CN113286509B

CN113286509B - Method for ammeter manufacturing device

Info

Publication number: CN113286509B
Application number: CN202110674780.8A
Authority: CN
Inventors: 刘栋
Original assignee: Guangdong Boli Technology Co ltd
Current assignee: Guangdong Boli Technology Co ltd
Priority date: 2021-06-18
Filing date: 2021-06-18
Publication date: 2023-08-15
Anticipated expiration: 2041-06-18
Also published as: CN113286509A

Abstract

The invention relates to the field of ammeter manufacturing and processing, in particular to a method for an ammeter manufacturing device, which comprises the following steps: s1: placing a plurality of element discs on a feeding structure, and driving a single element disc to move to the feeding structure through the operation of the feeding structure; s2: the feeding structure moves one end of the element disc onto the transport structure; s3: the transportation structure is used for transporting one end of the element disc, packaging on the element disc is disassembled in the transportation process, and other parts of the electronic element transportation device in the packaging are subjected to subsequent processing. The method for the ammeter manufacturing device relates to an ammeter processing device, and comprises a feeding structure, an element disc, a feeding structure and a conveying structure.

Description

Method for ammeter manufacturing device

Technical Field

The invention relates to the field of ammeter manufacturing and processing, in particular to a method for an ammeter manufacturing device.

Background

The common ammeter manufacturing installation detects the detection structure through after the surface of circuit board is paintd the soldering tin cream with the circuit board transportation and looks over whether to paint evenly the back with the circuit board transportation and pass through the processing structure with different electronic component and insert on the circuit board on the processing structure, need the workman to transport the component dish of encapsulation with electronic component to put on the feed structure after electronic component is used up, again by feed structure transportation electronic component for processing structure supplement, the manual replacement is equipped with the component time of taking a fee laboriously extravagant manpower resource.

Disclosure of Invention

The object of the present invention is to provide a method for an electricity meter manufacturing apparatus that allows quick replacement of a component tray containing electronic components.

The aim of the invention is achieved by the following technical scheme:

a method for an electricity meter manufacturing apparatus, the method comprising the steps of:

s1: placing a plurality of element discs on a feeding structure, and driving a single element disc to move to the feeding structure through the operation of the feeding structure;

s2: the feeding structure moves one end of the element disc onto the transport structure;

s3: the transportation structure is used for transporting one end of the element disc, packaging on the element disc is disassembled in the transportation process, and other parts of the electronic element transportation device in the packaging are subjected to subsequent processing.

The utility model provides an ammeter processingequipment, includes feed structure, element dish, feed structure and transport structure, the element dish is provided with a plurality ofly, a plurality of element dish sliding connection on feed structure, and feed structure is with single element dish transport to the feed structure on, and the element dish rotates with the feed structure to be connected, and in the transport structure was transported to the one end of element dish to the feed structure, carries out split transportation processing to the element dish through transport structure.

The feeding structure comprises a slide way, a control wheel, a sliding block A and a baffle B, wherein the slide way is rotationally connected with the control wheel, threads are arranged on the control wheel, the sliding block A is in threaded connection with the control wheel, and the baffle B is fixedly connected on the sliding block A.

The feeding structure further comprises a sliding block B and a positioning disc, the sliding block B is connected to the control wheel in a sliding mode, the positioning disc is connected to the sliding block B in a rotating mode, a motor is connected to the positioning disc, the positioning plate is provided with a positioning block, the positioning block further comprises a conveying channel, and the conveying channel is fixedly connected to the slideway.

The feeding structure comprises a base, a connecting rod, a screw rod, a pushing wheel and a baffle A, wherein the base is rotationally connected with the connecting rod, the base is fixedly connected on a slideway, the screw rod is rotationally connected with the connecting rod, a motor is connected onto the screw rod, the baffle A is slidingly connected onto the screw rod, the pushing wheel is in threaded connection onto the screw rod, and the pushing wheel is slidingly connected onto the connecting rod.

