CN207882515U - Core retainer plate feeding device for fibre-optical splice assembly equipment - Google Patents
Core retainer plate feeding device for fibre-optical splice assembly equipment Download PDFInfo
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- CN207882515U CN207882515U CN201820315271.XU CN201820315271U CN207882515U CN 207882515 U CN207882515 U CN 207882515U CN 201820315271 U CN201820315271 U CN 201820315271U CN 207882515 U CN207882515 U CN 207882515U
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- retainer plate
- core retainer
- core
- fibre
- assembly equipment
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Abstract
The utility model discloses a kind of core retainer plate feeding devices for fibre-optical splice assembly equipment, are related to fibre-optical splice assembly equipment, it is intended to and it solves the prior art and does not have the function of adjusting core retainer plate angle, its key points of the technical solution are that:A kind of core retainer plate feeding device for fibre-optical splice assembly equipment, including core retainer plate feeding machanism, inserting and taking-out mechanism and releasing mechanism, core retainer plate feeding machanism includes core retainer plate barrel, core retainer plate vibrating disc and core retainer plate channel, core retainer plate channel top is communicated with the upright rail of core retainer plate, the upright rail upper surface of core retainer plate offers core retainer plate conduit, the upright rail of core retainer plate offers core retainer plate correction slot, core retainer plate correction slot and great circle section clearance fit along core retainer plate conduit both sides upper edge.A kind of core retainer plate feeding device for fibre-optical splice assembly equipment of the utility model forces its rotation by shaking core retainer plate, and limits the turning power for the core retainer plate for completing angle adjustment, to provide the core retainer plate of special angle for assembly equipment.
Description
Technical field
The utility model is related to fibre-optical splice assembly equipments, more specifically, it relates to which a kind of assemble for fibre-optical splice
The core retainer plate feeding device of equipment.
Background technology
SC fibre-optical splices are one kind of common fibre-optical splice, are made of four parts, as shown in figure 8, being respectively
Square set 91(The square set 91 is opposite to offer horizontal card slot 911), core retainer plate 92(The core retainer plate 92 includes great circle section 921 and roundlet section
922, the junction of great circle section 921 and roundlet section 922 is relatively set with snap-gauge 923), lock pin 93 and spring 94, four
It is assembled and is integrated by mode as shown in Figure 9.
The part for being similar to core retainer plate 92 in the market is generally announced by the Chinese patent that such as notification number is CN205932176U
A kind of vibrations feeding device realize, be characterized in that:Loading plate including pedestal and the side of being set on the base, loading plate packet
The side wall for including bottom wall and being upwardly extended from bottom wall periphery, loading plate further include connecting with bottom wall and facing upward disk along the inner wall of side wall
Around helical guideway, offer several bar-shaped troughs on helical guideway.
But when applying to fibre-optical splice assembly equipment, therefore, to assure that two snap-gauges 923 are in alignment with respective horizontal card slot
911, therefore core retainer plate 92 needs to carry out feeding at a particular angle, and said program does not have the function of adjusting 92 angle of core retainer plate,
Therefore it also needs to be improved optimization.
Utility model content
It is set for fibre-optical splice assembly in view of the deficienciess of the prior art, the purpose of this utility model is to provide one kind
Standby core retainer plate feeding device forces its rotation by shaking core retainer plate, and limits the turning power for the core retainer plate for completing angle adjustment, from
And the core retainer plate of special angle is provided for assembly equipment.
The above-mentioned technical purpose of the utility model technical scheme is that:One kind being used for fibre-optical splice
The core retainer plate feeding device of assembly equipment, including core retainer plate feeding machanism, inserting and taking-out mechanism and releasing mechanism, the core retainer plate feeding machanism
Including core retainer plate barrel, the core retainer plate vibrating disc being set in core retainer plate barrel and the core retainer plate risen along core retainer plate barrel inner periphery inside spin
Channel, core retainer plate channel top are communicated with the upright rail of core retainer plate, and the upright rail upper surface of core retainer plate offers core retainer plate along its track
Conduit, the width of the core retainer plate conduit is more than the diameter of roundlet section, but less than the diameter of great circle section, the upright rail of core retainer plate is along core
Set conduit both sides upper edge offers core retainer plate correction slot, the core retainer plate correction slot and great circle section clearance fit.
