AU2021103960A4 - a network separator plate processing device that can be adapted to different line port positions - Google Patents

Abstract

The invention discloses a network separator plate processing device that can be adapted to different line port positions, comprising a processing table, a hydraulic device, a storage basket, a limit block and a drive rod, wherein the hydraulic device is welded to a lower surface of an upper part of the processing table, a punching block is welded to an output end of the hydraulic device, the storage basket is fixed to a middle part of an upper surface of a lower part of the processing table by bolts, a fixed frame is welded to an edge of the upper surface of the lower part of the processing table, an adapting rod is arranged inside the fixed frame, and a rotating rod is welded to an inner side of the processing table. The network separator plate processing device adaptable to different wire port positions is provided with a push rod, a rotating rod, a first reset spring and an ejector block, wherein the ejector block can eject a placement table through the rotation of the push rod on the rotating rod, and the punching block and a metal sheet can move in opposite directions, thereby improving the processing efficiency of the metal sheet and increasing the processing output of metal plates. 1 Drawing X 2 7 302 -301 504 9114 10 5 Fig. 1 5 501 503 502 Fig. 2 1

Description

Drawing

X 2

7 302

-301

504 9114 10 5

Fig. 1

5 501

503 502

Fig. 2

Description

NETWORK SEPARATOR PLATE PROCESSING DEVICE ADAPTABLE TO DIFFERENT WIRE PORT POSITIONS

Field of the Invention

The present invention relates to the technical field of network separator plates, in

particular to a network separator plate processing device adaptable to different wire

port positions.

Background of the Invention

The network can not only enrich our life, but also shorten the distance between

people in the world. In order to ensure network quality in the family, a network

separator is usually required to connect a network with multiple wire ports to facilitate

people's use. In order to use a metal plate to clamp a plug connector at a socket of

some network separators, a metal sheet needs to be processed by a stamping device

during the processing of the metal plate. The metal sheet is stamped through a

punching block in the same shape as the socket to prepare the metal plate.

The following problems have been found during the use of the existing network

separator plate processing device:

1. Some existing network separator plate processing devices require additional

equipment or cannot automatically push the metal sheet by using their own potential

energy, which leads to relatively high cost of the entire device and easily increases the

processing cost of the metal sheet. When metal plates are stored, most of the existing

storage devices randomly store the punched metal plates, which results in a decrease

in subsequent processing efficiency of the metal plates.

2. In addition, some of the existing network separator plates have different

requirements for positions of wire ports due to different demands of customers, so that

metal plates at different wire port positions cannot be continuously processed

according to the requirements. Moreover, punching heads in the existing processing

devices move in single directions, resulting in poor processing efficiency of the entire

device.

Description

Therefore, a network separator plate processing device adaptable to different

wire port positions needs to be designed for the above problems.

Summary of the Invention

The objective of the present invention is to provide a network separator plate

processing device adaptable to different wire port positions, to solve the problems in

the background of the invention that some existing network separator plate processing

devices require additional equipment or cannot automatically push the metal sheet by

using their own potential energy, which leads to relatively high cost of the entire

device and easily increases the processing cost of the metal sheet; when metal plates

are stored, most of the existing storage devices randomly store the punched metal

plates, which results in a decrease in subsequent processing efficiency of the metal

plates; some of the existing network separator plates have different requirements for

positions of wire ports due to different demands of customers, so that the metal plates

at different wire port positions cannot be continuously processed according to the

requirements; and punching heads in the existing processing devices move in single

directions, resulting in poor processing efficiency of the entire device.

In order to achieve the above objective, the present invention provides the

following technical solution: a network separator plate processing device adaptable to

different wire port positions, including a processing table, a hydraulic device, a

storage basket, a limit block and a drive rod, wherein the hydraulic device is welded

to a lower surface of an upper part of the processing table, a punching block is welded

to an output end of the hydraulic device, the storage basket is fixed to a middle part of

an upper surface of a lower part of the processing table by bolts, a fixed frame is

welded to an edge of the upper surface of the lower part of the processing table, an

adapting rod is arranged inside the fixed frame, and a rotating rod is welded to an

inner side of the processing table.

