CN110695189A - Edge punching device - Google Patents

Abstract

A binding edge punching device comprises a feeding mechanism, a punching mechanism, a material moving mechanism, a transfer platform and a controller; the feeding mechanism comprises an input assembly and an input detection element; the punching mechanism is close to the output end of the input assembly and comprises a plurality of mutually independent punching modules and side limiting assemblies; the material moving mechanism and the punching mechanism are staggered in position and comprise a material moving component; the transfer platform is staggered with the output end of the input assembly and is tightly connected with the material moving mechanism, and comprises an output assembly; the controller is connected with the input assembly, the movable limiting part, the stamping module, the front side limiting part, the material moving assembly and the output assembly through control lines respectively, and the controller is connected with the input detection element through a signal line. The single hole punching or the compound synchronous punching of multiple holes can be realized through one device, the operation is simple and convenient, the processing speed is high, and the processing precision is high; feeding ejection of compact, location alignment need not to consume the manual work, labour saving and time saving.

Description

Edge punching device

Technical Field

The invention relates to the field of cable bridge processing, in particular to a slit edge punching device for a cable bridge.

Background

The cable bridge is divided into structures such as a groove type cable bridge, a tray type cable bridge, a ladder type cable bridge, a grid bridge and the like, and is composed of a support, a supporting arm, an installation accessory and the like. Can be independently erected and also can be laid on various buildings and pipe rack supports, and has the characteristics of simple structure, attractive appearance, flexible configuration, convenient maintenance and the like.

The groove type cable bridge generally comprises side edges positioned on two sides and a crossbar fixedly connected with the side edges on the two sides into a whole, during processing, connecting holes, threading holes and buckling holes are firstly punched on side plates through a plurality of punching processes, and then the side plates are bent and formed to be fixedly welded with the crossbar into an integrated wire groove structure.

In the existing slit edge plate punching process, the slit edge plate needs to be transferred between punching machines with different punching functions for multiple times, punching of all holes can be completed through punching operations of multiple punching machines, the automation degree is low, feeding and discharging of the slit edge plate on the punching machines and positioning and aligning need to be completed manually, a large amount of labor needs to be consumed, the labor intensity is high, the production processes are multiple, the processing efficiency is low, multiple punching operations need to be performed on the slit edge plate for multiple times, the distance between holes can generate accumulated errors, and the processing precision cannot be guaranteed.

Disclosure of Invention

The invention aims to solve the technical problem of providing a slit edge punching device, which can realize single hole punching or composite synchronous punching of multiple holes through one device, does not need to consume labor in feeding, discharging, positioning and aligning, only needs to select a preset process module by an operator, and has the advantages of simple and convenient operation, high processing speed and high processing precision.

The invention is realized by the following technical scheme:

the edge punching device is characterized in that:

the punching device comprises a feeding mechanism, a punching mechanism, a material moving mechanism, a transfer platform and a controller;

the feeding mechanism comprises an input assembly for horizontally and longitudinally conveying the side plates to the punching mechanism and an input detection element for detecting the input of the side plates; end limiting assemblies for limiting the end positions of the edge plates are arranged on the feeding mechanism corresponding to the left end and the right end of the edge plates, and the end limiting assembly at least one end is a movable limiting member capable of moving under driving;

the punching mechanism is close to the output end of the input assembly and comprises a plurality of mutually independent punching modules and a side limiting assembly used for limiting the slit edge plates on a punching station from the front side and the rear side, and the side limiting assembly comprises a front side limiting member close to the input assembly and capable of moving under driving and a rear side limiting member far away from the input assembly;

the material moving mechanism and the punching mechanism are staggered in position and comprise a material moving assembly which is used for conveying the cut edge plates conveyed from the input assembly to a punching station of the punching mechanism and reversely outputting the punched cut edge plates along the feeding direction;

the transfer platform is staggered with the output end of the input assembly and is tightly connected with the material moving mechanism, and the transfer platform comprises an output assembly for horizontally and transversely outputting the slit edge plates after punching;

the controller is respectively connected with the input assembly, the movable limiting part, the stamping module, the front side limiting part, the material moving assembly and the output assembly through control lines, the controller is connected with the input detection element through signal lines, the controller comprises a memory and a processor, the memory stores a computer program, and the program is executed by the processor to complete the following steps:

after receiving the processing request signal, the input component starts a set time interval value;

the controller detects and judges whether the slit side plate is input on the input assembly through the input detection element, and if not, relevant prompts are sent out;