By using above-mentioned technical proposal, for the utility model in normal work, core retainer plate vibrating disc generates vibrations, to band
Dynamic entire core retainer plate barrel vibrations, the core retainer plate being positioned in core retainer plate barrel is given a shock the effect of power, into core retainer plate channel and along it
Spiral;It is affected by gravity to rotate when core retainer plate enters the upright rail of core retainer plate, to which the smaller roundlet section of diameter is worn
Core retainer plate conduit is crossed, the great circle section being relatively large in diameter is stranded on core retainer plate conduit, and then core retainer plate is forced to advance with upright state;Work as core
When set is moved to correction slot, its snap-gauge of the incorrect core retainer plate of angle is connected to the upright rail upper surface of core retainer plate, and at the same time core retainer plate shakes
The shaking force of Moving plate is transmitted on the upright rail of core retainer plate, and to force core retainer plate to be shaken, core retainer plate revolves in dither process
Turn, when core retainer plate turns to snap-gauge in alignment with correction slot, core retainer plate is fallen by gravity, when snap-gauge is fallen into correction slot,
Snap-gauge both sides are clamped by correction slot, to limit the turning power of core retainer plate, and then realize the adjustment for core retainer plate angle.
The utility model is further arranged to:The inserting and taking-out mechanism includes vertical guide plate, is connected with the sliding of vertical guide plate
It core retainer plate lifting seat, the core retainer plate rodless cylinder being installed on core retainer plate lifting seat and is set to perpendicular on the sliding block of core retainer plate rodless cylinder
Straight cutting needle, the vertical contact pin are wrapped with rubber sleeve, and the rubber sleeve is interference fitted with core retainer plate inner circle.
By using above-mentioned technical proposal, when vertical and completion angle adjustment core retainer plate is moved to the upright rail end of core retainer plate
When, core retainer plate rodless cylinder drives vertical contact pin to be moved to right over core retainer plate, and core retainer plate lifting seat declines, and is inserted to control vertical contact pin
Enter the inner circle of core retainer plate, and then using the elastic deformation ability of rubber sleeve, realizes the connection of vertical contact pin and core retainer plate;When vertical contact pin
After grafting core retainer plate, core retainer plate lifting seat rises, and core retainer plate is taken away the upright rail of core retainer plate to control vertical contact pin;When on core retainer plate lifting seat
When being raised to predetermined altitude, core retainer plate rodless cylinder controls vertical contact pin and is moved horizontally to precalculated position, and is controlled by core retainer plate lifting seat
Vertical contact pin declines, to which core retainer plate is embedded in precalculated position;Core retainer plate and vertical contact pin are finally detached by disengaging component, to complete
The feeding of one core retainer plate;It is inserted using the program and takes material, captured material compared to traditional clamping jaw cylinder, effectively avoid for core
Cover the damage of this kind of hollow parts.
The utility model is further arranged to:The vertical guide plate both sides offer slippage slot, the core retainer plate lifting respectively
Seat is provided with the slipping block with slippage slot movable fit.
By using above-mentioned technical proposal, slipping block movable fit within slippage slot, to realize core retainer plate lifting seat with
The sliding connection of vertical guide plate;Meanwhile two slipping blocks are embedded in respectively in corresponding slippage slot, to realize core retainer plate lifting seat pair
In the sandwich of vertical guide plate, and then limit the mobility of core retainer plate lifting seat, the ability for making it only have longitudinal sliding motion.
The utility model is further arranged to:The vertical guide plate is fixedly installed horizontal arm, and the horizontal arm is provided with
Second cylinder, the second cylinder piston rod end be fixedly installed plate, and the upright rail of core retainer plate is offered to be inserted into for plate
The distance of straight slot, the straight slot to the upright rail end of core retainer plate only accommodates a core retainer plate.