Preferably, a connecting rod is welded to an outer surface of the punching block,

a push block is welded to an inner surface of the connecting rod, the push block is not

contact with a placement table, and the placement table is connected to the adapting

Description

rod by welding. Preferably, an ejector block is in sliding connection to an outer surface of the fixed frame, a first reset spring is welded to the inside of the fixed frame, and the ejector block and a push rod form a rotating structure. Preferably, the ejector block and the rotating rod form a rotating structure, and two groups of ejector blocks are symmetrically arranged about a vertical central axis of the processing table. Preferably, the first reset spring is connected to the adapting rod by welding, the adapting rod and the fixed frame form a sliding structure through the first reset spring, and the adapting rod is connected to a drive gear by engaging. Preferably, the drive gear and a compaction block both form a rotating structure with the processing table, the drive gear and the compaction block form a transmission structure through a transmission belt, and the compaction block is a cam mechanism. Preferably, a fixed block is fixed to an upper surface of the placement table by bolts, a metal sheet is inserted into the fixed block, and a connecting frame is welded to the upper surface of the placement table. Preferably, the limit block is welded to the inside of the connecting frame, a second reset spring is welded to a right end of the limit block, the drive rod is in sliding connection to the inside of the connecting frame, and the inside of the drive rod and an extension rod form an elastic structure through a third reset spring. Preferably, upper and lower surfaces of a left end of the drive rod are inclined, the drive rod and the connecting frame form an elastic structure through the second reset spring, and a middle part of the drive rod is in a "cross" shape. Compared with the prior art, the beneficial effects of the present invention are: the network separator plate processing device adaptable to different wire port positions can transmit metal plates by linkage through its own kinetic energy, so that the efficiency for processing the metal sheet is higher, the processing cost of metal plates is relatively reduced, and the use range of the entire device is also increased; 1. The network separator plate processing device adaptable to different wire port

Description

positions is provided with a drive gear, a compaction block and a push rod, wherein the metal sheet is stamped by the entire device, the drive gear is driven to rotate by the up and down movement of the push rod, the compaction block can compact the metal plates in the storage basket, and the arrangement of the metal plates is more orderly, which facilitates carrying of the metal plates by workers and subsequent processing of the metal plates; 2. The network separator plate processing device adaptable to different wire port positions is provided with a push rod, a rotating rod, a first reset spring and an ejector block, wherein the ejector block can eject the placement table through the rotation of the push rod on the rotating rod, and the punching block and the metal sheet can move in opposite directions, thereby improving the processing efficiency of the metal sheet and increasing the processing output of metal plates; 3. The network separator plate processing device adaptable to different wire port positions is provided with a push block, a drive rod, an extension rod and a third reset spring, wherein the drive rod can reciprocate under the action of the second reset spring through the movement of the push block, so that the entire device can automatically push the metal sheet on its own potential energy, thereby reducing the energy consumption of the entire device during use; 4. The network separator plate processing device adaptable to different wire port positions is provided with an extension rod and a third reset spring, wherein the extension rod can be automatically adjusted with the length of the metal sheet through the elasticity of the third reset spring, so that the entire device can be adapted to the processing of metal sheets of different lengths, then the application range of the device is increased, and the device can process metal plates at different wire port positions.

Brief Description of the Drawings Fig. 1 is a schematic diagram of a front cross-sectional structure according to the present invention. Fig. 2 is a schematic diagram of a top cross-sectional structure of a fixed frame

Description

according to the present invention.

Fig. 3 is a schematic diagram of an enlarged structure at A in Fig. 1 according to

the present invention.

Fig. 4 is a schematic diagram of a top cross-sectional structure of a drive gear

according to the present invention.

Fig. 5 is a schematic diagram of an enlarged structure at B in Fig. 1 according to

the present invention.

Fig. 6 is a schematic diagram of a three-dimensional structure of a drive rod

according to the present invention.

In the figures: 1, processing table; 2, hydraulic device; 3, punching block; 301,

connecting rod; 302, push block; 4, storage basket; 5, fixed frame; 501, ejector block;

502, push rod; 503, adapting rod; 504, first reset spring; 6, rotating rod; 7, fixed block;

8, metal sheet; 9, drive gear; 10, transmission belt; 11, compaction block; 12,

placement table; 13, connecting frame; 14, limit block; 15, second reset spring; 16,

drive rod; 1601, extension rod; 1602, third reset spring.

Detailed Description of the Embodiments

A clear and complete description will be made to the technical solutions in the

embodiments of the present invention below with reference to the accompanying

drawings in the embodiments of the present invention. Apparently, the embodiments

described are only part of the embodiments of the present invention, not all of them.

All other embodiments obtained by those of ordinary skill in the art based on the

embodiments of the present invention without creative efforts shall fall within the

protection scope of the present invention.

