CN112548058A - Die casting ultrasonic wave divides material production line - Google Patents

Abstract

The invention discloses an ultrasonic die casting distribution production line, which transfers and places a die-cast workpiece in a die casting machine on a material conveying belt of a material conveying unit by using a material feeding unit, conveys two connected workpieces to the ultrasonic distribution unit through the material conveying belt, further conveys the workpiece to an ultrasonic transducer component by using a conveying manipulator component of the ultrasonic distribution unit, temporarily limits and fixes two ends of the workpiece by using an upper transduction plate and a lower transduction plate of the ultrasonic transducer component, and generates vibration excitation by using ultrasonic transducers at four corners of a fixed plate, namely, the fracture of the joint of the two workpieces is realized by using ultrasonic waves, then the distributed workpiece is collected, and waste materials are returned to the die casting machine. The material distributing device can realize continuous material distribution, is high in efficiency in the material distributing process, cannot cause mechanical damage to the surface of a workpiece, and can avoid energy waste due to the recovery of waste materials.

Description

Die casting ultrasonic wave divides material production line

Technical Field

The invention relates to the technical field of distribution equipment, in particular to an ultrasonic distribution production line for die castings.

Background

The die casting is a part which is generally called a die casting, and is a pressure casting mechanical die casting machine which is used for installing a casting die, and copper, zinc, aluminum or aluminum alloy parts with shapes and sizes limited by the die are cast by pouring metal such as copper, zinc, aluminum or aluminum alloy which is heated to be liquid into a feeding port of the die casting machine through die casting of the die casting machine. In order to improve the die-casting efficiency, die-casting molds arranged in parallel are available in the market, namely, the two die-casting pieces can be simultaneously die-cast through one pouring material inlet, but because a communicating gap exists between the two die-casting molds, two die-cast workpieces are connected into a whole, and subsequent material distribution is needed; the conventional mechanical material breaking machine has high material breaking strength, and can generate mechanical damage to the surface of a workpiece in the material breaking process.

Disclosure of Invention

Aiming at the defects in the technology, the invention provides an ultrasonic die casting distribution production line.

The technical scheme adopted by the invention for solving the technical problems is as follows:

an ultrasonic die casting distribution production line comprises: the die casting device comprises a feeding unit for taking and placing die castings, a conveying unit for guiding and conveying the die castings and an ultrasonic material distributing unit for separating the die castings;

the feeding unit is arranged at the input end part of the material conveying unit, and the ultrasonic material distributing unit is arranged at the output end part of the material conveying unit; the ultrasonic material distribution unit comprises a transfer manipulator component which can carry die castings; and an ultrasonic transducer member capable of separating the die cast by ultrasonic waves.

Preferably, the feeding unit comprises a feeding underframe which is fixed on the operation ground; the feeding top frame is fixed on the feeding bottom frame; the overturning blanking component is movably arranged on the feeding top frame and is used for bearing the die casting; and the guiding and conveying component is fixedly arranged on the feeding top frame and used for moving the overturning and blanking component.

Preferably, the overturning blanking member comprises a blanking base; the blanking motor is fixed on the blanking base; the swing arm is arranged at the output shaft end of the blanking motor, and a shaft sleeve is arranged on the swing arm; the turnover shaft is rotatably arranged in the shaft sleeve, and a bearing plate is fixed at one end of the turnover shaft; the second support arm is fixed at the other end of the turnover shaft, and a waist-shaped hole is formed in the second support arm; and a first support arm, one end of which is hinged on the blanking base, and the other end of which is limited in the kidney-shaped hole in a sliding way.

Preferably, the guiding and conveying component comprises a guiding and conveying motor which is fixed on the loading top frame; the driving guide roller is rotatably arranged on the loading top frame and is connected to the output shaft end of the guide motor; the driven guide roller is rotatably arranged on the feeding top frame; and a guide belt mounted on the driving guide roller and the driven guide roller;

wherein, the unloading base is fixed on one side area body of the area of leading the fortune.