The transportation structure comprises a support, a guide table, a connecting frame, a limiting slide way, rolling wheels, driving wheels, pasting wheels and driven wheels, wherein the support is connected with the guide table in a sliding manner, a pressure spring is sleeved on the guide table, the connecting frame is fixedly connected to the support, the limiting slide way is fixedly connected to the connecting frame, the rolling wheels are rotatably connected to the connecting frame, the rolling wheels are provided with a plurality of rolling wheels which are rotatably connected to the connecting frame, the driving wheels are provided with two driving wheels, the two driving wheels are fixedly connected to the two rolling wheels respectively, the pasting wheels are provided with two pasting wheels, the two pasting wheels are rotatably connected to two ends of the connecting frame respectively, the driven wheels are provided with two driving wheels, and the two driven wheels are fixedly connected to the two pasting wheels respectively.

The method for manufacturing the device for the ammeter has the beneficial effects that:

according to the method for the ammeter manufacturing device, the plurality of element trays can be conveyed through the feeding structure, when the element trays are conveyed to the feeding structure, the feeding structure clamps and rotates the element trays to enable the element trays to rotate on the surface of the conveying structure, one end of the element trays is lifted and conveyed by the conveying structure, and meanwhile, the packaging of the element trays is removed in the conveying process, so that electronic elements in the element trays flow out.

Drawings

The invention will be described in further detail with reference to the accompanying drawings and detailed description.

FIG. 1 is a schematic flow diagram of a method;

FIG. 2 is a schematic diagram of a feed structure;

FIG. 3 is a schematic diagram of a feed structure;

FIG. 4 is a schematic illustration of a portion of a feed structure;

FIG. 5 is a partial schematic diagram of a feed structure II;

FIG. 6 is a schematic view of a transport structure;

FIG. 7 is a schematic diagram of an electricity meter;

FIG. 8 is a partial schematic view of a transport structure;

FIG. 9 is a schematic illustration of the connection of the feed structure to the transport structure;

FIG. 10 is a schematic diagram of the connection of the feed structure to the feed structure.

In the figure:

a base 11;

a connecting rod 12;

a lead screw 13;

a push wheel 14;

a baffle A15;

a conveying path 21;

a slideway 22;

a control wheel 23;

a slider a24;

a baffle B25;

a slider B26;

a positioning plate 27;

a bracket 31;

a guide table 32;

a connection frame 33;

a limit slide 34;

a rolling wheel 35;

a driving wheel 36;

an adhesive wheel 37;

driven wheel 38;

a component tray 4;

an ammeter box 51;

a connecting rod 52;

a positioning slider 53;

a positioning frame 54.

Detailed Description

s1: placing a plurality of element trays 4 on a feeding structure, and driving a single element tray 4 to move to the feeding structure through the operation of the feeding structure;

s2: the feeding structure moves one end of the component tray 4 onto the transport structure;

s3: the transportation structure transports one end of the component tray 4, and the package on the component tray 4 is disassembled during transportation, and other parts of the electronic component transportation device in the package are subjected to subsequent processing.

Ammeter manufacturing installation, including feed structure, element dish 4, feed structure and transport structure, element dish 4 is provided with a plurality ofly, and a plurality of element dish 4 sliding connection are on feed structure, and feed structure carries single element dish 4 to feed structure on, and element dish 4 rotates with feed structure to be connected, and in the transport structure was transported to the one end of element dish 4 with the feed structure, carries out split transportation processing to element dish 4 through transport structure.

