatic apparatus further includes a cover plate 4 hinged to a side of the cavity templates 3 and forming a covering assembly with the cavity templates 3;

the auxiliary material positioning piece 6 is arranged in a cavity opening inside the cavity template 3;

the auxiliary material turnover mechanism is rotatably arranged beside the auxiliary material positioning piece 6 and is in nested connection with the independently arranged pressure head assembly;

the material turning driving mechanism is used for synchronously compounding actions of the translation stroke component and the longitudinal movement stroke component to form a curve turning track;

and the pressure maintaining mechanism is arranged right above the pressure head assembly to form lifting and pressing actions.

In this 3C auxiliary material equipment semi-automatization equipment, stirring actuating mechanism and pressurize mechanism all establish on the top surface of base 1, and the periphery between them forms through housing 21 and shelters from, and housing 21 sets up the breach towards side of revolving stage 2 to make the die cavity template 3 on the revolving stage 2 change over into stirring actuating mechanism and pressurize mechanism below.

The pressure head component comprises a supporting block 7 and a pressure head block 8 which are connected, and the lower part of the pressure head block 8 is supported by a supporting column.

Auxiliary material tilting mechanism rotates through the articulated shaft to connect the stirring board 9 that is the L type including the articulated seat that is located both ends between two articulated seats, opens the upset opening on stirring board 9's the switching lath, and the upset opening cup joints pressure head piece 8, and stirring board 9's side sets firmly buffer block 10, and stirring board 9's turnover lath suppresses buffer block 10 under the upset state. The specification of the turnover through opening is slightly larger than the size of the pressure head block 8, so that obstruction in the turnover process is avoided. Utilize the turnover lath of buffer block 10 bearing state of pushing down, avoid the damage that the excessive pressure leads to.

The translation stroke assembly comprises a translation motor 13 connected with a translation lead screw structure 15 through a belt 14 in a transmission mode, the longitudinal movement stroke assembly comprises a material turning lifting cylinder 16 connected to the translation lead screw structure 15 in a sliding mode, the material turning lifting cylinder 16 drives a connecting arm 17 up and down, the bottom end of the connecting arm 17 is hinged to a roller 18, and the roller 18 and a turnover lath are connected in a rolling and sliding mode to form turnover transmission.

The translation stroke assembly and the longitudinal movement stroke assembly are fixedly arranged on the supporting plate, the sensor is fixedly arranged on the supporting plate, and the material overturning lifting cylinder 16 is sensed to translate in place through the sensor, so that the translation limit position, namely the return position, of the material overturning lifting cylinder 16 is controlled. Translation lead screw structure 15 is including parallel arrangement's lead screw and slide rail, and stirring lift cylinder 16 passes through the nut and connects the lead screw, connects the slide rail through the slider, and translation motor 13 drives the lead screw through belt 14 and rotates from this to through screw-thread fit and the spacing effect of slider, drive nut along the lead screw translation, drive stirring lift cylinder 16 in step and carry out the translation action.

The pressure maintaining mechanism comprises a support frame, a pressing air cylinder 19 is fixedly arranged on the support frame, the telescopic end of the pressing air cylinder 19 is in driving connection with a pressure maintaining head 20, and the pressure maintaining head 20 is located right above the pressure head assembly.

At least two positioning columns are convexly arranged on the top surface of the auxiliary material positioning part 6, the auxiliary material positioning part 6 is a long strip block, and the auxiliary material positioning part 6 is arranged opposite to the pressure head assembly. The auxiliary material is the sticky tape of rectangular shape, and two locating holes are seted up to the correspondence on the auxiliary material, and two reference columns are the one-to-one cross-under with two locating holes to realize the accurate location of auxiliary material, prepare for follow-up accurate pressfitting.

The base 1 is the casing that has the internal assembly chamber, and the top surface middle part of casing is independent setting revolving stage 2, and the below of revolving stage 2 is connected by the rotating electrical machines drive, and the rotating electrical machines is adorned admittedly in the internal assembly chamber of base 1.

The lower part of the auxiliary material positioning piece 6 is in driving connection with an auxiliary material lifting cylinder which is fixedly arranged in an internal assembly cavity of the base 1.

A control panel and a pressure regulating valve are arranged in an internal assembly cavity of the base 1, and the control panel is in electric control connection with a rotating motor and an auxiliary material lifting cylinder; the pressure regulating valve is connected with the auxiliary material lifting cylinder through an air supply pipeline, so that pressure regulation is realized. A starting button and an emergency stop button are arranged on the front side wall surface of the base 1 and are connected with the control panel through a circuit.