By using above-mentioned technical proposal, before vertical contact pin is inserted into core retainer plate inner circle, the second cylinder pushes plate to pass through
Straight slot to detach the core retainer plate of the upright rail end of core retainer plate and adjacent core retainer plate by plate, and then avoids adjacent core retainer plate from mutually linking, has
Effect prevents vertical contact pin from driving adjacent core retainer plate when with abterminal core retainer plate;When that the core retainer plate of end taken away core retainer plate is straight for vertical contact pin
When vertical rail, the second cylinder controls plate retraction, and is detached from the upright rail of core retainer plate, is moved to avoid influencing next core retainer plate because of plate
It moves to the upright rail end of core retainer plate.
The utility model is further arranged to:The releasing mechanism includes and the fixed third cylinder of horizontal arm and fixation
In the follow block of third cylinder piston rod end, the follow block is connected to snap-gauge upper surface.
By using above-mentioned technical proposal, when vertical contact pin is with core retainer plate insertion precalculated position, before third cylinder pushes follow block
It moves to and is connected to snap-gauge upper surface, to limit the upward mobility of core retainer plate by follow block, when vertical contact pin is driven rising, by
It can not be moved up in core retainer plate, therefore be stranded in precalculated position, and then complete the separation of core retainer plate and vertical contact pin;To sum up institute
State, by contacting for follow block and snap-gauge, realize the separation of core retainer plate and vertical contact pin, it is simple in structure and control it is convenient.
The utility model is further arranged to:The follow block offers U-lag mouth, the U-lag mouth and the intersegmental gap of great circle
Cooperation.
By using above-mentioned technical proposal so that follow block can be connected to the upper surface of two pieces of snap-gauges simultaneously, to reach
The technique effect that core retainer plate is more uniformly stressed.
The utility model is further arranged to:Core retainer plate vibrating disc upper surface is in coniform.
By using above-mentioned technical proposal, core retainer plate is forced to be affixed to the inner wall of core retainer plate barrel, to reach core retainer plate be easier into
Enter the technique effect in core retainer plate channel.
The utility model is further arranged to:The edge in the core retainer plate channel is provided with retaining wall, and the height of the retaining wall is small
In the diameter of core retainer plate.
By using above-mentioned technical proposal core retainer plate is fallen back to reduce core retainer plate by the edge in retaining wall blocking core retainer plate channel
The possibility of barrel;Simultaneously by the optimization to retaining wall height, when in core retainer plate channel there are when excessive core retainer plate, extra core retainer plate
By because of the effect of extruding force, crosses retaining wall and fall back core retainer plate barrel, to reduce the hidden danger of material congestion.
In conclusion the utility model has the advantages that:The upright of core retainer plate is realized using gravity, is compeled by shaking
So that the core retainer plate of upright state is rotated, and limit the turning power of the core retainer plate of correct angle, to realize the tune for core retainer plate angle
It is whole;It is inserted by vertical contact pin and takes material, to avoid the damage for this kind of hollow parts of core retainer plate;Adjacent core is detached by plate
Set, to avoid adjacent core retainer plate from mutually linking;By contacting for follow block and snap-gauge, point of the core retainer plate with vertical contact pin is realized
From simple in structure and control is convenient;The upper surface of two pieces of snap-gauges is connected to simultaneously by follow block, to reach core retainer plate stress more
Uniform technique effect.
Description of the drawings
Fig. 1 is the overall structure diagram of the utility model;
Fig. 2 is the structural schematic diagram of the upright rail of the utility model core retainer plate;
Fig. 3 is the portions the A enlarged diagram of Fig. 2, the main matching relationship for indicating core retainer plate correction slot and core retainer plate;
Fig. 4 is the partial sectional view of the utility model, main to indicate core retainer plate barrel internal structure;
Fig. 5 is the portions the B enlarged diagram of Fig. 4, the main structure for indicating core retainer plate channel;
The overall structure diagram at another visual angle of the utility model of Fig. 6;
Fig. 7 is the portions the C enlarged diagram of Fig. 6;
Fig. 8 is the structural schematic diagram of fibre-optical splice;
Fig. 9 is the explosive view of Fig. 8, the main each parts for indicating fibre-optical splice.
