CN219402659U

CN219402659U - Sprue removing device for socket part

Info

Publication number: CN219402659U
Application number: CN202122307010.8U
Authority: CN
Inventors: 王伟; 柳林
Original assignee: Tianjin Dahe Electric Appliance Industrial Co ltd
Current assignee: Tianjin Dahe Electric Appliance Industrial Co ltd
Priority date: 2021-09-23
Filing date: 2021-09-23
Publication date: 2023-07-25
Anticipated expiration: 2031-09-23

Abstract

The utility model provides a pouring gate removing device for socket parts, which is characterized by comprising an equipment frame body, a vibrating disc, a linear feeder, an electric control cabinet and a processing mechanism, wherein the electric control cabinet is arranged at the left end of the equipment frame body, the processing mechanism is arranged at the top of the electric control cabinet, the vibrating disc is arranged at the upper end of the equipment frame body, the linear feeder is arranged between the vibrating disc and the processing mechanism, the left end of the linear feeder is connected with the processing mechanism, and the right end of the linear feeder is connected with the vibrating disc.

Description

Sprue removing device for socket part

Technical Field

The utility model relates to the technical field of socket part machining, in particular to a sprue removing device for socket parts.

Background

The socket is a socket with one or more circuit wires capable of being inserted, various wires can be inserted through the socket, so that the socket is convenient to be connected with other circuits, the connection and disconnection of the circuits are controlled through the connection and disconnection between the wires and copper pieces, and an insert part is usually arranged inside the socket of the socket and used for fixing the parts inside the socket and the wires;

most of the prior art inserts are produced in batch through stamping forming, in the stamping production process, small gaps are formed between some workpieces and a die due to size deviation, so that the workpiece is dislocated with the cutter in the stamping forming process, the surface of the formed inserts is left with pouring gates and flash burrs, the direct assembly of the inserts with burrs can affect the product quality, the assembly can be carried out only by removing the excessive pouring gate residues and flash burrs, but the burr processing method in a factory is usually that an operator uses a file to remove burrs manually, the automation degree of the working mode is low, the manual removing speed is low, and the efficiency is quite low.

Disclosure of Invention

According to the technical problems, the utility model provides a pouring gate removing device for socket parts, which is characterized by comprising an equipment frame body, a vibration disc, a linear feeder, an electric control cabinet and a processing mechanism, wherein the electric control cabinet is arranged at the left end of the equipment frame body, the processing mechanism is arranged at the top of the electric control cabinet, the vibration disc is arranged at the upper end of the equipment frame body, the linear feeder is arranged between the vibration disc and the processing mechanism, the left end of the linear feeder is connected with the processing mechanism, and the right end of the linear feeder is connected with the vibration disc;

the processing mechanism consists of a bottom plate, a control panel, a stirring structure and a deburring structure, wherein the bottom plate is arranged at the upper end of the electric control cabinet through bolts, the control panel is arranged at the front end of the top of the bottom plate, the deburring structure is connected with the left end of the linear feeding track, the stirring structure is arranged at the rear end of the deburring structure, and the deburring structure and the stirring structure are respectively arranged at the top of the bottom plate;

the deburring structure comprises a bracket, a blanking slide way, a sensor, a product rail, a front deburring cylinder bracket, a front deburring cylinder lever, a front deburring cylinder connecting block, a front deburring cutter, a side deburring cylinder bracket, a deburring press plate, a side deburring cylinder lever, a side deburring cylinder connecting block, a side deburring cutter and a dust collection hole, wherein the bracket is arranged at the upper end of the bottom plate through bolts, the product rail is arranged at the upper end of the bracket, the right end of the product rail is connected with a linear feeder, the left end of the product rail is connected with the blanking slide way, the front and rear side walls of the product rail are respectively provided with the sensor, the sensor is connected with an external PLC controller, the front deburring cylinder bracket is provided with the front deburring cylinder connecting block through bolts, the front deburring cylinder is connected with the external PLC controller, the front deburring cylinder is connected with the side deburring cylinder bottom of the side deburring cutter, the front deburring cylinder connecting block is connected with the front deburring cylinder connecting block through bolts, the side deburring cylinder connecting block is connected with the side deburring cylinder connecting block, the front deburring cylinder connecting block is connected with the side connecting block, and the front deburring cylinder connecting block is connected with the side deburring cylinder connecting block through the side face, the front deburring cylinder connecting block is connected with the side connecting block, and the front deburring cylinder connecting block is connected with the side of the side deburring cylinder connecting block through the side of the side deburring cylinder connecting block. A dust collection block is arranged at the lower end of the product rail;