The upper surface of the cavity template 3 is provided with a profiling groove which is matched with the product outline in a downward concave mode, and an optical fiber sensor corresponding to the product hole is embedded in the bottom wall of the profiling groove. The optical fiber sensor is connected with the control panel through a circuit, so that the product in place sensing effect is realized, and the fool-proof effect of the equipment is achieved.

Set firmly manual spanner 5 on the apron 4 lateral wall, set firmly the pothook on the inside wall, pothook 11 down is established to the die cavity template 3 in, and lower pothook 11 is connected by the translation pull rod transmission, and the articulated goat's horn spanner 12 of translation pull rod outer end, and the edge of prizing of goat's horn spanner 12 supports on the fulcrum plate, and the spacing logical groove is opened to the fulcrum plate, and the translation pull rod runs through spacing logical groove and cooperates the flat recess to form spacing support and lean on.

When the cover plate 4 is fastened by holding the hand wrench 5, the upper hook presses the lower hook 11 to form a hook connection to lock the closed state of the cover plate 4, and the product in the cavity is pressed tightly. When the cover plate 4 needs to be opened, the claw wrench 12 is moved to one side, and the prying force is utilized to drive the translation pull rod to move the lower clamping hook 11 backwards, so that the upper clamping hook is separated from the clamping connection with the lower clamping hook, and the unlocking of the cover plate 4 is realized.

This 3C auxiliary material equipment semi-automatization equipment's operation process does:

1. the cover plate 4 is turned over, the adhesive tape is placed on the auxiliary material positioning piece 6 and sleeved with the positioning column, and one end of the adhesive tape is erected on the pressure head block 8;

2. placing the product in the profiling groove of the cavity template 3, pressing the frame of the product above the adhesive tape, and locking the rear buckling cover plate 4 with the cavity template 3 to fix the product;

3. starting a rotating motor to rotate the rotating platform 2 to transfer the cavity template 3 to the lower parts of the stirring driving mechanism and the pressure maintaining mechanism;

4. starting the auxiliary material lifting cylinder to drive the auxiliary material positioning piece 6 to descend, simultaneously driving the material turning lifting cylinder 16 to translate forwards by the translation motor 13 through the belt 14 and the translation screw rod structure 15, and enabling the roller 18 to be located below the turnover lath by the material turning lifting cylinder 16 descending connecting arm 17; then the translation motor 13 drives the material turning lifting cylinder 16 to translate backwards, and the synchronous material turning lifting cylinder 16 raises the connecting arm 17 to enable the roller 18 to push the poking plate 9 to turn over, so as to drive the adhesive tape to turn over and cover the upper surface of the product frame;

5. starting the pressing cylinder 19 to descend the pressure maintaining head 20 to press the pressing head above the pressure head block 8, and maintaining the proper pressure of the product frame and the adhesive tape to realize the bonding of the auxiliary materials;

6. after the pressing is completed, the rotating motor is started again to rotate the rotating platform 2 to rotate the cavity template 3 out, the clamping is released by pulling the moving claw wrench 12, and the cover plate 4 is opened to take out the finished product.

Compared with the prior art, this 3C auxiliary material equipment semi-automatization equipment has following beneficial effect:

1. through logic control, carry out the automation mechanized operation of material loading, stirring, pressfitting in order, show promotion work efficiency, realized automatic laminating function, promoted the auxiliary material precision of pasting, improve the product yield.

2. The requirement on the specialty of personnel is not high, the popularization operation is realized, the operation is simple and convenient, and the waste of manpower is reduced.

3. The later stage can carry out corresponding change according to the product needs and replace the use to one set of equipment can deal with multiple product production, reduces production facility's input, and the practicality is strong easily uses widely.

4. The installation of multiple auxiliary materials is guaranteed, the operation of personnel to multiple tools is reduced, the manufacturing process is reduced, and the productivity is increased.

Example two

On the basis of the first embodiment, the differences of the present embodiment are:

the lower side of the cavity mold plate 3 is mounted on the rotary table 2 by means of a mounting plate 22 and screws, and thus can be replaced by disassembly. By replacing the cavity templates 3 with the profiling grooves of different shapes, the universality of various schemes is realized corresponding to products with different structures.

The specific embodiments described herein are merely illustrative of the spirit of the utility model. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the utility model as defined in the appended claims.