Referring to fig. 1-10, a method for an electricity meter manufacturing apparatus, which mainly solves the technical problems of replacing an exhausted component disc, further,

the electronic components are packaged in the component disc 4, the component disc 4 is wound on the die to form a disc shape, the component disc 4 is provided with a plurality of component discs 4, the component discs 4 are all in sliding connection on the feeding structure, the component discs 4 are conveyed to the feeding structure one by one through the operation of the feeding structure, the component discs 4 are conveyed to the conveying structure after being clamped and fixed by the feeding structure, one end of the component disc 4 is detached by the conveying structure, one end of the component disc 4 is enabled to move on the conveying structure, the component disc 4 is reversely rotated to be unwound, when one end of the component disc 4 is moved to the rear end of the conveying structure, the electronic components in the component disc 4 are enabled to flow out through the packaging detachment of the conveying structure, and the electronic components of different types are different in size, so that the device can be suitable for automatic replacement of the component discs 4 of different types, time cost waste and manpower resource waste caused by manually replacing the component disc 4 are reduced, and the operation efficiency of the device is improved.

Referring to fig. 3-5 and 9-10, a method for an electricity meter manufacturing apparatus, further, solving the problem of automatic replacement of the component tray 4,

the control wheel 23 is rotationally connected to the slide 22, the slide 22 is internally provided with the slide block A24 in a friction sliding manner, the slide block A24 is welded with the baffle B25, threads are cut on the control wheel 23, the slide block A24 is in threaded connection with the control wheel 23, when the control wheel 23 is rotated, the threaded rotary slide block A24 on the control wheel 23 is rotationally connected to the slide 22 so as to drive the slide block A24 to move, the slide block A24 moves to drive the baffle B25 on the slide block A24 to move, and when the element disc 4 moves to the upper side of the slide 22, the control wheel 23 is rotated to drive the slide block A24 to move so as to drive the baffle B25 to further drive the element disc 4 to move, and the element disc 4 is moved to other parts of the feeding structure.

Referring to fig. 3-5 and 9-10, a method for an electricity meter manufacturing apparatus, further, solving the problem of automatic replacement of the component tray 4

The slider B26 is slidably connected to the control wheel 23, the slider B26 is rotatably connected with a positioning disk 27, a positioning block is welded on the positioning disk 27, the positioning block is overlapped with the center of the element disk 4, so that the element disk 4 can be driven to rotate when the positioning disk 27 rotates, a motor is connected to the positioning disk 27, and the positioning disk 27 can be driven to rotate through the motor, so that the element disk 4 is driven to rotate.

The sliding block B26 is fixedly connected with a pressure spring, the other end of the pressure spring is fixedly connected to one end of the slideway 22, when the control wheel 23 rotates to drive the sliding block A24 to move so as to drive the baffle B25 to move, the baffle B25 pushes the element disc 4 to move, so that the element disc 4 drives the positioning disc 27 to move, the positioning disc 27 rotates to enable a positioning block on the positioning disc 27 to be overlapped with the element disc 4, the sliding block A24 continuously moves until the element disc 4 is contacted with a transport structure and then stops, the pressure spring is contracted by the movement of the sliding block B26, a reverse force is generated by the contraction of the pressure spring, and when the reverse rotation control wheel 23 drives the sliding block A24 to move after all the element discs 4 on the positioning disc 27 are transported, the sliding block B26 loses the constraint of the pressure spring to push the sliding block B26 to move back to the initial position to wait for processing of a new element disc 4.

The transporting way 21 is welded on the slideway 22, the element disc 4 slides onto one end of the transporting way from the feeding structure, and the element disc 4 is driven to rotate onto the other end of the transporting way 21 by the height difference of the transporting way 21, so that the element disc 4 can be overlapped with the positioning disc 27, and the feeding structure can process the element disc 4.