the material stirring structure comprises a material structure supporting plate, a material stirring and traversing structure bottom plate, a material stirring and traversing linear guide rail, a material stirring and traversing cylinder, a material stirring and traversing block, a material stirring and traversing slide block, a material stirring and traversing plate, a material stirring and traversing cylinder lever, a traversing floating joint, a material stirring and traversing plate, a material stirring fork, a material stirring and traversing slide block, a material stirring and traversing cylinder lever, a longitudinal and traversing floating joint and a material stirring and traversing cylinder connecting block, wherein the upper end of the bottom plate is provided with the material stirring and traversing structure supporting plate, the front end of the material stirring and traversing structure supporting plate is provided with the material stirring and traversing bottom plate through a bolt, the front end of the material stirring and traversing structure supporting plate is provided with the material stirring and traversing linear guide rail, the rear end of the material stirring and traversing structure supporting plate is provided with the material stirring and traversing cylinder, the material stirring and traversing cylinder is connected with an external PLC controller, the right end of the material stirring and traversing cylinder lever is connected with the traversing floating joint, the right end of the shifting and traversing cylinder lever is connected with a shifting and traversing cylinder connecting block, a through groove is formed in the shifting structure supporting plate, the front end of the shifting and traversing cylinder connecting block penetrates through the through groove and extends to the front side of the shifting structure supporting plate to be connected with a shifting and traversing plate, the rear end of the shifting and traversing plate is provided with a shifting and traversing slide block through a bolt, the shifting and traversing slide block is in sliding connection with a shifting and traversing guide rail, the upper end of the shifting and traversing plate is provided with a shifting and traversing cylinder through a bolt, the shifting and traversing cylinder is connected with an external PLC controller, the lower end of the shifting and traversing cylinder is connected with a shifting and traversing cylinder lever, the lower end of the shifting and traversing cylinder lever is connected with a longitudinal and traversing floating joint, the lower end of the longitudinal and traversing floating joint is connected with a shifting and traversing plate, the rear end of the shifting and traversing plate is provided with a shifting and traversing slide block through a bolt, the front end of the shifting transverse moving plate is provided with a shifting transverse moving block through a bolt, the shifting transverse moving block is in sliding connection with a shifting longitudinal moving sliding block, and the front end of the shifting longitudinal moving plate is provided with a shifting fork through a bolt.

The beneficial effects of the utility model are as follows: according to the utility model, through arranging the equipment frame body, the vibration disc, the linear feeder, the electric control cabinet and the processing mechanism, the utility model replaces manual completion of removing redundant gate residues and flash burrs, the efficiency is improved, the product is put into the vibration disc, the product is arranged and output to the linear feeder by the vibration of the vibration disc and enters the linear feeder track to walk to the deburring mechanism, after the deburring mechanism carries out deburring operation on the product insert, the product insert slides down along the blanking slideway to a box which is placed under the deburring mechanism in advance, the deburring mechanism is divided into two parts of the deburring mechanism, when the product insert enters the product track, each product is driven by the deburring mechanism to move forwards in one step, the deburring mechanism moves forward to remove burrs of the current product after each movement, after the product insert enters the product track, the sensor senses the position, the PLC sends an instruction, the deburring longitudinal moving cylinder rod moves to extend out of the floating joint and the deburring longitudinal plate, the deburring fork moves downwards, the product insert is clamped along the deburring slideway, then the deburring mechanism moves the sliding cylinder rod to move leftwards, the connecting block moves along with the front of the deburring cylinder, the deburring cylinder rod moves the front of the deburring cylinder rod moves along with the deburring cylinder, the front of the connecting block moves the deburring cylinder rod moves along with the front of the deburring cylinder, and the deburring cylinder rod moves the front of the deburring cylinder rod moves along the front of the connecting block, and the deburring cylinder moves the deburring cylinder rod moves along the front side of the deburring cylinder rod to move along the front side of the deburring cylinder rod, the cylinder rod of the side-surface deburring cylinder stretches out to drive the connecting block of the side-surface deburring cylinder and the side-surface deburring cutter to move forward to remove side-surface burrs of a product, the design is high in automation degree, manual work is completely replaced, the production speed is high, and the production efficiency is greatly improved.