Description of the drawings:11, core retainer plate barrel;12, core retainer plate vibrating disc;13, core retainer plate channel;14, the upright rail of core retainer plate;15, core retainer plate
Conduit;151, correction slot;16, retaining wall;21, vertical guide plate;22, core retainer plate lifting seat;221, the first cylinder;23, core retainer plate is without bar gas
Cylinder;24, vertical contact pin;25, rubber sleeve;26, slippage slot;27, slipping block;28, horizontal arm;29, the second cylinder;291, plate;
292, straight slot;293, third cylinder;294, follow block;295, U-lag mouth;91, square set;911, horizontal card slot;92, core retainer plate;921、
Great circle section;922, roundlet section;923, snap-gauge;93, lock pin;94, spring.
Specific implementation mode
The utility model is described in further detail below in conjunction with attached drawing.
For the core retainer plate feeding device of fibre-optical splice assembly equipment, as shown in Fig. 1, Fig. 9, including core retainer plate feeding machanism, insert
Take mechanism and releasing mechanism, core retainer plate feeding machanism includes core retainer plate barrel 11, the core retainer plate vibrating disc that is set in core retainer plate barrel 11
12 and along the spiralling core retainer plate channel 13 of 11 inner peripheral surface of core retainer plate barrel, 13 top of core retainer plate channel is communicated with the upright rail of core retainer plate
14, upright 14 upper surface of rail of core retainer plate offers core retainer plate conduit 15 along its track, and the width of core retainer plate conduit 15 is more than roundlet section 922
Diameter, but less than the diameter of great circle section 921, as shown in Fig. 2, Fig. 3, Fig. 9, the upright rail 14 of core retainer plate is along 15 both sides top of core retainer plate conduit
Edge offers core retainer plate correction slot 151, core retainer plate correction slot 151 and 921 clearance fit of great circle section.
The utility model is in normal work, and as shown in Fig. 1, Fig. 3, Fig. 9, core retainer plate vibrating disc 12 generates vibrations, to band
Dynamic entire core retainer plate barrel 11 shakes, and the core retainer plate 92 being positioned in core retainer plate barrel 11 is given a shock the effect of power, into core retainer plate channel
13 and along spiral;It is affected by gravity to rotate when core retainer plate 92 enters the upright rail 14 of core retainer plate, to diameter compared with
Small roundlet section 922 passes through core retainer plate conduit 15, and the great circle section 921 being relatively large in diameter is stranded on core retainer plate conduit 15, and then is forced
Core retainer plate 92 is advanced with upright state;When core retainer plate 92 is moved to correction slot 151, incorrect 92 its snap-gauge 923 of core retainer plate of angle supports
It is connected to upright 14 upper surface of rail of core retainer plate, at the same time the shaking force of core retainer plate vibrating disc 12 is transmitted on the upright rail of core retainer plate 14, from
And core retainer plate 92 is forced to be shaken, core retainer plate 92 rotates in dither process, when core retainer plate 92 turns to snap-gauge 923 in alignment with entangling
When inclined slot 151, core retainer plate 92 is fallen by gravity, and when snap-gauge 923 is fallen into correction slot 151,923 both sides of snap-gauge are entangled
The clamping of inclined slot 151 to limit the turning power of core retainer plate 92, and then realizes the adjustment for 92 angle of core retainer plate.
Core retainer plate 92 needs to realize spiral along core retainer plate channel 13, core retainer plate channel 13 is entered for ease of core retainer plate 92, such as Fig. 4
Shown, 12 upper surface of core retainer plate vibrating disc is in coniform, to force core retainer plate 92 to be affixed to the inner wall of core retainer plate barrel 11, and then reaches core
Set is easier the technique effect into core retainer plate channel 13.