Referring to fig. 2 and 10, a method for an electricity meter manufacturing apparatus, further, solving the problem of manually transporting the component tray 4,

the base 11 is fixedly connected to the slideway 22, the base 11 is connected with the connecting rod 12 in a damping rotation manner, the connecting rod 12 is connected with the lead screw 13 in a rotation manner, the element disc 4 is connected to the lead screw 13 in a sliding manner, one end of the lead screw 13 is connected with a motor, the rotation of the lead screw 13 is controlled by the motor, the connecting rod 12 is rotated to enable the lead screw 13 not to be opposite to the transportation way 21, so that a plurality of element discs 4 are placed on the lead screw 13, and the connecting rod 12 is rotated to enable the connecting rod 12 to be contacted with one end of the transportation way 21, so that the element discs 4 sliding from the lead screw 13 can be adjusted into one end of the transportation way 21.

the push wheel 14 is in threaded connection with the screw rod 13, the push wheel 14 is in sliding connection with the connecting rod 12, when the screw rod 13 rotates, the push wheel 14 is limited by the connecting rod 12 and cannot rotate along with the rotation of the screw rod 13, so that the push wheel 14 is in sliding connection with the screw rod 13, the baffle A15 is in sliding connection with the screw rod 13, when a plurality of element discs 4 are placed on the screw rod 13, the screw rod 13 is driven to rotate through a rotating motor, the screw rod 13 rotates to drive the push wheel 14 to move so as to drive the baffle A15 to move, the baffle A15 drives the element discs 4 on the screw rod 13 to push the element discs 4 to drop onto the transportation path 21 one by one, when the screw rod 13 does not have the element discs 4, the screw rod 13 is reversely rotated to drive the push wheel 14 to return to the initial position, and a worker places the element discs 4 on the screw rod 13 so as to push the baffle A15 to return to the initial position.

Referring to fig. 6 and 8-9, a method for an electricity meter manufacturing apparatus, further, solving the problem of transporting the component tray 4 and removing the package to remove the electronic component,

the support 31 is fixedly connected to the slideway 22, the guide table 32 is connected to the support 31 in a sliding manner, the compression spring is connected to one end of the guide table 32, the other end of the compression spring is connected to the support 31, the guide table 32 moves to enable the compression spring to shrink to generate reverse force when contacting with the element disc 4, when the element disc 4 is driven to rotate by the positioning disc 27, the guide table 32 contacts with the rotating element disc 4 and finds one winding end of the element disc 4, the winding end of the element disc 4 contacts with the guide table 32, the reverse force generated by shrinkage of the compression spring on the guide table 32 pushes the guide table 32 to continuously work on the surface of the element disc 4, when the guide table 32 contacts with the winding end of the element disc 4, one end of the element disc 4 is pushed to be separated from the element disc 4, so that one end of the element disc 4 moves through the guide table 32, the connecting frame 33 is fixedly connected to the support 31, and the limit slideway 34 is fixedly connected to the connecting frame 33, one end of the element disc 4 which is released from winding moves from the guide table 32 to the limit slideway 34, and one end of the element disc 4 moves in the connecting frame 33.

the rolling wheels 35 are provided with a plurality of rolling wheels 35, the plurality of rolling wheels 35 are respectively connected to two ends of the connecting frame 33 in a rotating mode, the rolling wheels 35 at the lower end of the connecting frame 33 rotate to drive one end of the element disc 4 to move, the rolling wheels 35 at the upper end of the connecting frame 33 rotate to drive one end of the element disc 4 to move and limit one end of the element disc 4, the element disc 4 cannot continuously move due to the fact that one end of the element disc 4 is separated from the rolling wheels 35 at the lower end of the connecting frame 33 in the moving process, the two pasting wheels 37 are arranged, the two pasting wheels 37 are respectively connected to two ends of the connecting frame 33 in a rotating mode, adhesive is arranged on the surfaces of the two pasting wheels 37 to enable one end of the element disc 4 to be adhered, and two ends of the element disc 4 can be separated through the cooperation of the two pasting wheels 37, so that electronic elements packaged in the element disc 4 can be removed through encapsulation removal of the element disc 4.