Drawings

FIG. 1 is an overall view of the present utility model;

FIG. 2 is a diagram of the main structure of the present utility model;

FIG. 3 is a front view of a kick-out structure in a main structure of the present utility model;

FIG. 4 is a rear view of a kick-out structure in a main structure of the present utility model;

FIG. 5 is a front view of a deburring structure in the main structure of the present utility model;

fig. 6 is a side view of a deburring structure in the main structure of the present utility model.

The following figures are shown: 1-equipment frame, 2-vibration disc, 3-linear feeder, 4-blanking slideway, 5-electric control cabinet, 6-processing mechanism, 31-linear feeder rail, 61-bottom plate, 62-control panel, 63-material shifting mechanism, 6301-material shifting structure supporting plate, 6302-material shifting structure bottom plate, 6303-material shifting linear guide rail, 6304-material shifting and traversing cylinder, 6305-material shifting and traversing block, 6306-material shifting and traversing slide block, 6307-material shifting and traversing plate, 6308-material shifting and longitudinal-moving cylinder, 6309-material shifting and longitudinal-moving cylinder lever, 6310-traverse floating joint, 6311-material shifting and longitudinal-moving plate, 6312-material shifting fork, 6313-material shifting and longitudinal-moving slide block, 6314-material shifting and traversing cylinder lever 6315-vertical movement floating joint, 6316-shifting transverse movement cylinder connecting block, 64-deburring mechanism, 6401-support, 6402-sensor, 6403-product rail, 6404-front burr removing cylinder, 6405-front burr removing cylinder support, 6406-front burr removing cylinder lever, 6407-front burr removing cylinder connecting block, 6408-front burr removing cutter, 6409-side burr removing cylinder, 6410-side burr removing cylinder support, 6411-burr removing press plate, 6412-side burr removing cylinder lever, 6413-side burr removing cylinder connecting block, 6414-side burr removing cutter, 6415-dust collecting hole, 7-product insert.

Detailed Description

Examples

The utility model provides a pouring gate removing device for socket parts, which is characterized by comprising an equipment frame body 1, a vibration disc 2, a linear feeder 3, an electric control cabinet 5 and a processing mechanism 6, wherein the electric control cabinet 5 is arranged at the left end of the equipment frame body 1, the processing mechanism 6 is arranged at the top of the electric control cabinet 5, the vibration disc 2 is arranged at the upper end of the equipment frame body 1, the linear feeder 3 is arranged between the vibration disc 2 and the processing mechanism 6, the left end of the linear feeder 3 is connected with the processing mechanism 6, and the right end of the linear feeder 3 is connected with the vibration disc 2;

the processing mechanism 6 consists of a bottom plate 61, a control panel 62, a stirring structure 63 and a deburring structure 64, wherein the bottom plate 61 is arranged at the upper end of the electric control cabinet 5 through bolts, the control panel 62 is arranged at the front end of the top of the bottom plate 61, the deburring structure 64 is connected to the left end of the linear feeding rail, the stirring structure 63 is arranged at the rear end of the deburring structure 64, and the deburring structure 64 and the stirring structure 63 are respectively arranged at the top of the bottom plate 61;