if the controller detects that the input assembly has the input of the edge plates, the material moving assembly starts to set a time interval value;

the material moving assembly conveys the slit edge plates conveyed by the input assembly to a punching station of the punching mechanism;

the front side limiting piece moves, and is cooperated with the rear side limiting piece to limit the side plates at the punching station;

one or more punching modules are synchronous, and punching operation is carried out on the side plates;

the front side limiting piece resets and gives way out of the conveying channel;

the material moving assembly starts a set time interval value and outputs the side plates to the transit platform;

the movable limiting part moves away to give way out of the conveying channel;

the output assembly starts to set a time interval value and horizontally and transversely outputs the slit edge plates conveyed by the material moving assembly from one end of the removed movable limiting part;

and the movable limiting part resets, and the subsequent input slit edge plates are continuously limited.

The punching device comprises a storage, a display module, a controller and an input module, wherein the storage is prestored with various process computer programs selected according to different punching, the process computer programs are displayed on the display module of the controller in a punching function selection mode, when in specific machining, according to the machining requirements of different types of edge plates, an operator selects a corresponding punching function through the input module of the controller, and the controller controls the whole punching device to complete feeding, positioning, one-time punching and output functions.

Furthermore, the punching modules comprise a composite punching module for synchronously punching the connecting holes and the threading holes and a buckling hole punching module for independently punching the buckling holes, and the connecting holes for connecting and fixing the two bridges and the threading holes for the cables to pass through are considered to be necessary holes on the edges of the cut edges, so that the connecting holes and the threading holes can be combined on one punching module, and the number of the punching modules on a single device is reduced; and the button hole for fixedly connecting with the button plate is an optional hole, so that the punching die can punch holes through the independent punching die set, and the punching die set is stopped when the button hole does not need to be processed.

Furthermore, the composite punching module and the fastening hole punching module are respectively arranged in a pair corresponding to the two ends of the side plate in a bilateral symmetry manner. Both can carry out the compound synchronous processing in connecting hole, through wires hole and/or knot hole to one end of the binding board, also can carry out the compound synchronous processing in connecting hole, through wires hole and/or knot hole to binding board both ends, further improve machining efficiency and machining precision.

Furthermore, the input assembly, the material moving assembly and the output assembly are feeding balls and/or feeding rollers driven by independent motors. The feeding ball and the feeding roller can both realize an automatic feeding function, the feeding ball is small in size and convenient to arrange, and the feeding roller is large in contact surface with the edge plate, better in stress and capable of being flexibly selected and matched according to field conditions.

Furthermore, the transfer platform further comprises an auxiliary feeding assembly for assisting the input assembly and conveying the slit edge plates to the punching mechanism; the controller is connected with the auxiliary feeding assembly through a control circuit, when the input assembly conveys the slit edge plates to the punching mechanism, the auxiliary feeding assembly is synchronously started to set a time interval value and convey the slit edge plates to the punching mechanism, and the auxiliary feeding assembly and the output assembly are not started at the same time. The auxiliary feeding assembly assists the input assembly in inputting the binding side plates, and quick and stable transfer of the binding side plates from the input assembly to the punching mechanism is completed.

Still further, the auxiliary feeding assembly is a feeding ball and/or a feeding roller driven by an independent motor. The feeding ball and the feeding roller can both realize an automatic feeding function, the feeding ball is small in size and convenient to arrange, and the feeding roller is large in contact surface with the edge plate, better in stress and capable of being flexibly selected and matched according to field conditions.

Furthermore, the movable limiting part and the front side limiting part are limiting parts capable of vertically lifting under driving. When the limiting is not needed, the controller controls the movable limiting part/front side limiting part to descend, and the top of the movable limiting part/front side limiting part is flush with or lower than the conveying surface of the slit edge punching device so as to be out of the conveying channel.

Furthermore, the slit edge punching device further comprises guide plates arranged on two sides of the input assembly, and the guide plates are arranged in a bilateral symmetry mode to form a horn-shaped guide surface with a large-end opening facing the input end of the input assembly. The guide plate is used for automatically adjusting the feeding direction of the slit edge plates so as to ensure that materials entering the input assembly are kept in a state of being aligned in the middle and the length direction of the materials is perpendicular to the feeding direction, and manual intervention in processing is further reduced.

And furthermore, an extension section which is parallel and level to the limiting surface of the end limiting assembly is arranged at the small end of the guide plate so as to ensure that the slit edge plates with the adjusted positions through the guide plate always keep the correct feeding position.

