CN214639840U - A preliminary ground wire shaping device for QSFP high-speed sinle silk line processor - Google Patents

A preliminary ground wire shaping device for QSFP high-speed sinle silk line processor Download PDF

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CN214639840U
CN214639840U CN202120455950.9U CN202120455950U CN214639840U CN 214639840 U CN214639840 U CN 214639840U CN 202120455950 U CN202120455950 U CN 202120455950U CN 214639840 U CN214639840 U CN 214639840U
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ground wire
cylinder
wire
plate
preliminary
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CN202120455950.9U
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蔡鹏飞
韩硕
苟中伟
张明
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Shenzhen Naisite Automation Equipment Co ltd
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Shenzhen Naisite Automation Equipment Co ltd
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Abstract

The utility model discloses a preliminary ground wire shaping device for QSFP high-speed sinle silk line processor belongs to QSFP high-speed sinle silk heart yearn processor technical field, which comprises a bod, be provided with preliminary ground wire shaping mechanism on the organism, preliminary ground wire shaping mechanism includes frame, ground wire front roof, lower assembly plate, ground wire front top cylinder, ground wire back-pull cylinder, upper assembly plate, ground wire back-pull plate, wire rod pressure strip, wire rod supporting shoe, ground wire top roof and ground wire top cylinder, the frame is connected with the organism, the inner wall of frame leans on the top to be connected with upper assembly plate; the utility model discloses set up and push up cylinder, ground wire on wire rod supporting shoe, wire rod pressure strip, ground wire and go up roof, ground wire preceding roof cylinder, ground wire preceding roof, ground wire pull cylinder and ground wire back arm-tie, can compress tightly the ground wire location, go up the shaping operation that pushes up, the preceding top is bent and is pulled after, collect a plurality of shaping operations as an organic whole, area is little, the configuration cost is low.