Preferably, the material conveying unit comprises a material conveying underframe which is fixed on the operation ground; the material conveying top frame is fixed on the material conveying bottom frame; the conveying component is arranged on the conveying top frame and used for guiding and conveying the die casting; the positioning component is arranged at the output tail end of the material conveying component and is used for correcting deviation and positioning the die casting;

the die casting cooling device comprises a material conveying top frame, a material conveying component, a fan mounting frame, a cooling fan and a cooling fan, wherein the fan mounting frame is provided with the fan mounting frame along the conveying direction of the material conveying component; the material conveying component comprises a first material conveying driven roller and a second material conveying driven roller which are rotatably arranged on the material conveying top frame; a stepping motor fixed on the material conveying top frame; a material conveying driving roller connected to the output shaft end of the stepping motor; and the material conveying belts are arranged on the first material conveying driven roller, the second material conveying driven roller and the material conveying driving roller.

Preferably, the positioning component comprises two positioning assemblies which are oppositely arranged, and each positioning assembly comprises a positioning electric cylinder which is fixed on the material conveying top frame; and the positioning clamping plate is connected to the telescopic shaft end of the positioning electric cylinder.

Preferably, the ultrasonic material distribution unit further comprises a material distribution underframe, wherein a blanking port for guiding die casting waste materials is formed in the material distribution underframe; the material distributing top frame is fixed on the material distributing bottom frame;

the material distributing top frame is a portal frame, and the transferring manipulator component is arranged on the material distributing top frame; the ultrasonic transducer component is arranged above the blanking port.

Preferably, the transferring manipulator component comprises a transferring motor fixed on the distributing top frame; a transfer belt driven by a transfer motor; and a picking assembly fixed on the belt body at one side of the transfer belt;

the picking assembly can pick and place die castings; the picking assembly comprises a U-shaped frame fixedly connected to the transfer belt; two picking electric cylinders oppositely arranged on the U-shaped frame;

wherein, the bottom of the picking electric cylinder is provided with a material sucking disc.

Preferably, the ultrasonic transducer member comprises two ultrasonic transducer assemblies arranged on the same plane; the ultrasonic transducer assembly comprises an upper transduction plate and a lower transduction plate; the upper transduction plate is hinged with the lower transduction plate through a hinge, and the upper transduction plate is opened or closed through an opening and closing driving mechanism;

the upper transduction plate and the lower transduction plate are the same in structure and comprise fixing plates, and ultrasonic transducers are mounted at four corners of each fixing plate.

Preferably, the die casting ultrasonic material distribution production line further comprises a recovery unit arranged below the blanking port and used for conveying die casting waste materials; the recovery unit comprises a folding type conveying support frame which is fixed on the operation ground; a waste conveying motor fixed on the conveying support frame; and a waste material conveying belt driven to operate by the waste material conveying motor.

Compared with the prior art, the invention has the beneficial effects that: the invention provides an ultrasonic die casting distribution production line, which transfers and places a die-cast workpiece in a die casting machine on a material conveying belt of a material conveying unit by using a material feeding unit, conveys two connected workpieces to the ultrasonic distribution unit through the material conveying belt, further conveys the workpiece to an ultrasonic transducer component by using a conveying manipulator component of the ultrasonic distribution unit, temporarily limits and fixes two ends of the workpiece by using an upper energy conversion plate and a lower energy conversion plate of the ultrasonic transducer component, and generates vibration by using ultrasonic transducers at four corners of a fixing plate, namely, the fracture of the joint of the two workpieces is realized by using ultrasonic waves, then the divided workpieces are collected, and waste materials are returned to the die casting machine. The material distributing device can realize continuous material distribution, is high in efficiency in the material distributing process, cannot cause mechanical damage to the surface of a workpiece, and can avoid energy waste due to the recovery of waste materials.

Drawings

FIG. 1 is a schematic structural view of the present invention as a whole;

FIG. 2 is a schematic view of the overall structure of the feeding unit of the present invention;

FIG. 3 is a schematic view of a partial structure of a feeding unit according to the present invention;

FIG. 4 is a schematic view showing the overall structure of a feed delivery unit according to the present invention;

FIG. 5 is a schematic view of a feeding member of the present invention;

FIG. 6 is a schematic view of the positioning member of the present invention;

FIG. 7 is a schematic view of the overall structure of an ultrasonic material dispensing unit according to the present invention;

FIG. 8 is a schematic view of a partial structure of an ultrasonic material dispensing unit according to the present invention;

FIG. 9 is a schematic view of the present invention showing the structure of the transfer robot member;

FIG. 10 is a schematic structural view of an ultrasonic transducer assembly according to the present invention;

FIG. 11 is a schematic view showing the overall structure of the recovery unit according to the present invention;

fig. 12 is a schematic view of the installation structure of the scrap conveyor belt according to the present invention.