Furthermore, the input detection element is a photoelectric switch arranged outside the conveying surface of the input assembly and/or a pressure sensor arranged on the input assembly. The detection function is realized through the shielding of the slit edge plates on the light path, and the detection function is realized through the gravity of the slit edge plates on the pressure generated by the input assembly.

It should be noted that the description of horizontal longitudinal, horizontal transverse, front, back, left, right, etc. orientations in the description and the claims are intended to be relative orientation limitations, and are not intended to be absolute orientation limitations.

The invention has the beneficial effects that:

1. the device can realize single hole punching or one-time composite synchronous punching of multiple holes, reduces production procedures and improves processing efficiency and processing precision;

2. the feeding, discharging and positioning alignment do not need to consume manpower, an operator only needs to select a preset process module, the automation degree is high, the machining speed is high, the operation is simple and convenient, and the time and the labor are saved.

3. Can realize the automatic adjustment in material feeding position at transportation process to it is accurate to fix a position, need not artifical supplementary.

Drawings

FIG. 1 is a front view of a preferred construction of the device

FIG. 2 is a right side view of FIG. 1

FIG. 3 is a top view of FIG. 1

FIG. 4 is a top view of the guide plate, the feeding mechanism and the transfer platform

FIG. 5 is a top view of the slit edge plates after punching

In FIGS. 1 to 5: 1 is the input subassembly, 2 is the activity locating part, 3 is front side locating part, 4 is rear side locating part, 5 is the subassembly that moves the material, 6 is the output subassembly, 7 is compound punching press module, 8 is detaining the hole punching press module, 9 is the transfer platform, 10 is supplementary feeding subassembly, 11 is the controller, 12 is the input detection component, 13 is the step edge panel, 131 is the connecting hole, 132 is the through wires hole, 133 is detaining the hole, 14 is the deflector.

Detailed Description

The invention will be further explained with reference to the drawings.

The side punching device shown in fig. 1 to 4 includes a feeding mechanism, a guide plate 14, a punching mechanism, a material moving mechanism, a transfer platform 9, and a controller 11.

The feeding mechanism comprises an input assembly 1, an input detection element 12 and an end limiting assembly. In this embodiment, the input assembly 1 is provided with three rows of feeding balls driven by independent motors, the controller 11 is connected with the driving motors of the feeding balls through control lines, and drives the input assembly 1 to horizontally and longitudinally convey the slit plates 13 to the punching mechanism; the input detection element 12 is a photoelectric switch, is arranged on the outer side of the conveying surface of the input assembly 1 and is positioned between the end limiting assembly and the guide plate 14, the controller 11 is connected with the input detection element 12 through a signal line, and the input detection element 12 detects whether a slit edge plate 13 is input and feeds back to the controller 11; the end limiting assemblies are used for limiting the end positions of the slit plates 13, the two end limiting assemblies arranged at the left end and the right end of each slit plate 13 are movable limiting parts 2 capable of vertically lifting under the driving of driving sources such as motors or pressure gas, the controller 11 is connected with the driving sources of the movable limiting parts 2 through control lines, original stations of the movable limiting parts 2 are limiting stations, the lowered stations are avoiding stations, and flexible blanking is conducted by operators from the left side and the right side of the device according to actual conditions on site.

In the embodiment shown in fig. 4, the guide plates 14 are disposed on both sides of the input assembly 1, the guide plates 14 are symmetrically disposed from left to right to form a trumpet-shaped guide surface with a large end opening facing the input end of the input assembly 1, the small end of the guide plate 14 is provided with an extension section flush with the end limiting surface of the end limiting assembly, the dashed frame in the figure corresponds to the outer edge of the bound plate 13, and the position of the bound plate is gradually adjusted to a correct feeding position along with the input operation of the input assembly 1.

In the embodiment shown in fig. 1 and 3, the punching mechanism is located close to the output end of the input assembly 1, and includes four independent punching modules arranged in bilateral symmetry corresponding to two ends of the edge plates 13, that is, two sets of left and right composite punching modules 7 for synchronously punching the connecting hole 131 and the threading hole 132, and a buttonhole punching module 8 for separately punching the buttonhole 133, and the controller 11 is connected to each punching module through a control circuit; the dotted line frame in fig. 3 corresponds to the outer edge of the slit plate 13, at this time, the slit plate 13 is located right above the stamping station of the stamping module, and a side limiting assembly for limiting the slit plate 13 on the stamping station from the front and rear sides is provided corresponding to the stamping station, the side limiting assembly includes a rear side limiting member 4 away from the input assembly 1, and a front side limiting member 3 close to the input assembly 1 and capable of vertically lifting under the driving of a driving source such as a motor or a pressure gas, and the controller 11 is connected to the driving source of the front side limiting member 3 through a control line; the original station of the front side limiting piece 3 is an avoiding station, and the lifted station is a limiting station, so that the edge plates 13 can be conveniently input and output to and from a stamping station.