the driving wheel 36 is fixedly connected to one rolling wheel 35, the driven wheel 38 is fixedly connected to one pasting wheel 37, the driving wheel 36 is connected with the driven wheel 38 through a belt, the driving wheel 36 and the driven wheel 38 are both provided with two driving wheels 36 and 38, the two driving wheels 36 are fixedly connected to the two rolling wheels 35 respectively, the two driven wheels 38 are fixedly connected to the two pasting wheels 37 respectively, when one end of the element disc 4 is fed between the plurality of rolling wheels 35 through rotation of the positioning disc 27, the plurality of rolling wheels 35 rotate to drive the two driving wheels 36 to rotate, the belt drives the two driving wheels 36 to rotate to drive the two driven wheels 38 to rotate, and the two driven wheels 38 rotate to drive the two pasting wheels 37 to rotate, so that the element disc 4 can be unsealed when the element disc 4 moves.

Claims

1. A method for an electricity meter manufacturing apparatus, the method comprising the steps of:

s1: placing a component disc (4) for storing electronic components on a material supplementing structure for stock preparation;

s2: transporting the component trays (4) to the supply structure by the feed structure after no electronic components are available on the supply structure;

s3: the supply structure conveys the element disc (4) to the conveying structure in a conveying, and the element disc (4) is unpacked through the conveying structure so that the electronic elements in the element disc (4) are inserted into corresponding positions of the circuit board;

the ammeter manufacturing device comprises a feeding structure, element discs (4), a feeding structure and a transporting structure, wherein the element discs (4) are provided with a plurality of element discs (4) which are connected to the feeding structure in a sliding mode, the feeding structure conveys single element discs (4) to the feeding structure, the element discs (4) are connected with the feeding structure in a rotating mode, one ends of the element discs (4) are transported to the transporting structure by the feeding structure, and the element discs (4) are detached and transported through the transporting structure;

the feeding structure comprises a slideway (22), a control wheel (23), a sliding block A (24) and a baffle B (25), wherein the slideway (22) is rotationally connected with the control wheel (23), the control wheel (23) is provided with threads, the sliding block A (24) is in threaded connection with the control wheel (23), and the baffle B (25) is fixedly connected with the sliding block A (24);

the feeding structure further comprises a sliding block B (26) and a positioning disc (27), wherein the sliding block B (26) is connected to the control wheel (23) in a sliding mode, the positioning disc (27) is connected to the sliding block B (26) in a rotating mode, the motor is connected to the positioning disc (27), and the positioning block is arranged on the positioning plate (27);

a pressure spring is sleeved between the sliding block B (26) and the slideway (22);

the feeding structure further comprises a conveying channel (21), and the conveying channel (21) is fixedly connected to the slideway (22);

the feeding structure comprises a base (11), a connecting rod (12) and a screw rod (13), wherein the connecting rod (12) is rotationally connected to the base (11), the base (11) is fixedly connected to a slide way (22), the screw rod (13) is rotationally connected to the connecting rod (12), the element disc (4) is slidingly connected to the screw rod (13), and a motor is connected to the screw rod (13);

the feeding structure further comprises a pushing wheel (14) and a baffle A (15), the baffle A (15) is connected to the screw rod (13) in a sliding mode, the pushing wheel (14) is connected to the screw rod (13) in a threaded mode, and the pushing wheel (13) is connected to the connecting rod (12) in a sliding mode;

the feeding structure comprises a support (31), a guide table (32), a connecting frame (33) and a limiting slide way (34), wherein the support (31) is connected to the slide way (22), the support (31) is connected with the guide table (32) in a sliding manner, a pressure spring is sleeved between the guide table (32) and the support (31), the connecting frame (33) is fixedly connected to the support (31), and the limiting slide way (34) is fixedly connected to the connecting frame (33);

the ammeter comprises an ammeter box (51), a connecting rod (52), a positioning sliding block (53) and a positioning frame (54), wherein the connecting rod (52) is connected to the ammeter box (51), the positioning sliding block (53) is connected to the connecting rod (52) in a sliding mode, and the positioning sliding block (53) is connected to the positioning frame (54) in a sliding mode.