To reduce the possibility fallen by core retainer plate channel 13 during 92 spiral of core retainer plate, as shown in Figure 4, Figure 5, core retainer plate
The edge in channel 13 effectively reduces core retainer plate 92 integrally formed with retaining wall 16 to stop the edge in core retainer plate channel 13 by retaining wall 16
There is the possibility that core retainer plate channel 13 is fallen;But found in practice, if stopping all core retainer plates 92, it is logical to will produce core retainer plate
The excessive core retainer plate 92 of accumulation in road 13, to lead to the problem of blocking, the height of retaining wall 16 is less than the diameter of core retainer plate 92 thus, to
When stopping core retainer plate 92 to a certain extent, while being stacked with when the core retainer plate of a certain position 92 is excessive, 92 energy of core retainer plate of top
It is enough to be forced down core retainer plate channel 13, and then reduce the hidden danger that core retainer plate channel 13 blocks.
Inserting and taking-out mechanism extracts core retainer plate 92 in the following way in the utility model, and as shown in Figure 6, Figure 7, inserting and taking-out mechanism includes
Vertical guide plate 21, the core retainer plate lifting seat 22 connected with the sliding of vertical guide plate 21, the core retainer plate being installed on core retainer plate lifting seat 22 are without bar
Cylinder 23 and be screwed on core retainer plate rodless cylinder 23 sliding block bottom end vertical contact pin 24, wherein vertical 21 top of guide plate
It is fixedly installed the first cylinder 221, the piston rod of the first cylinder 221 straight down, and is fixed with core retainer plate lifting seat 22, vertical to insert
Needle 24 wraps the intrinsic rubber sleeve 25 of attached and glue, and rubber sleeve 25 is interference fitted with 92 inner circle of core retainer plate.
When vertical and when completing the core retainer plate 92 of angle adjustment and being moved to the end of the upright rail of core retainer plate 14, core retainer plate rodless cylinder 23
It drives vertical contact pin 24 to be moved to right over core retainer plate 92, pushes core retainer plate lifting seat 22 to decline by the first cylinder 221, to which control is perpendicular
Straight cutting needle 24 is inserted into the inner circle of core retainer plate 92, and then using the elastic deformation ability of rubber sleeve 25, realizes vertical contact pin 24 and core retainer plate
92 connection;After 24 grafting core retainer plate 92 of vertical contact pin, core retainer plate lifting seat 22 is pulled to rise by the first cylinder 221, to control
Core retainer plate 92 is taken away the upright rail of core retainer plate 14 by vertical contact pin 24;When core retainer plate lifting seat 22 rises to predetermined altitude, core retainer plate is without bar gas
Cylinder 23 pushes core retainer plate 92 to be moved horizontally to the surface in precalculated position, and pushes core retainer plate lifting seat 22 to decline by the first cylinder 221,
To which core retainer plate 92 is embedded in precalculated position;Core retainer plate 92 and vertical contact pin 24 are finally detached by disengaging component, to complete a core
The feeding of set 92;It should be noted that for 92 this kind of part of core retainer plate, generally grabbed by clamping jaw cylinder in traditional processing technology
It takes, but is constrained to the hollow-core construction of core retainer plate 92, core retainer plate 92 is may be damaged in crawl, therefore the utility model uses grafting
Mode extract core retainer plate 92.
Core retainer plate lifting seat 22 slides with vertical guide plate 21 connect in the following way, as shown in fig. 6, vertical 21 both sides of guide plate
Offer slippage slot 26 along its length respectively, core retainer plate lifting seat 22 integrally formed with two pieces respectively with 26 gap of corresponding slippage slot
Chimeric slipping block 27, to realize core retainer plate lifting seat 22 and vertical guide plate by the cooperation between slipping block 27 and slippage slot 26
21 sliding connection.