As shown in fig. 3, the material shifting mechanism and the punching mechanism are arranged in a staggered manner, and include a material shifting assembly 5 for conveying the slit edge plates 13 conveyed from the input assembly 1 to the punching stations of the punching mechanism and outputting the punched slit edge plates 13 in the opposite direction of the feeding direction; in this embodiment, the material moving assembly 5 is a multi-row and multi-column feed roller driven by an independent motor, and the controller 11 is connected with a driving motor of the feed roller through a control circuit.

In the embodiment shown in fig. 3, the transfer platform 9 is staggered with the output end of the input assembly 1 and is closely connected with the material moving mechanism, and comprises an output assembly 6 and an auxiliary feeding assembly 10; the output assembly 6 is a plurality of rows and columns of feeding rollers driven by independent motors, and the controller 11 is connected with the driving motors of the feeding rollers through control lines and drives the feeding rollers to horizontally and transversely output the punched edge plates 13. The auxiliary feeding assembly 10 is provided with a plurality of rows of feeding balls driven by independent motors, the controller 11 is connected with driving motors of the feeding balls through control lines, and when the input assembly 1 conveys the binding plates 13 to the punching mechanism, the auxiliary feeding assembly 10 assists the input assembly 1 in conveying the binding plates 13 to the punching mechanism.

The controller 11 comprises a memory and a processor, wherein the memory stores a computer program that is executed by the processor to perform the steps of:

after receiving a machining receiving request signal input by an operator, controlling the input assembly 1 to start;

the controller 11 detects and judges whether the binding plate 13 is input on the input assembly 1 through the input detection element 12, and if not, relevant prompts are sent to an operator;

if the controller 11 detects that the edge bonding plate 13 is input on the input assembly 1, the auxiliary feeding assembly 10 is started and is stopped when the edge bonding plate 13 leaves the auxiliary feeding assembly 10, and the input assembly 1 is stopped after the edge bonding plate passes through the detection position of the input detection element;

after the auxiliary feeding assembly 10 is started, the moving assembly 5 is started, the slit edge plates 13 conveyed by the input assembly 1 are conveyed to a punching station of the punching mechanism, and then the moving assembly 5 is stopped;

the front side limiting piece 3 moves and cooperates with the rear side limiting piece 4 to limit the side plate 13 at the punching station;

an operator controls one punching module or a plurality of punching modules to be synchronous through the controller 11, and punching operation is carried out on the slit edge plates 13;

the front side limiting piece 3 resets and gives way out of the conveying channel;

after the material moving assembly 5 is started and the side plates 13 are output to the transit platform 9, the material moving assembly 5 is stopped;

a movable limiting piece 2 is moved away to give way out of the conveying channel;

the output assembly 6 is started, and after the slit edge plates 13 conveyed by the material moving assembly 5 are horizontally and transversely output from one end of the removed movable limiting part 2, the output assembly 6 is stopped;

and the movable limiting part 2 resets, and the subsequent input binding plate 13 is continuously limited.

As shown in fig. 5, the finished punched product of the fastened plate 13 manufactured by the present device includes a connecting hole 131, a threading hole 132, and a fastening hole 133, which are symmetrical at left and right ends.

Claims (10)

1. The edge punching device is characterized in that:

comprises a feeding mechanism, a punching mechanism, a material moving mechanism, a transfer platform (9) and a controller (11);

the feeding mechanism comprises an input assembly (1) used for horizontally and longitudinally conveying the slit edge plates (13) to the punching mechanism and an input detection element (12) used for detecting the input of the slit edge plates (13); end limiting assemblies used for limiting the end positions of the edge plates (13) are arranged on the feeding mechanism corresponding to the left end and the right end of the edge plates (13), and the end limiting assembly at least one end is a movable limiting piece (2) capable of moving under driving;