Detailed Description

The present invention is further described in detail below with reference to the attached drawings so that those skilled in the art can implement the invention by referring to the description text.

As shown in fig. 1-12, the invention provides an ultrasonic die casting splitting production line, comprising:

the die casting feeding device comprises a feeding unit 1 for taking and placing die castings, a conveying unit 2 for guiding and conveying the die castings and an ultrasonic material distributing unit 3 for separating the die castings;

the feeding unit 1 is arranged at the input end of the material conveying unit 2, and the ultrasonic material distributing unit 3 is arranged at the output end of the material conveying unit 2;

the ultrasonic material distributing unit 3 comprises

A transfer robot member 32 capable of transferring the die cast; and

an ultrasonic transducer member capable of separating the die cast by ultrasonic waves.

As an embodiment of the present invention, the feeding unit 1 includes

A feeding base frame 10 fixed on the work floor;

the feeding top frame 11 is fixed on the feeding bottom frame 10;

the overturning and blanking component is movably arranged on the loading top frame 11 and is used for bearing the die casting; and

and the guiding and conveying component is fixedly arranged on the loading top frame 11 and is used for moving the overturning and blanking component.

As an embodiment of the invention, the turnover blanking member comprises

A blanking base 13;

the blanking motor 14 is fixed on the blanking base 13;

the swing arm 141 is arranged at the output shaft end of the blanking motor 14, and a shaft sleeve 142 is arranged on the swing arm 141;

a turning shaft 151 rotatably disposed in the shaft sleeve 142, wherein a bearing plate 152 is fixed to one end of the turning shaft 151;

a second arm 162 fixed to the other end of the turning shaft 151, wherein the second arm 162 is provided with a kidney-shaped hole; and

a first arm 161 is hinged at one end to the blanking base 13 and is slidably retained at the other end in the kidney-shaped hole.

As an embodiment of the invention, the guiding and transporting component comprises

A guiding motor 12 fixed on the loading top frame 11;

the driving guide roller 121 is rotatably arranged on the loading top frame 11, and the driving guide roller 121 is connected to the output shaft end of the guide motor 12;

a driven guide roller 122 rotatably provided on the loading head frame 11; and

a guide belt 123 installed on the driving guide roller 121 and the driven guide roller 122;

wherein, the blanking base 13 is fixed on one side of the guiding and conveying belt 123.

In an embodiment of the present invention, the feeding top frame 11 is provided with a guiding slide rail 111, and the discharging base 13 is slidably limited on the guiding slide rail 111.

As an embodiment of the invention, the material conveying unit 2 comprises

A feeding chassis 20 fixed on the working floor;

a feeding top frame 21 fixed on the feeding bottom frame 20;

the conveying component 22 is arranged on the conveying top frame 21 and used for guiding the die casting; and

the positioning component is arranged at the output tail end of the material conveying component 22 and used for rectifying deviation and positioning the die casting;

the material conveying top frame 21 is provided with a plurality of fan mounting frames 24 along the conveying direction of the material conveying member 22, and the fan mounting frames 24 are provided with fans for cooling the die castings.

As an embodiment of the present invention, the material transporting unit 2 further includes an electric cabinet 25, which is used for controlling the operation state of the material transporting unit 2.

As an embodiment of the present invention, the feeding member 22 comprises

A first feeding driven roller 221 and a second feeding driven roller 222 rotatably provided on the feeding top frame 21;

a stepping motor 224 fixed on the material conveying top frame 21;

a material conveying driving roller 225 connected to the output shaft end of the stepping motor 224; and

a feeding belt 223 installed on the first feeding driven roller 221, the second feeding driven roller 222, and the feeding driving roller 225;

wherein, a material conveying tensioning roller 226 for tensioning the material conveying belt 223 is arranged on the material conveying top frame 21.