It is found in practice, since the outer circumference surface of core retainer plate 92 is not smooth face, there are adjacent core retainer plates
92 the problem of mutually linking, to avoid the when of therefore causing end core retainer plate 92 to be raised from driving adjacent core retainer plate 92, such as Fig. 6, Fig. 7 institute
Show, vertical guide plate 21 is welded with horizontal arm 28, and horizontal arm 28 is equipped with the second cylinder 29, the weldering of 29 tailpiece of the piston rod of the second cylinder
It connects and is fixed with plate 291, the upright rail of core retainer plate 14 offers the straight slot 292 being inserted into for plate 291, straight slot 292 to the upright rail of core retainer plate
The distance of 14 ends only accommodates a core retainer plate 92.
Before vertical contact pin 24 is inserted into 92 inner circle of core retainer plate, the second cylinder 29 pushes plate 291 to pass through straight slot 292, to
The core retainer plate 92 and adjacent core retainer plate 92 of core retainer plate upright 14 end of rail are detached by plate 291, and then are avoided mutual because of adjacent core retainer plate 92
It links, and vertical contact pin 24 is caused to drive adjacent core retainer plate 92 when with abterminal core retainer plate 92;When vertical contact pin 24 is by end
When core retainer plate 92 takes away core retainer plate upright rail 14, the second cylinder 29 controls plate 291 and bounces back, and is detached from the upright rail 14 of core retainer plate, to keep away
Exempt to influence the end that next core retainer plate 92 is moved to the upright rail of core retainer plate 14 because of plate 291.
Releasing mechanism detaches vertical contact pin 24 and core retainer plate 92, as shown in Fig. 6, Fig. 7, Fig. 9, releasing mechanism in the following way
Include with 28 fixed third cylinder 293 of horizontal arm and being fixed on the follow block 294 of 293 tailpiece of the piston rod of third cylinder, follow block 294
It is connected to 923 upper surface of snap-gauge;When vertical contact pin 24 and core retainer plate 92 are embedded in precalculated position, third cylinder 293 pushes follow block 294
It moves forward to and is connected to 923 upper surface of snap-gauge, to limit the upward mobility of core retainer plate 92 by follow block 294, when 24 quilt of vertical contact pin
When driving rising, since core retainer plate 92 can not move up, it is stranded in precalculated position, and then complete core retainer plate 92 and insert vertically
The separation of needle 24.
It should be noted that as shown in Fig. 7, Fig. 9, follow block 294 offers U-lag mouth 295, U-lag mouth 295 and great circle section
921 clearance fits, to when third cylinder 293 push follow block 294 Forward after, follow block 294 be connected to simultaneously two pieces of snap-gauges 923 it
On, and then it is implemented in the technique effect that both sides simultaneously apply core retainer plate 92 down force, and then the stress for improving core retainer plate 92 is equal
Even property.
Specific embodiment is only the explanation to the utility model, is not limitations of the present invention, this field
Technical staff can as needed make the present embodiment the modification of not creative contribution after reading this specification, but only
It all to be protected by Patent Law in the right of the utility model.
Claims (8)
1. a kind of core retainer plate feeding device for fibre-optical splice assembly equipment, including core retainer plate feeding machanism, inserting and taking-out mechanism and de-
It disembarks structure, the core retainer plate feeding machanism includes core retainer plate barrel(11), be set to core retainer plate barrel(11)Interior core retainer plate vibrating disc(12)
And along core retainer plate barrel(11)The spiralling core retainer plate channel of inner peripheral surface(13), it is characterised in that:The core retainer plate channel(13)
Top is communicated with the upright rail of core retainer plate(14), the upright rail of core retainer plate(14)Upper surface offers core retainer plate conduit along its track(15),
The core retainer plate conduit(15)Width be more than roundlet section(922)Diameter, but be less than great circle section(921)Diameter, the core retainer plate
Upright rail(14)Along core retainer plate conduit(15)Both sides upper edge offers core retainer plate correction slot(151), the core retainer plate correction slot(151)With
Great circle section(921)Clearance fit.