the punching mechanism is close to the output end of the input assembly (1), and comprises a plurality of mutually independent punching modules and a lateral limiting assembly, wherein the lateral limiting assembly is used for limiting the slit edge plate (13) on a punching station from the front side and the rear side, and comprises a front side limiting member (3) close to the input assembly (1) and capable of moving under driving, and a rear side limiting member (4) far away from the input assembly (1);

the material moving mechanism and the punching mechanism are staggered in position and comprise a material moving assembly (5) which is used for conveying the slit edge plates (13) conveyed from the input assembly (1) to a punching station of the punching mechanism and reversely outputting the punched slit edge plates (13) along the feeding direction;

the transfer platform (9) is staggered with the output end of the input assembly (1), is tightly connected with the material moving mechanism, and comprises an output assembly (6) for horizontally and transversely outputting the punched edge binding plate (13);

the controller (11) is respectively connected with the input component (1), the movable limiting part (2), the stamping module, the front side limiting part (3), the material moving component (5) and the output component (6) through control lines, the controller (11) is connected with the input detection element (12) through signal lines, the controller (11) comprises a memory and a processor, wherein the memory stores computer programs, and the programs are executed by the processor to complete the following steps:

after receiving a processing request signal, an input assembly (1) starts a set time interval value;

the controller (11) detects and judges whether a slit edge plate (13) is input on the input assembly (1) through the input detection element (12), and if not, relevant prompts are sent out;

if the controller (11) detects that the input assembly (1) has the input of the binding edge plate (13), the material moving assembly (5) starts to set a time interval value;

the material moving assembly (5) conveys the slit edge plates (13) conveyed by the input assembly (1) to a punching station of the punching mechanism;

the front side limiting piece (3) moves, cooperates with the rear side limiting piece (4) and limits the edge binding plate (13) at a stamping station;

one or more punching modules are synchronous, and punching operation is carried out on the slit edge plates (13);

the front side limiting piece (3) resets to let out the conveying channel;

the material moving assembly (5) starts a set time interval value and outputs the slit edge plates (13) to the transit platform (9);

the movable limiting piece (2) is moved away to let the conveying channel out;

the output component (6) starts to set a time interval value and horizontally and transversely outputs the edge plates (13) conveyed by the material moving component (5) from one end of the removed movable limiting part (2);

and the movable limiting part (2) resets, and the edge binding plate (13) input subsequently is limited continuously.

2. The binding edge punching apparatus according to claim 1, characterized in that: the punching module comprises a composite punching module (7) for synchronously punching a connecting hole (131) and a threading hole (132), and a buttonhole punching module (8) for independently punching a buttonhole (133).

3. The binding edge punching apparatus according to claim 2, characterized in that: the composite punching module (7) and the fastening hole punching module (8) are respectively arranged in a pair corresponding to the two ends of the side plates (13) in bilateral symmetry.

4. The binding edge punching apparatus according to claim 1, characterized in that: the input assembly (1), the material moving assembly (5) and the output assembly (6) are feeding balls and/or feeding rollers driven by independent motors.

5. The binding edge punching apparatus according to claim 1, characterized in that: the transfer platform (9) further comprises an auxiliary feeding assembly (10) which is used for assisting the input assembly (1) and conveying the edge binding plates (13) to the punching mechanism; the controller (11) is connected with the auxiliary feeding assembly (10) through a control line, and when the input assembly (1) conveys the binding plates (13) to the punching mechanism, the auxiliary feeding assembly (10) synchronously starts to set a time interval value and convey the binding plates (13) to the punching mechanism.

6. The binding edge punching apparatus according to claim 5, characterized in that: the auxiliary input assembly (1) is a feeding ball and/or a feeding roller driven by a motor.

7. The binding edge punching apparatus according to claim 1, characterized in that: the movable limiting piece (2) and the front side limiting piece (3) are limiting pieces capable of vertically lifting under driving.

8. The binding edge punching apparatus according to claim 1, characterized in that: the edge punching device further comprises guide plates (14) arranged on two sides of the input assembly (1), and the guide plates (14) are arranged in a bilateral symmetry mode to form a horn-shaped guide surface with a large-end opening facing the input end of the input assembly (1).

9. The binding edge punching apparatus according to claim 8, characterized in that: the small end of the guide plate (14) is provided with an extension section which is parallel and level to the limiting surface of the end limiting component.

10. The binding edge punching apparatus according to claim 1, characterized in that: the input detection element (12) is a photoelectric switch arranged on the outer side of the conveying surface of the input assembly (1) and/or a pressure sensor arranged on the input assembly (1).

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