Although the base 1 is used more herein; a rotating table 2; a cavity mold plate 3; a cover plate 4; a manual wrench 5; an auxiliary material positioning member 6; a support block 7; a pressure head block 8; a toggle plate 9; a buffer block 10; a lower hook 11; a claw wrench 12; a translation motor 13; a belt 14; a translation screw structure 15; a material turning and lifting cylinder 16; a connecting arm 17; a roller 18; a press-fit cylinder 19; a pressure-maintaining head 20; a housing 21; mounting plate 22, etc., but does not preclude the possibility of using other terms. These terms are used merely to more conveniently describe and explain the nature of the present invention; they are to be construed as being without limitation to the spirit of the present invention.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Claims (10)

1. The semi-automatic equipment for assembling the 3C accessories comprises a base with a rotating table, wherein at least one cavity template is arranged on the base;

the auxiliary material positioning piece is arranged in a cavity opening in the cavity template;

the auxiliary material turnover mechanism is rotatably arranged beside the auxiliary material positioning piece and is in nested connection with the independently arranged pressure head assembly;

the material turning driving mechanism is used for synchronously compounding actions of the translation stroke component and the longitudinal movement stroke component to form a curve turning track;

and the pressure maintaining mechanism is arranged right above the pressure head assembly to form lifting and pressing actions.

2. The 3C piece of auxiliary material assembling semi-automatic equipment of claim 1, wherein the ram assembly comprises a supporting block and a ram block which are connected, and a supporting column is used for supporting the underside of the ram block.

3. The 3C piece auxiliary material assembling semi-automatic equipment according to claim 2, wherein the auxiliary material overturning mechanism comprises hinged seats at two ends, a shifting plate in an L shape is rotatably connected between the two hinged seats through a hinged shaft, an overturning through hole is formed in an adapter plate strip of the shifting plate, the overturning through hole is sleeved with the pressure head block, a buffer block is fixedly arranged at the side of the shifting plate, and the buffer block is pressed by an overturning plate strip of the shifting plate in an overturning state.

4. The 3C piece auxiliary material assembling semi-automatic equipment according to claim 3, wherein the translation stroke assembly comprises a translation motor, a translation screw rod structure is connected through belt transmission, the longitudinal movement stroke assembly comprises a material overturning lifting cylinder which is slidably connected to the translation screw rod structure, the material overturning lifting cylinder drives a connecting arm up and down, the bottom end of the connecting arm is hinged with a roller, and the roller is in rolling sliding contact with the turnover lath to form overturning transmission connection.

5. The 3C piece auxiliary material assembling semi-automatic equipment according to claim 1, wherein the pressure maintaining mechanism comprises a support frame, a pressing cylinder is fixedly arranged on the support frame, a telescopic end of the pressing cylinder is in driving connection with a pressure maintaining head, and the pressure maintaining head is positioned right above the pressure head assembly.

6. The 3C auxiliary material assembling semi-automatic equipment according to claim 1, wherein at least two positioning columns are convexly arranged on the top surface of the auxiliary material positioning piece, the auxiliary material positioning piece is a long strip, and the auxiliary material positioning piece is arranged opposite to the pressure head assembly.

7. The semi-automatic equipment for assembling 3C accessories according to claim 1, wherein the base is a housing having an internal assembly cavity, the rotating table is independently arranged in the middle of the top surface of the housing, the lower part of the rotating table is in driving connection with a rotating motor, and the rotating motor is fixedly arranged in the internal assembly cavity of the base.

8. The semi-automatic equipment for assembling 3C accessories according to claim 7, wherein the accessories positioning piece is connected with the lower part of the accessories positioning piece in a driving manner through an accessories lifting cylinder, and the accessories lifting cylinder is fixedly installed in the internal assembly cavity of the base.

9. The semi-automatic equipment for assembling 3C accessories according to claim 1, wherein a profiling groove matched with the product contour is recessed downwards on the upper surface of the cavity template, and an optical fiber sensor corresponding to the product hole is embedded on the bottom wall of the profiling groove.

10. The 3C piece of accessory assembly semi-automatic equipment of claim 1, wherein a manual wrench is fixedly arranged on the outer side wall of the cover plate, a hook is fixedly arranged on the inner side wall of the cover plate, a lower hook is arranged in the cavity die plate, the lower hook is in transmission connection with a translation pull rod, the outer end of the translation pull rod is hinged with a claw wrench, the prying edge of the claw wrench abuts against the fulcrum plate, the fulcrum plate is provided with a limiting through groove, and the translation pull rod penetrates through the limiting through groove and cooperates with the flat groove to form a limiting abutting.

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