Referring to Figs. 1-6, the present invention provides a technical solution: a

network separator plate processing device adaptable to different wire port positions,

including a processing table 1, a hydraulic device 2, a punching block 3, a connecting

rod 301, a push block 302, a storage basket 4, a fixed frame 5, an ejector block 501, a

push rod 502, an adapting rod 503, a first reset spring 504, a rotating rod 6, a fixed

block 7, a metal sheet 8, a drive gear 9, a transmission belt 10, a compaction block 11,

Description

a placement table 12, a connecting frame 13, a limit block 14, a second reset spring 15,

a drive rod 16, an extension rod 1601 and a third reset spring 1602. The hydraulic

device 2 is welded to a lower surface of an upper part of the processing table 1, the

punching block 3 is welded to an output end of the hydraulic device 2, the storage

basket 4 is fixed to a middle part of an upper surface of a lower part of the processing

table 1 by bolts, the fixed frame 5 is welded to an edge of the upper surface of the

lower part of the processing table 1, the adapting rod 503 is arranged inside the fixed

frame 5, and the rotating rod 6 is welded to an inner side of the processing table 1.

The connecting rod 301 is welded to an outer surface of the punching block 3,

the push block 302 is welded to an inner surface of the connecting rod 301, the push

block 302 is not contact with the placement table 12, and the placement table 12 is

connected to the adapting rod 503 by welding, which enables the entire device to

automatically push the metal sheet 8 with its own potential energy, so that the energy

consumed by the entire device during operation is relatively reduced.

The ejector block 501 is in sliding connection to an outer surface of the fixed

frame 5, the first reset spring 504 is welded to the inside of the fixed frame 5, and the

ejector block 501 and the push rod 502 form a rotating structure, which can

automatically restore the entire device to its original position for continuous

operation.

The ejector block 501 and the rotating rod 6 form a rotating structure. Two

groups of ejector blocks 501 are symmetrically arranged about a vertical central axis

of the processing table 1, which enables the metal sheet 8 and the punching block 3 to

move in opposite directions, thereby improving the processing efficiency of metal

plates.

The first reset spring 504 is connected to the adapting rod 503 by welding, the

adapting rod 503 and the fixed frame 5 form a sliding structure through the first reset

spring 504, and the adapting rod 503 is connected to the drive gear 9 by engaging,

which enables the entire device to move on its own potential energy, thereby

improving the linkage of the entire device.

The drive gear 9 and the compaction block 11 both form a rotating structure with

Description

the processing table 1, the drive gear 9 and the compaction block 11 form a transmission structure through the transmission belt 10, and the compaction block 11 is a cam mechanism, which enables the entire device to automatically compact metal plates for subsequent processing of the metal plates. The fixed block 7 is fixed to an upper surface of the placement table 12 by bolts, the metal sheet 8 is inserted into the fixed block 7, and the connecting frame 13 is welded to the upper surface of the placement table 12 to facilitate the replacement of the metal sheet 8. The limit block 14 is welded to the inside of the connecting frame 13, the second reset spring 15 is welded to a right end of the limit block 14, the drive rod 16 is in sliding connection to the inside of the connecting frame 13, and the inside of the drive rod 16 and the extension rod 1601 form an elastic structure through the third reset spring 1602, which enables a worker to place the metal sheet 8 better, thereby improving the processing efficiency of the entire device. Upper and lower surfaces of a left end of the drive rod 16 are inclined, the drive rod 16 and the connecting frame 13 form an elastic structure through the second reset spring 15, and a middle part of the drive rod 16 is in a "cross" shape, which enables the entire device to automatically push the metal sheet 8 of different length, so that the entire device can continuously process metal plates of different lengths according to the positions of different wire ports. Operating principle: according to Figs. 1, 2, 5 and 6, when a metal plate needs to be processed, the metal sheet 8 is inserted into the placement table 12, until the metal sheet 8 cannot be inserted due to the limitation of the limit block 14. At this time, the metal sheet 8 is fixed tightly, and then the hydraulic device 2 is opened such that the punching block 3 moves down and the push block 302 is in contact with the drive rod 16. Because the left end of the drive rod 16 is inclined, the push block 302 can drive the drive rod 16 to slide in the connecting frame 13, the second reset spring 15 is deformed, the drive rod 16 can push the metal sheet 8, and the entire device can automatically push the metal sheet 8 on its own potential energy. When the length of the metal sheet 8 is different, the extension rod 1601 can be pushed out under the