2. the core retainer plate feeding device according to claim 1 for fibre-optical splice assembly equipment, it is characterised in that:It is described to insert
It includes vertical guide plate to take mechanism(21)And vertical guide plate(21)Slide the core retainer plate lifting seat of connection(22), be installed on core retainer plate lifting
Seat(22)On core retainer plate rodless cylinder(23)And it is set to core retainer plate rodless cylinder(23)Sliding block on vertical contact pin(24), institute
State vertical contact pin(24)It is wrapped with rubber sleeve(25), the rubber sleeve(25)With core retainer plate(92)Inner circle is interference fitted.
3. the core retainer plate feeding device according to claim 2 for fibre-optical splice assembly equipment, it is characterised in that:It is described perpendicular
Straight guide plate(21)Both sides offer slippage slot respectively(26), the core retainer plate lifting seat(22)It is provided with and slippage slot(26)Gap is embedding
The slipping block of conjunction(27).
4. the core retainer plate feeding device according to claim 3 for fibre-optical splice assembly equipment, it is characterised in that:It is described perpendicular
Straight guide plate(21)It is fixedly installed horizontal arm(28), the horizontal arm(28)It is provided with the second cylinder(29), second cylinder
(29)Tailpiece of the piston rod is fixedly installed plate(291), the upright rail of core retainer plate(14)It offers for plate(291)The straight slot of insertion
(292), the straight slot(292)To the upright rail of core retainer plate(14)The distance of end only accommodates a core retainer plate(92).
5. the core retainer plate feeding device according to claim 4 for fibre-optical splice assembly equipment, it is characterised in that:It is described de-
Structure of disembarking includes and horizontal arm(28)Fixed third cylinder(293)And it is fixed on third cylinder(293)Tailpiece of the piston rod supports
Plate(294), the follow block(294)It is connected to snap-gauge(923)Upper surface.
6. the core retainer plate feeding device according to claim 5 for fibre-optical splice assembly equipment, it is characterised in that:It is described to support
Plate(294)Offer U-lag mouth(295), the U-lag mouth(295)With great circle section(921)Clearance fit.
7. the core retainer plate feeding device according to claim 1 for fibre-optical splice assembly equipment, it is characterised in that:The core
Cover vibrating disc(12)Upper surface is in coniform.
8. the core retainer plate feeding device according to claim 1 for fibre-optical splice assembly equipment, it is characterised in that:The core
Cover channel(13)Edge be provided with retaining wall(16), the retaining wall(16)Height be less than core retainer plate(92)Diameter.
Priority Applications (1)
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CN201820315271.XU CN207882515U (en) | 2018-03-07 | 2018-03-07 | Core retainer plate feeding device for fibre-optical splice assembly equipment |
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Application Number | Priority Date | Filing Date | Title |
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CN201820315271.XU CN207882515U (en) | 2018-03-07 | 2018-03-07 | Core retainer plate feeding device for fibre-optical splice assembly equipment |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113857841A (en) * | 2021-09-09 | 2021-12-31 | 宁波金丽喜气动元件有限公司 | Full-automatic kludge of choke valve |
-
2018
- 2018-03-07 CN CN201820315271.XU patent/CN207882515U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113857841A (en) * | 2021-09-09 | 2021-12-31 | 宁波金丽喜气动元件有限公司 | Full-automatic kludge of choke valve |
CN113857841B (en) * | 2021-09-09 | 2023-12-08 | 宁波金丽喜气动元件有限公司 | Full-automatic assembly machine for throttle valve |
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TR01 | Transfer of patent right |
Effective date of registration: 20230310 Address after: 314199 Room 302, Unit 1, Building 25, Rose Lane, Yulanxin Village, Weitang Town, Jiashan County, Jiaxing City, Zhejiang Province Patentee after: Lv Zhijian Address before: 314199 four, building 1, No. 18, No. 1, GUI Wu Road, Luo Xing street, Jiashan, Jiaxing, Zhejiang. Patentee before: ZHEJIANG ONEDREAM COMMUNICATION TECHNOLOGY CO.,LTD. |