As an embodiment of the present invention, the positioning member comprises two positioning assemblies 23 oppositely arranged, and the positioning assemblies 23 comprise

A positioning electric cylinder 231 fixed on the material conveying top frame 21; and

and a positioning clamp plate 232 connected to the telescopic shaft end of the positioning electric cylinder 231.

As an embodiment of the present invention, the ultrasonic material distribution unit 3 further includes

The material distribution underframe 30 is provided with a blanking port 300 for guiding and dropping die casting waste materials; and

a distributing top frame 31 fixed on the distributing bottom frame 30;

the material-separating top frame 31 is a portal frame, and the transfer manipulator component 32 is arranged on the material-separating top frame 31; the ultrasonic transducer component is arranged above the blanking port 300.

As an embodiment of the present invention, the transfer robot member 32 includes

A transfer motor 320 fixed on the distributing top frame 31;

a transfer belt 323 driven by the transfer motor 320; and

a pick-up assembly 33 fixed to a side belt of the transfer belt 323;

wherein, the picking assembly 33 can carry out picking and placing operation on the die casting.

As an embodiment of the present invention, an output shaft end of the transfer motor 320 is provided with a transfer driving wheel 321;

both sides of the transfer driving wheel 321 are provided with transfer driven wheels 322 which are rotatably arranged on the material distributing top frame 31;

both sides of the transfer driving wheel 321 are provided with transfer tensioning wheels 324 rotatably mounted on the material separating top frame 31;

the transfer belt 323 is wound around the transfer driving wheel 321, the two transfer driven wheels 322, and the two transfer tension wheels 324.

As an embodiment of the present invention, the pick-up assembly 33 includes

A U-shaped frame 330 fixedly connected to the transfer tape 323; and

two picking electric cylinders 331 oppositely disposed on the U-shaped frame 330;

wherein, the bottom of the picking electric cylinder 331 is provided with a material suction cup 332.

As an embodiment of the present invention, the material suction cup 332 may be a suction cup part commonly used in industrial production and transportation, which can actively pick up and release the die casting; therefore, the material suction cup 332 need not be described in detail in this application.

As an embodiment of the present invention, the material distributing top frame 31 is provided with a transferring slide rail 311 for slidably limiting the picking assembly 33;

the u-shaped frame 330 is slidably mounted on the transfer rail 311.

As an embodiment of the present invention, the ultrasonic transducer member includes two ultrasonic transducer assemblies 34 disposed on the same plane;

the ultrasonic transducer assembly 34 comprises an upper transducer plate 342 and a lower transducer plate 341; the upper transduction plate 342 and the lower transduction plate 341 are hinged by a hinge, and the upper transduction plate 342 is opened or closed by an opening and closing driving mechanism (not shown);

the upper transduction plate 342 and the lower transduction plate 341 have the same structure, and each of the upper transduction plate and the lower transduction plate includes a fixed plate, and ultrasonic transducers are mounted at four corners of the fixed plate.

As an embodiment of the invention, the die casting ultrasonic material distribution production line further comprises a recovery unit 4 arranged below the blanking port 300 and used for conveying the die casting waste material;

the recovery unit 4 comprises

A folding type conveying support frame 40 fixed on the operation ground;

a scrap conveying motor 41 fixed to the conveying support frame 40; and

the waste conveyance belt 42 is driven by the waste conveyance motor 41.

As an embodiment of the present invention, a method for manufacturing a semiconductor device,

a scrap transport drive roller 411 rotatably provided at one end of the transport support frame 40 and connected to an output shaft end of the scrap transport motor 41;

a scrap carrying driven roller 412 rotatably provided at the other end of the carrying support frame 40;

the turning part of the conveying support frame 40 is rotatably provided with a transfer limiting roller 413 and a transfer limiting wheel 414;

the scrap transport belt 42 is installed on the scrap transport driving roller 411 and the scrap transport driven roller 412, and a lower belt body thereof is bent and limited by the intermediate limiting roller 413, and an upper belt body thereof is bent and limited by the intermediate limiting wheel 414.