Description

deformation of the third reset spring 1602, so that the entire device can operate better. According to Figs. 1-4, when the punching block 3 moves down, the connecting rod 301 squeezes the push rod 502, the push rod 502 is rotated by the rotating rod 6, then the push rod 502 rotates on the ejector block 501, the ejector block 501 can eject the placement table 12 under the rotation of the push rod 502, the adapting rod 503 is stretched at the same time, the first reset spring 504 is stretched and deformed, and the punching block 3 and the metal sheet 8 move in opposite directions, so that the efficiency of processing the metal sheet 8 is improved. When the adapting rod 503 moves up, because the adapting rod 503 is connected to the drive gear 9 by engaging, the drive gear 9 and the compaction block 11 form a transmission structure through the transmission belt 10 and the compaction block 11 is a cam mechanism, the drive gear 9 is rotated, and the compaction block 11 can move circumferentially under the transmission of the transmission belt 10. When metal plates in the storage basket 4 reach a certain capacity, the compaction block 11 squeezes the metal plates, so that the metal plates in the storage basket 4 are closer, which facilitates subsequent processing of the metal plates by workers (it should be noted that the initial position of the compaction block 11 is not above the storage basket 4). Although the embodiments of the present disclosure are shown and described above, it should be appreciated by those skilled in the art that many changes, modifications, substitutions and variations may be made to these embodiments without departing from the principle and spirit of the present invention, and the scope of the present invention is defined by the appended claims and equivalents thereof.

Claims (9)

Claims

1. A network separator plate processing device adaptable to different wire port

positions, comprising a processing table (1), a hydraulic device (2), a storage basket

(4), a limit block (14) and a drive rod (16), wherein the hydraulic device (2) is welded

to a lower surface of an upper part of the processing table (1), a punching block (3) is

welded to an output end of the hydraulic device (2), the storage basket (4) is fixed to a

middle part of an upper surface of a lower part of the processing table (1) by bolts, a

fixed frame (5) is welded to an edge of the upper surface of the lower part of the

processing table (1), an adapting rod (503) is arranged inside the fixed frame (5), and

a rotating rod (6) is welded to an inner side of the processing table (1).

2. The network separator plate processing device adaptable to different wire port

positions according to claim 1, wherein a connecting rod (301) is welded to an outer

surface of the punching block (3), a push block (302) is welded to an inner surface of

the connecting rod (301), the push block (302) is not contact with a placement table

(12), and the placement table (12) is connected to the adapting rod (503) by welding.

3. The network separator plate processing device adaptable to different wire port

positions according to claim 1, wherein an ejector block (501) is in sliding connection

to an outer surface of the fixed frame (5), a first reset spring (504) is welded to the

inside of the fixed frame (5), and the ejector block (501) and a push rod (502) form a

rotating structure.

4. The network separator plate processing device adaptable to different wire port

positions according to claim 3, wherein the ejector block (501) and the rotating rod (6)

form a rotating structure, and two groups of ejector blocks (501) are symmetrically

arranged about a vertical central axis of the processing table (1).

5. The network separator plate processing device adaptable to different wire port

positions according to claim 3, wherein the first reset spring (504) is connected to the

adapting rod (503) by welding, the adapting rod (503) and the fixed frame (5) form a

sliding structure through the first reset spring (504), and the adapting rod (503) is

connected to a drive gear (9) by engaging.

6. The network separator plate processing device adaptable to different wire port

positions according to claim 5, wherein the drive gear (9) and a compaction block (11)

Claims

both form a rotating structure with the processing table (1), the drive gear (9) and the compaction block (11) form a transmission structure through a transmission belt (10), and the compaction block (11) is a cam mechanism.

7. The network separator plate processing device adaptable to different wire port positions according to claim 2, wherein a fixed block (7) is fixed to an upper surface of the placement table (12) by bolts, a metal sheet (8) is inserted into the fixed block (7), and a connecting frame (13) is welded to the upper surface of the placement table (12).

8. The network separator plate processing device adaptable to different wire port positions according to claim 7, wherein the limit block (14) is welded to the inside of the connecting frame (13), a second reset spring (15) is welded to a right end of the limit block (14), the drive rod (16) is in sliding connection to the inside of the connecting frame (13), and the inside of the drive rod (16) and an extension rod (1601) form an elastic structure through a third reset spring (1602).

9. The network separator plate processing device adaptable to different wire port positions according to claim 7, wherein upper and lower surfaces of a left end of the drive rod (16) are inclined, the drive rod (16) and the connecting frame (13) form an elastic structure through the second reset spring (15), and a middle part of the drive rod (16) is in a "cross" shape.

Fig. 2 Fig. 1 Drawing

Fig. 4 Fig. 3 Drawing

Fig. 6 Fig. 5 Drawing