the deburring structure 64 consists of a support 6401, a blanking slide way 4, a sensor 6402, a product rail 6403, a front deburring cylinder 6404, a front deburring cylinder support 6405, a front deburring cylinder lever 6406, a front deburring cylinder connecting block 6407, a front deburring cutter 6408, a side deburring cylinder 6409, a side deburring cylinder support 64010, a deburring press plate 6411, a side deburring cylinder lever 6412, a side deburring cylinder connecting block 6413, a side deburring cutter 6414 and a dust collection block 6415, the support 6401 is arranged at the upper end of the bottom plate 61 through bolts, the product rail 6403 is arranged at the upper end of the support 6401, the right end of the product rail is connected with a linear feeder 3, the left end of the product rail is connected with the blanking slide way, the front and rear side walls of the product rail 6403 are respectively provided with the sensor 6402, the sensor 6402 is connected with an external PLC, the product rail upper end is provided with a deburring cylinder support 6401, the upper end of the deburring cylinder support 6405 is provided with a deburring cylinder 6404 through a bolt, the deburring cylinder is connected with an external PLC, the bottom of the deburring cylinder 6404 is connected with a deburring cylinder lever 6406, the bottom of the deburring cylinder lever 6406 is connected with a deburring cylinder connecting block 6407, the bottom of the deburring cylinder connecting block 6407 is connected with a deburring pressure plate 6411, the bottom of the deburring pressure plate 6411 is provided with a deburring cutter 6408, the front end of the guide rail is provided with a deburring cylinder support 64010, the upper end of the deburring cylinder support 64010 is provided with a deburring cylinder 6409 through a bolt, the deburring cylinder is connected with the external PLC, the rear end of the deburring cylinder 6409 is connected with a deburring cylinder lever 6412, the rear end of the deburring cylinder lever 6412 is connected with a deburring cylinder connecting block, the rear end of the deburring cylinder connecting block is provided with a deburring cutter 6414, and the lower end of the product rail is provided with a dust collection block;

the material stirring structure 63 is composed of a material structure supporting plate, a material stirring and transversely moving structure bottom plate 630261, a material stirring linear guide rail 6303, a material stirring and transversely moving cylinder 6304, a material stirring and transversely moving block 6305, a material stirring and transversely moving sliding block 6306, a material stirring and transversely moving plate 6307, a material stirring and longitudinally moving cylinder 6308 lever 6309, a transversely moving floating joint 6310, a material stirring and longitudinally moving plate 6311, a material stirring and longitudinally moving fork 6312, a material stirring and longitudinally moving sliding block 6313, a material stirring and transversely moving cylinder lever 6314, a longitudinally moving floating joint 6315 and a material stirring and transversely moving cylinder connecting block 6316, the upper end of the bottom plate 61 is provided with a material stirring and transversely moving structure 63 supporting plate 6301, the front end of the material stirring and transversely moving structure supporting plate is provided with a material stirring and transversely moving bottom plate 61 through bolts, the material stirring and transversely moving linear guide rail 6303 is arranged at the front end of the material stirring and transversely moving bottom plate 61, the material stirring and transversely moving cylinder 6301 is provided with a material stirring and transversely moving cylinder 6304 at the rear end thereof, the material stirring and transversely moving cylinder 6304 is connected with an external PLC, the right end of the shifting and traversing cylinder 6304 is connected with a shifting and traversing cylinder lever 6314, the right end of the shifting and traversing cylinder lever 6314 is connected with a traversing floating joint 6310, the right end of the shifting and traversing cylinder lever 6314 is connected with a shifting and traversing cylinder connecting block 6316, a through groove is formed in the supporting plate 6301 of the shifting and traversing structure 63, the front end of the shifting and traversing cylinder connecting block 6316 extends to the front side of the supporting plate 6301 of the shifting and traversing structure 63 through the through groove to be connected with a shifting and traversing plate 6307, the rear end of the shifting and traversing plate 6307 is provided with a shifting and traversing slide block 6306 through a bolt, the shifting and traversing slide block 6306 is in sliding connection with a shifting and traversing guide rail, the upper end of the shifting and traversing plate 6307 is provided with a shifting and traversing cylinder 6308 through a bolt, the shifting and traversing cylinder 6308 is connected with an external PLC controller, the lower end of the shifting and traversing cylinder 6308 is connected with a shifting and traversing cylinder 6309, the lower end of the shifting vertical movement air cylinder 6308 lever 6309 is connected with a vertical movement floating joint 6315, the lower end of the vertical movement floating joint is connected with a shifting vertical movement plate 6311, the rear end of the shifting vertical movement plate 6311 is provided with a shifting vertical movement sliding block 6313 through a bolt, the front end of the shifting horizontal movement plate 6307 is provided with a shifting horizontal movement block 6305 through a bolt, the shifting horizontal movement block 6305 is in sliding connection with the shifting vertical movement sliding block 6313, and the front end of the shifting vertical movement plate 6311 is provided with a shifting fork 6312 through a bolt.