Description

A preliminary ground wire shaping device for QSFP high-speed sinle silk line processor
Technical Field
The utility model belongs to the technical field of the high-speed sinle silk line processor of QSFP, concretely relates to preliminary ground wire shaping device for the high-speed sinle silk line processor of QSFP.
Background
The QSFP high-speed wire core wire processor is a machine for processing the OSFP high-speed wire core wire, and comprises a workpiece feeding station, a pre-cut core wire, a laser aluminum foil, a moving aluminum foil, a laser insulating layer, a moving insulating layer, a signal wire fine shear, a ground wire shaping structure and the like.
The prior art has the following problems: the initial ground wire shaping device of the existing QSFP high-speed wire core wire processor can be divided into an upper top, a front top, a rear pull and the like according to steps, but each shaping device on the existing market is of an independent structure, so that a manufacturer needs to be provided with a plurality of shaping devices when shaping the core wire, the occupied area is large, and the configuration cost is high.
SUMMERY OF THE UTILITY MODEL
To solve the problems set forth in the background art described above. The utility model provides a preliminary ground wire shaping device for QSFP high-speed sinle silk line processor has and collects a plurality of plastic operations as an organic whole, and area is little, the characteristics of configuration cost hang down.
In order to achieve the above object, the utility model provides a following technical scheme: a preliminary ground wire shaping device for a QSFP high-speed wire core wire processor comprises a machine body, wherein a preliminary ground wire shaping mechanism is arranged on the machine body and comprises a rack, a front ground wire top plate, a lower assembly plate, a front ground wire top cylinder, a rear ground wire pull cylinder, an upper assembly plate, a rear ground wire pull plate, a wire pressing plate, a wire supporting block, an upper ground wire top plate and a top ground wire top cylinder, the rack is connected with the machine body, the upper assembly plate is connected to the inner wall of the rack close to the upper part, the rear ground wire pull cylinder is assembled on one side below the upper assembly plate, the rear ground wire pull cylinder is connected to the cylinder shaft end of the rear ground wire pull cylinder, the lower assembly plate is connected to the inner wall of the rack close to the lower part, the front ground wire top cylinder is assembled on one side close to the rear ground wire pull cylinder, the cylinder shaft end of the front ground wire top cylinder is connected with the front ground wire top plate, the side wall of the frame, which is far away from the ground wire front top cylinder and the ground wire rear pull cylinder, is connected with a wire pressing plate in a lifting mode close to the upper portion, the side wall of the frame, which is far away from the ground wire front top cylinder and the ground wire rear pull cylinder, is fixedly connected with a wire supporting block close to the lower portion, the side wall of the frame, which is far away from the ground wire front top cylinder and the ground wire rear pull cylinder, is located below the wire supporting block and is provided with a ground wire upper top cylinder, and the cylinder shaft end of the ground wire upper top cylinder is connected with a ground wire upper top plate.
Preferably, the frame is fixed on the machine body through a first bolt.
Preferably, the top end of the ground wire front top plate and the bottom end of the ground wire rear pulling plate are both connected with third sliding rails, the top end of the lower assembling plate and the bottom end of the upper assembling plate are both connected with third sliding blocks, and the two third sliding blocks respectively slide on the corresponding third sliding rails.
Preferably, top inner wall one side of frame is equipped with the wire rod and compresses tightly the cylinder, the top inner wall opposite side of frame is equipped with first slide rail, sliding connection has first slider on the first slide rail, first slider is connected with the cylinder hub connection that the wire rod compressed tightly the cylinder, the below of first slider is rotatable to be connected with the linking arm, the one end and the wire rod pressure strip rotatable coupling of first slider are kept away from to the linking arm, the lateral wall symmetric connection that the wire rod pressure strip is close to the frame has two second sliders, just the position that corresponds two second sliders in the frame all is connected with the second slide rail, two the second slider slides on corresponding the second slide rail.
Preferably, the lower assembling plate and the upper assembling plate are fixed on the inner wall of the frame through second bolts.
Preferably, first bolt and second bolt all include nut and screw rod, the nut is made for stainless steel material, the one end of nut is provided with the screw rod, the screw rod is made for carbon steel alloy.
Compared with the prior art, the beneficial effects of the utility model are that:
1. the utility model discloses set up and push up cylinder, ground wire on wire rod supporting shoe, wire rod pressure strip, ground wire and go up roof, ground wire preceding roof cylinder, ground wire preceding roof, ground wire pull cylinder and ground wire back arm-tie, can compress tightly the ground wire location, go up the shaping operation that pushes up, the preceding top is bent and is pulled after, collect a plurality of shaping operations as an organic whole, area is little, the configuration cost is low.
2. The utility model discloses the wire rod compact heap compresses tightly cylinder, first slide rail, first slider, linking arm, second slide rail and the cooperation of second slider through the wire rod and realizes going up and down, compresses tightly fastly, and stability is strong.
3. The utility model discloses set up third slider and third slide rail, can improve before the ground wire before the roof push up the stability of in-process and ground wire back arm-tie pull back-pull in-process, preceding top and back-pull plastic are effectual.
Drawings
FIG. 1 is a schematic structural diagram of a QSFP high-speed wire core wire processor of the present invention;
fig. 2 is a schematic structural view of the preliminary ground wire shaping mechanism of the present invention;
fig. 3 is a schematic structural view of the preliminary ground wire shaping mechanism of the present invention, partially disassembled;
in the figure: 1. a body; 2. a preliminary ground wire shaping mechanism; 21. a frame; 22. a ground wire front top plate; 23. a lower mounting plate; 24. a ground wire front top cylinder; 25. a ground wire back-pulling cylinder; 26. mounting a board; 27. a wire pressing cylinder; 28. a ground wire rear pulling plate; 29. a first slide rail; 30. a first slider; 31. a connecting arm; 32. a second slide rail; 33. a second slider; 34. a wire pressing plate; 35. a third slide rail; 36. a third slider; 37. a wire supporting block; 38. a ground line upper top plate; 39. and the ground wire pushes up the cylinder.
Detailed Description
The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.
Referring to fig. 1-3, the present invention provides the following technical solutions: a preliminary ground wire shaping device for a QSFP high-speed wire core wire processor comprises a machine body 1, wherein a preliminary ground wire shaping mechanism 2 is arranged on the machine body 1, the preliminary ground wire shaping mechanism 2 comprises a machine frame 21, a ground wire front top plate 22, a lower assembling plate 23, a ground wire front top cylinder 24, a ground wire rear pulling cylinder 25, an upper assembling plate 26, a ground wire rear pulling plate 28, a wire pressing plate 34, a wire supporting block 37, a ground wire upper top plate 38 and a ground wire upper top cylinder 39, the machine frame 21 is connected with the machine body 1, the upper assembling plate 26 is connected to the upper part of the inner wall of the machine frame 21, the ground wire rear pulling cylinder 25 is assembled on one side below the upper assembling plate 26, the cylinder shaft end of the ground wire rear pulling cylinder 25 is connected with the ground wire rear pulling plate 28, the lower assembling plate 23 is connected to the lower part of the inner wall of the machine frame 21, the ground wire front top cylinder 24 is assembled on one side close to the ground wire rear pulling cylinder 25, the cylinder 24 is connected with the ground wire front top plate 22, the side wall of the frame 21 far away from the ground wire front top cylinder 24 and the ground wire rear pull cylinder 25 is connected with a wire pressing plate 34 in a lifting mode close to the upper portion, the side wall of the frame 21 far away from the ground wire front top cylinder 24 and the ground wire rear pull cylinder 25 is fixedly connected with a wire supporting block 37 close to the lower portion, the side wall of the frame 21 far away from the ground wire front top cylinder 24 and the ground wire rear pull cylinder 25 is equipped with a ground wire upper top cylinder 39 located below the wire supporting block 37, and the cylinder shaft end of the ground wire upper top cylinder 39 is connected with a ground wire upper top plate 38.
Specifically, the frame 21 is fixed on the machine body 1 through a first bolt,
by adopting the technical scheme, the rack 21 and the machine body 1 can be disassembled and assembled, and the device is convenient to replace when damaged.
Specifically, the top end of the ground wire front top plate 22 and the bottom end of the ground wire rear pulling plate 28 are both connected with a third sliding rail 35, the top end of the lower assembling plate 23 and the bottom end of the upper assembling plate 26 are both connected with third sliding blocks 36, the two third sliding blocks 36 respectively slide on the corresponding third sliding rails 35,
by adopting the technical scheme, the stability of the ground wire front top plate 22 and the ground wire rear pulling plate 28 during movement is improved.
Specifically, a wire pressing cylinder 27 is assembled on one side of the top inner wall of the rack 21, a first slide rail 29 is assembled on the other side of the top inner wall of the rack 21, a first slide block 30 is connected onto the first slide rail 29 in a sliding manner, the first slide block 30 is connected with a cylinder shaft of the wire pressing cylinder 27, a connecting arm 31 is rotatably connected below the first slide block 30, one end of the connecting arm 31, which is far away from the first slide block 30, is rotatably connected with a wire pressing plate 34, two second slide blocks 33 are symmetrically connected onto the side wall of the wire pressing plate 34, which is close to the rack 21, positions on the rack 21 corresponding to the two second slide blocks 33 are both connected with second slide rails 32, and the two second slide blocks 33 slide on the corresponding second slide rails 32,