The working principle of the die casting ultrasonic material distribution production line is as follows:

during the feeding process of the die casting, the die casting is placed on the bearing plate 152, and the guiding motor 12 drives the overturning blanking member to move to a proper position relative to the material conveying belt 223 and then stops; the blanking motor 14 drives the bearing plate 152 to turn over until the die casting is placed on the material conveying belt 223;

the stepping motor 224 operates to deliver die castings step by step to the ultrasonic material distributing unit 3 through the material delivery belt 223; in the process, the fan continuously cools the die casting;

when the die casting moves to a position between the two positioning assemblies 23, the material conveying belt 223 is in a stop state; operating the two positioning assemblies 23 to adjust the position of the die casting through the positioning clamping plates 232;

the transfer motor 320 starts to operate, after the picking assembly 33 is moved to the position right above the die casting through the transfer belt 323, the picking electric cylinder 331 operates the material suction cup 332 downwards, and the die casting is picked up through the material suction cup 332;

the picking electric cylinder 331 operates the material suction cup 332 upwards and the transferring motor 320 operates reversely, and the die casting is placed at the position above the ultrasonic transducer component;

the opening and closing driving mechanism opens the ultrasonic transducer assembly 34, and the picking assembly 33 moves the die casting to a side position for standby after placing the die casting on the lower transducing plate 341;

the opening and closing driving mechanism closes the ultrasonic transducer assembly 34, starts the ultrasonic transducer to separate the die casting until the die casting is completely separated and stops running;

the opening and closing driving mechanism opens the ultrasonic transducer assembly 34 again, the picking assembly 33 moves to the position above the ultrasonic transducer component again, and the separated die casting is sucked away and guided to the side far away from the material conveying unit 2 for blanking;

die casting waste generated in the die casting separation process falls on the waste conveying belt 42 through the blanking port 300, the waste conveying motor 41 drives the waste conveying belt 42 to convey the die casting waste in the reverse conveying direction of the conveying unit 2, and the die casting waste is lifted to a certain height and then recovered.

While embodiments of the invention have been described above, it is not limited to the applications set forth in the description and the embodiments, which are fully applicable in various fields of endeavor to which the invention pertains, and further modifications may readily be made by those skilled in the art, it being understood that the invention is not limited to the details shown and described herein without departing from the general concept defined by the appended claims and their equivalents.

Claims (10)

1. The utility model provides a die casting ultrasonic wave divides material production line which characterized in that includes:

the die casting device comprises a loading unit (1) for taking and placing die castings, a conveying unit (2) for guiding the die castings and an ultrasonic wave distributing unit (3) for separating two connected die castings;

the feeding unit (1) is arranged at the input end part of the material conveying unit (2), and the ultrasonic wave material distribution unit (3) is arranged at the output end part of the material conveying unit (2);

the ultrasonic wave material distribution unit (3) comprises

A transfer robot member (32) capable of transferring the die cast; and

an ultrasonic transducer member capable of separating the die cast by ultrasonic waves.

2. The die casting ultrasonic distribution production line of claim 1, wherein the feeding unit (1) comprises

A loading chassis (10) fixed on the working ground;

the feeding top frame (11) is fixed on the feeding bottom frame (10);

the overturning and blanking component is movably arranged on the loading top frame (11) and is used for bearing the die casting; and

and the guiding and conveying component is fixedly arranged on the feeding top frame (11) and is used for moving the overturning and blanking component.

3. The die casting ultrasonic material distribution production line of claim 2, wherein the overturning blanking member comprises

A blanking base (13);

the blanking motor (14) is fixed on the blanking base (13);

the swing arm (141) is arranged at the output shaft end of the blanking motor (14), and a shaft sleeve (142) is arranged on the swing arm (141);

the overturning shaft (151) is rotatably arranged in the shaft sleeve (142), and a bearing plate (152) is fixed at one end of the overturning shaft (151);

the second support arm (162) is fixed at the other end of the overturning shaft (151), and a waist-shaped hole is formed in the second support arm (162); and

a first arm (161) having one end hinged to the blanking base (13) and the other end slidingly constrained in the kidney-shaped hole.