Examples

When the utility model is used, firstly, after the power is turned on, the product insert 7 is put into the vibration disc 2 through the control panel 62 on the electric control cabinet 5 in response to the button starting equipment, products are arranged and output to the linear feeder 3 by vibration of the vibration disc and enter the linear feeder 3 track to the deburring structure 64, after the deburring operation is carried out on the product insert 7 by the deburring structure 64, the product insert 7 slides down into a box which is placed under the box in advance along the blanking slideway 4, the deburring structure 64 is divided into two parts of the stirring structure 63 deburring structure 64, when the product insert 7 enters the product track 6403, each product is driven by the stirring structure 63 to move forwards step by step, the deburring structure 64 acts to remove burrs of the current product after each movement, when the product insert 7 enters the product track 6403, the sensor 6402 senses that the product insert 7 is in place, the PLC sends out instructions, the shifting cylinder 6308 moves the shifting cylinder 6308 to extend to drive the floating joint and the shifting plate 6311, the shifting fork 6312 to move downwards, the notch of the shifting fork 6312 clamps the product slug 7, then the shifting cylinder 6304 moves, the shifting cylinder 6304 cylinder drives the floating joint and the shifting cylinder connecting block 6316, and the shifting cylinder 6308 shifts the shifting cylinder 6308 cylinder rod to float the joint shifting plate 6311, the shifting fork 6312 shifts the sliding block 6313 and the pressed product slug 7 to move leftwards together, after the position is reached, the deburring structure 64 moves, the front deburring cylinder 6404 moves the front deburring cylinder 6404 cylinder rod to extend to drive the front deburring cylinder connecting block 6407 and the front deburring cutter 6408 to move downwards together, insert into the product slug 7 to remove the front burr, at the same time, the side deburring cylinder 6409 moves, the side burr removing cylinder 6409 cylinder rod stretches out to drive the side burr removing cylinder connecting block 6413 and the side burr removing cutter 6414 to move forward to remove side burrs of a product, residues generated by the side burr removing cylinder are sucked away by a dust collector through the dust collecting block 6415, after the burrs are removed, the shifting longitudinal moving cylinder 6308 returns to the original position, the cylinder rod of the shifting longitudinal moving cylinder 6308 retracts to drive the floating joint, the shifting longitudinal moving plate 6311 and the shifting fork 6312 to move upwards, a notch of the shifting fork 6312 is lifted, then the shifting transverse moving cylinder 6304 retracts, the cylinder rod of the shifting transverse moving cylinder 6304 drives the floating joint, the shifting transverse moving cylinder connecting block 6316 and the shifting longitudinal moving plate 6311 and the shifting longitudinal moving sliding block 6313 of the shifting longitudinal moving cylinder 6308 cylinder rod of the shifting longitudinal moving cylinder 6308 move rightward together, and return to the original position, and one cycle is completed.

The foregoing has shown and described the basic principles and main features of the present utility model and the advantages of the present utility model. Various components mentioned in the present utility model are common in the art, and it should be understood by those skilled in the art that the present utility model is not limited by the above embodiments, and the above embodiments and descriptions are merely illustrative of the principles of the present utility model, and various changes and modifications can be made in the present utility model without departing from the spirit and scope of the utility model, which is defined in the claims. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims

1. A pouring gate removing device for socket parts is characterized in that: the device comprises a device frame body, a vibration disc, a linear feeder, an electric control cabinet and a processing mechanism, wherein the electric control cabinet is arranged at the left end of the device frame body, the processing mechanism is arranged at the top of the electric control cabinet, the vibration disc is arranged at the upper end of the device frame body, the linear feeder is arranged between the vibration disc and the processing mechanism, the left end of the linear feeder is connected with the processing mechanism, and the right end of the linear feeder is connected with the vibration disc;

the processing mechanism consists of a bottom plate, a control panel, a stirring structure and a deburring structure, wherein the bottom plate is arranged at the upper end of the electric control cabinet through bolts, the control panel is arranged at the front end of the top of the bottom plate, the deburring structure and the stirring structure are arranged at the top of the bottom plate, the stirring structure is arranged at the rear end of the deburring structure, the deburring structure is connected with the left end of the linear feeding rail,

the deburring structure consists of a bracket, a blanking slideway, a sensor, a product rail, a front deburring cylinder bracket, a front deburring cylinder lever, a front deburring cylinder connecting block, a front deburring cutter, a side deburring cylinder bracket, a deburring pressing plate, a side deburring cylinder lever, a side deburring cylinder connecting block, a side deburring cutter and a dust collection hole, wherein the bracket is arranged at the upper end of the bottom plate through bolts, the product rail is arranged at the upper end of the bracket, the right end of the product rail is connected with a linear feeder, the blanking slideway is connected at the left end of the product rail, the sensors are respectively arranged at the front side wall and the rear side wall of the product rail, the deburring cylinder bracket is arranged at the upper end of the product rail, the front burr removing cylinder comprises a front burr removing cylinder support, a front burr removing cylinder lever, a front burr removing cylinder connecting block, a burr removing pressing plate, a front burr removing cutter, a guide rail front end, a side burr removing cylinder support, a side burr removing cylinder lever and a side burr removing cylinder connecting block, wherein the front burr removing cylinder is mounted at the upper end of the front burr removing cylinder support through bolts;

the material stirring structure comprises a material structure supporting plate, a material stirring and traversing structure bottom plate, a material stirring and traversing linear guide rail, a material stirring and traversing cylinder, a material stirring and traversing block, a material stirring and traversing slide block, a material stirring and traversing plate, a material stirring and traversing cylinder lever, a traversing floating joint, a material stirring and traversing plate, a material stirring fork, a material stirring and traversing slide block, a material stirring and traversing cylinder lever, a longitudinal-shifting floating joint and a material stirring and traversing cylinder connecting block, wherein the upper end of the bottom plate is provided with the material stirring and traversing structure supporting plate, the front end of the material stirring and traversing structure supporting plate is provided with the material stirring and traversing bottom plate through a bolt, the front end of the material stirring and traversing bottom plate is provided with the material stirring and traversing linear guide rail, the rear end of the material stirring and traversing structure supporting plate is provided with the material stirring and traversing cylinder, the right end of the material stirring and traversing cylinder lever is connected with the traversing floating joint, the right end of the shifting and traversing cylinder lever is connected with a shifting and traversing cylinder connecting block, a through groove is formed in the shifting structure supporting plate, the front end of the shifting and traversing cylinder connecting block penetrates through the through groove and extends to the front side of the shifting structure supporting plate to be connected with a shifting and traversing plate, the rear end of the shifting and traversing plate is provided with a shifting and traversing slide block through bolts, the shifting and traversing slide block is in sliding connection with a shifting and traversing guide rail, the upper end of the shifting and traversing plate is provided with a shifting and traversing cylinder through bolts, the lower end of the shifting and traversing cylinder is connected with a shifting and traversing cylinder lever, the lower end of the shifting and traversing cylinder lever is connected with a longitudinal and traversing floating joint, the lower end of the longitudinal and traversing floating joint is connected with a shifting and traversing plate, the rear end of the shifting and traversing plate is provided with a shifting and traversing slide block through bolts, the shifting and traversing block is in sliding connection with the shifting and traversing slide block through bolts, the front end of the shifting longitudinal moving plate is provided with a shifting fork through a bolt.

2. The gate removal device for socket parts according to claim 1, wherein: the sensor is connected with an external PLC controller.

3. The gate removal device for socket parts according to claim 1, wherein: and the material shifting and transversely moving cylinder is connected with an external PLC controller.

4. The gate removal device for socket parts according to claim 1, wherein: the material shifting longitudinal moving cylinder is connected with an external PLC controller.

5. The gate removal device for socket parts according to claim 1, wherein: the front deburring cylinder is connected with an external PLC controller.

6. The gate removal device for socket parts according to claim 1, wherein: the side deburring cylinder is connected with an external PLC.