by adopting the above technical scheme, the wire pressing plate 34 has a liftable function.
Specifically, the lower assembling plate 23 and the upper assembling plate 26 are fixed on the inner wall of the frame 21 by the second bolt,
by adopting the technical scheme, the detachable function is realized between the lower assembly plate 23, the upper assembly plate 26 and the rack 21, the front top structure or the rear pull structure in the damage process can be conveniently and independently replaced, the integral replacement is not needed, and the use cost is reduced.
Specifically, the first bolt and the second bolt both comprise a nut and a screw rod, the nut is made of stainless steel, the screw rod is arranged at one end of the nut, the screw rod is made of carbon steel alloy,
through adopting above-mentioned technical scheme, avoid first bolt and second bolt to expose the structure emergence corrosion outside, make things convenient for first bolt of later stage dismouting and second bolt.
The utility model discloses a theory of operation and use flow: the manipulator places the ground wire to be preliminarily shaped on the wire supporting block 37, the wire pressing cylinder 27 is started and drives the cylinder shaft to extend, the cylinder shaft of the wire pressing cylinder 27 drives the first slide block 30 to slide on the first slide rail 29 in the direction away from the wire pressing cylinder 27, the connecting arm 31 is driven to move downwards in the sliding process of the first slide block 30, the connecting arm 31 drives the wire pressing plate 34 to move downwards, the connecting arm 31 stops moving downwards until the side wall of the first slide block 30 abuts against the side wall of the first slide rail 29 and cannot slide, at the moment, the wire pressing plate 34 and the wire supporting block 37 are matched to press the ground wire to position the ground wire, after positioning, the ground wire top-up cylinder 39 is started and drives the cylinder shaft to extend, the cylinder shaft of the ground wire top-up cylinder 39 drives the ground wire top plate 38 to top up, top-up shaping of the ground wire is completed, the ground wire top-up shaping is completed, the ground wire top-up cylinder 39 drives the cylinder shaft to shrink, until the initial position is recovered, after the ground wire upper top cylinder 39 is recovered to the initial position, the ground wire front top cylinder 24 is started and drives the cylinder shaft to extend, the cylinder shaft of the ground wire front top cylinder 24 drives the front top of the ground wire front top plate 22 to complete the front top bending and shaping of the ground wire, the front top cylinder 24 drives the cylinder shaft to contract until the initial position is recovered, after the ground wire front top cylinder 24 is recovered to the initial position, the ground wire back-pulling cylinder 25 is started and drives the cylinder shaft to contract, the cylinder shaft of the ground wire back-pulling cylinder 25 drives the ground wire back-pulling plate 28 to pull back, the back-pulling and shaping of the ground wire is completed, the ground wire back-pulling cylinder 25 drives the cylinder shaft to extend until the initial position is recovered, the wire pressing cylinder 27 drives the cylinder shaft to contract, the cylinder shaft of the wire pressing cylinder 27 drives the first slide block 30 to slide on the first slide rail 29 in the direction close to the wire pressing cylinder 27, the first slider 30 drives the connecting arm 31 to move upwards in the sliding process, the connecting arm 31 drives the wire pressing plate 34 to move upwards until the wire pressing cylinder 27 returns to the initial position, and at the moment, the wire pressing plate 34 loses the pressing effect on the ground wire, the ground wire can enter the next process, and the shaping operation is completed;
in the lifting process of the wire pressing plate 34, the second sliding block 33 on the wire pressing plate 34 synchronously slides on the second sliding rail 32 on the rack 21, so that the moving track of the wire pressing plate 34 can be limited, and meanwhile, the stability of the wire pressing plate 34 in the lifting process can be improved;
in the process of the front top of the ground wire front top plate 22, the third slide rail 35 on the ground wire front top plate 22 and the third slide block 36 on the lower assembly plate 23 synchronously slide, so that the stability of the ground wire front top plate 22 in the process of the front top can be improved;
in the back-pulling process of the ground wire back-pulling plate 28, the third slide rail 35 on the ground wire back-pulling plate 28 and the third slide block 36 on the upper assembling plate 26 also slide synchronously, so that the stability of the ground wire back-pulling plate 28 in the back-pulling process can be improved.
Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. A preliminary ground wire shaping device for a QSFP high-speed wire core wire processor comprises a machine body (1), and is characterized in that: the ground wire shaping machine is characterized in that a primary ground wire shaping mechanism (2) is arranged on the machine body (1), the primary ground wire shaping mechanism (2) comprises a rack (21), a ground wire front top plate (22), a lower assembling plate (23), a ground wire front top cylinder (24), a ground wire rear pull cylinder (25), an upper assembling plate (26), a ground wire rear pull plate (28), a wire pressing plate (34), a wire supporting block (37), a ground wire upper top plate (38) and a ground wire upper top pull cylinder (39), the rack (21) is connected with the machine body (1), the upper assembling plate (26) is connected to the upper portion of the inner wall of the rack (21) close to the upper portion, the ground wire rear pull cylinder (25) is assembled to one side of the upper assembling plate (26), the cylinder shaft end of the ground wire rear pull cylinder (25) is connected with the ground wire rear pull plate (28), the lower assembling plate (23) is connected to the lower portion of the inner wall of the rack (21), the upper portion of the lower assembling plate (23) is located on one side close to the ground wire rear pull cylinder (25) and is provided with the ground wire front pull cylinder (25) The ground wire lifting device comprises a jacking cylinder (24), a cylinder shaft end of the ground wire jacking cylinder (24) is connected with a ground wire front top plate (22), the side wall of the frame (21) far away from the ground wire jacking cylinder (24) and the ground wire rear pulling cylinder (25) is connected with a wire pressing plate (34) in a lifting mode by the upper portion, the side wall of the frame (21) far away from the ground wire jacking cylinder (24) and the ground wire rear pulling cylinder (25) is connected with a wire supporting block (37) by the lower portion, the side wall of the frame (21) far away from the ground wire jacking cylinder (24) and the ground wire rear pulling cylinder (25) is assembled with an upper jacking cylinder (39) below the wire supporting block (37), and the cylinder shaft end of the ground wire upper jacking cylinder (39) is connected with a ground wire upper top plate (38).
2. The preliminary ground wire shaping device for the QSFP high-speed core wire processor as claimed in claim 1, wherein: the frame (21) is fixed on the machine body (1) through a first bolt.
3. The preliminary ground wire shaping device for the QSFP high-speed core wire processor as claimed in claim 1, wherein: the top end of the ground wire front top plate (22) and the bottom end of the ground wire rear pulling plate (28) are both connected with third sliding rails (35), the top end of the lower assembling plate (23) and the bottom end of the upper assembling plate (26) are both connected with third sliding blocks (36), and the two third sliding blocks (36) respectively slide on the corresponding third sliding rails (35).
4. The preliminary ground wire shaping device for the QSFP high-speed core wire processor as claimed in claim 1, wherein: a wire pressing cylinder (27) is assembled on one side of the inner wall of the top end of the frame (21), a first slide rail (29) is assembled at the other side of the inner wall of the top end of the rack (21), a first slide block (30) is connected on the first slide rail (29) in a sliding way, the first sliding block (30) is connected with a cylinder shaft of the wire pressing cylinder (27), a connecting arm (31) can be rotatably connected below the first sliding block (30), one end of the connecting arm (31) far away from the first sliding block (30) is rotatably connected with the wire pressing plate (34), two second sliding blocks (33) are symmetrically connected to the side wall of the wire pressing plate (34) close to the rack (21), the positions, corresponding to the two second sliding blocks (33), on the rack (21) are both connected with second sliding rails (32), and the two second sliding blocks (33) slide on the corresponding second sliding rails (32).
5. The preliminary ground wire shaping device for the QSFP high-speed core wire processor as claimed in claim 2, wherein: the lower assembling plate (23) and the upper assembling plate (26) are fixed on the inner wall of the frame (21) through second bolts.
6. The preliminary ground wire shaping device for the QSFP high-speed core wire processor as claimed in claim 5, wherein: first bolt and second bolt all include nut and screw rod, the nut is made for stainless steel material, the one end of nut is provided with the screw rod, the screw rod is made for carbon steel alloy.
CN202120455950.9U 2021-03-02 2021-03-02 A preliminary ground wire shaping device for QSFP high-speed sinle silk line processor Active CN214639840U (en)

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CN202120455950.9U CN214639840U (en) 2021-03-02 2021-03-02 A preliminary ground wire shaping device for QSFP high-speed sinle silk line processor

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CN202120455950.9U CN214639840U (en) 2021-03-02 2021-03-02 A preliminary ground wire shaping device for QSFP high-speed sinle silk line processor

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN114178433A (en) * 2021-11-24 2022-03-15 东莞市三信精密机械有限公司 Intermediate ground wire shaping method of high-speed wire

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN114178433A (en) * 2021-11-24 2022-03-15 东莞市三信精密机械有限公司 Intermediate ground wire shaping method of high-speed wire

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