4. The die casting ultrasonic material distribution production line of claim 3, wherein the conveying member comprises

The guiding and conveying motor (12) is fixed on the feeding top frame (11);

the driving guide roller (121) is rotatably arranged on the feeding top frame (11), and the driving guide roller (121) is connected to the output shaft end of the guide motor (12);

a driven guide roller (122) which is rotatably arranged on the feeding top frame (11); and

a carry-on belt (123) mounted on the drive carry-on roller (121) and the driven carry-on roller (122);

the blanking base (13) is fixed on a belt body on one side of the guide belt (123).

5. Die casting ultrasonic material distribution production line according to claim 1, wherein the material conveying unit (2) comprises

A feeding chassis (20) fixed on the operation ground;

the material conveying top frame (21) is fixed on the material conveying bottom frame (20);

the material conveying component (22) is arranged on the material conveying top frame (21) and is used for guiding the die casting; and

the positioning component is arranged at the output tail end of the material conveying component (22) and is used for rectifying deviation and positioning the die casting;

a plurality of fan mounting frames (24) are arranged on the material conveying top frame (21) along the conveying direction of the material conveying component (22), and fans used for cooling the die castings are arranged on the fan mounting frames (24); the delivery member (22) comprises

A first feeding driven roller (221) and a second feeding driven roller (222) which are rotatably arranged on the feeding top frame (21);

a stepping motor (224) fixed on the material conveying top frame (21);

a material conveying driving roller (225) connected to the output shaft end of the stepping motor (224); and

and a material conveying belt (223) arranged on the first material conveying driven roller (221), the second material conveying driven roller (222) and the material conveying driving roller (225).

6. The die casting ultrasonic material distribution production line according to claim 5, wherein the positioning component comprises two oppositely arranged positioning assemblies (23), and the positioning assemblies (23) comprise

The positioning electric cylinder (231) is fixed on the material conveying top frame (21); and

and the positioning clamping plate (232) is connected to the telescopic shaft end of the positioning electric cylinder (231).

7. The die casting ultrasonic distribution production line of claim 1, wherein the ultrasonic distribution unit (3) further comprises

The die casting machine comprises a material distribution bottom frame (30), a material distribution mechanism and a material distribution mechanism, wherein a blanking port (300) for guiding die casting waste materials is formed in the material distribution bottom frame; and

a material distributing top frame (31) fixed on the material distributing bottom frame (30);

the material distribution top frame (31) is a portal frame, and the transfer manipulator component (32) is arranged on the material distribution top frame (31); the ultrasonic transducer component is arranged above the blanking port (300).

8. Die casting ultrasonic material distribution production line according to claim 7, characterized in that the transfer robot member (32) comprises

A transfer motor (320) fixed on the material distributing top frame (31);

a transfer belt (323) driven by the transfer motor (320); and

a picking assembly (33) fixed on one side of the belt body of the transfer belt (323);

the picking assembly (33) can pick and place the die casting; the pick-up assembly (33) comprises

A U-shaped frame (330) fixedly connected to the transfer tape (323); and

two picking electric cylinders (331) oppositely arranged on the U-shaped frame (330);

and a material sucking disc (332) is arranged at the bottom of the picking electric cylinder (331).

9. The die casting ultrasonic material distribution production line according to claim 1, wherein the ultrasonic transducer members comprise two ultrasonic transducer assemblies (34) arranged on the same plane;

the ultrasonic transducer assembly (34) comprises an upper transducer plate (342) and a lower transducer plate (341); the upper transduction plate (342) is hinged with the lower transduction plate (341) through a hinge, and the upper transduction plate (342) is opened or closed through an opening and closing driving mechanism;

the upper transduction plate (342) and the lower transduction plate (341) are identical in structure and comprise fixed plates, and ultrasonic transducers are mounted at four corners of each fixed plate.

10. The die casting ultrasonic distribution production line according to claim 7, further comprising a recovery unit (4) arranged below the blanking port (300) and used for conveying the die casting waste; the recovery unit (4) comprises a folding type conveying support frame (40) which is fixed on the operation ground; a scrap transport motor (41) fixed to the transport support frame (40); and a scrap carrying belt (42) driven to operate by the scrap carrying motor (41).

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