CN208517279U - The pressure beam splitting travel control device of glass fibre wire drawing machine - Google Patents
The pressure beam splitting travel control device of glass fibre wire drawing machine Download PDFInfo
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- CN208517279U CN208517279U CN201820788349.XU CN201820788349U CN208517279U CN 208517279 U CN208517279 U CN 208517279U CN 201820788349 U CN201820788349 U CN 201820788349U CN 208517279 U CN208517279 U CN 208517279U
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Abstract
The utility model relates to the pressure beam splitting travel control devices of glass fibre wire drawing machine, the pressure beam splitting travel control device is mounted on the cover board of glass fibre wire drawing machine, the pressure beam splitting travel control device includes rack and rack-mounted stroke adjustable cylinder, the trip adjustable cylinder is connected to the quantitative gas supply mechanism, which is controlled by the control panel being mounted on glass fibre wire drawing machine;The stroke adjustable cylinder is connected to beam-splitting air cylinder is forced, and is equipped with sliding block on the pressure beam-splitting air cylinder.The utility model adjustment is easy to operate, and versatility is good, can effectively improve production efficiency, and improve product quality and yield stability, reduces production cost, at home and abroad belongs to pioneering.Glass fibre wire drawing machine forces the appearance of beam splitting travel control device, and enterprise can be enabled to adapt to the variation and demand in market at any time, adjusts product variety, improves production stability and efficiency, reduces production cost, wide market.
Description
Technical field
The utility model relates to a kind of glass fibre wire drawing machines to force beam splitting travel control device, the pressure beam splitting stroke control
Device processed, which is realized, forces the adjustment control of beam-splitting air cylinder sliding block up stroke.
Background technique
Glass fibre wire drawing machine forces beam splitting arrangement, is a kind of key device produced for folded yarn rove and spun yarn,
Forcing beam-splitting air cylinder sliding block uplink is to realize the technological action of automatic can_doffing, can reduce tension variation caused by creeling.
Current all glass fiber enterprises are all the pressure beam splitting arrangements using fixed journey system, can only be led to when replacing product variety
It crosses adjustment beam splitter integrally to fix position or replace the specific technological parameter requirement of beam splitter cooperation of different process size, meet
The process requirement of automatic can_doffing, low efficiency is costly, increases production cost, cannot adapt to the variation in market in time.
Summary of the invention
To overcome the shortcomings of existing technologies, the utility model provides a kind of glass fibre wire drawing machine pressure beam splitting stroke control
Device, the technical solution of the utility model are:
The pressure beam splitting travel control device of glass fibre wire drawing machine, the pressure beam splitting travel control device are mounted on glass
On the cover board of fiber pulling machine, the pressure beam splitting travel control device includes that rack and rack-mounted stroke are adjustable
Cylinder (28), the trip adjustable cylinder (28) are connected to quantitative gas supply mechanism, and the quantitative gas supply mechanism is by being mounted on glass fibers
Tie up control panel (41) control on wire drawing machine;The stroke adjustable cylinder (28) is connected to beam-splitting air cylinder is forced, described
Pressure beam-splitting air cylinder on sliding block (31) are installed;The rack includes stabilizer blade (21) and shield (22), and the trip can regulating the qi flowing in the channels
Left end cap is provided on the left of cylinder (28), right side is provided with right end cap, and the shield (22) is mounted on stroke adjustable cylinder
(28) top of left end cap and right end cap is mounted on stabilizer blade (21) in the lower part of the left end cap and right end cap, described
Stabilizer blade (21) and cover board (11) between be connected by screw to together.
The quantitative gas supply mechanism include the first two single electric five-way valves (24), the second two single electric five-way valves (26),
Check valve (25), the first precise pressure-reducing valve (210), the second precise pressure-reducing valve (211), first throttle valve (212) and the second throttling
Valve (213), described the first two single electric five-way valves (24) are fixed on left end cap (281) by first pair of Threaded Connector Coupling (27),
The second two single electric five-way valves (26) are connected with second pair of Threaded Connector Coupling (218), threeway (29) and third in turn to Threaded Connector Coupling
(219) it is fixed on after on right end cap (282), gas source is connected to the first branch and second branch respectively, in the first branch
It is sequentially communicated the P port and B port, the first precise pressure-reducing valve (210), check valve (25) of the first two single electric five-way valves (24)
And threeway (29), the lower port of the threeway are connected to the rod chamber of stroke adjustable cylinder (28), the trip adjustable cylinder (28)
Rodless cavity be connected to the A port of the first two single electric five-way valves (24) and EA port;The upper port of the threeway and second
The P port of two single electric five-way valves (26) be connected to B port, first throttle valve (212) air inlet side by the road with pressure beam splitting gas
The cavity of resorption of cylinder (3) is connected to, and gas side is connect with the A port of the second two single electric five-way valves (26) by the road out;Second throttle
(213) air inlet side by the road with force beam-splitting air cylinder (3) epicoele connect, out gas side by the road with the second precise pressure-reducing valve (211)
Gas side connects out, and second precise pressure-reducing valve accesses second branch.
Successively screw thread is equipped with and adjusts journey casing (214) on the cylinder piston rod (283) of the stroke adjustable cylinder (28)
With tune journey nut (215), journey graduated scale (216) are adjusted to be fixed on graduated scale fixing seat (217), the graduated scale fixing seat
(217) it is mounted on shield (22).
The utility model has the advantages that:
1, it is mounted on glass fibre wire drawing machine as an independent device, to existing relatively cured wire drawing machine complete machine
Design scheme changes very little, can be used as the apolegamy module flexible configuration of new equipment, can also be used as rebuilding old equipment chooses to install mould
Block is assemblied on all devices, and versatility is good.
2, according to the process requirement of different cultivars, Traffic control system is simple, convenient.
3, Traffic control system is accurate, continuous, and repetitive positioning accuracy can meet glass fibre production needs.
The utility model principle is simple, reliable in action, and adjustment is easy to operate, and versatility is good, can effectively improve production efficiency,
Improve product quality and yield stability, reduces production cost, at home and abroad belongs to pioneering.Glass fibre wire drawing machine forces beam splitting
The appearance of travel control device can enable enterprise adapt to the variation and demand in market at any time, adjust product variety, and it is steady to improve production
Qualitative and efficiency reduces production cost, wide market.
Detailed description of the invention
Fig. 1 is schematic diagram when the utility model is mounted on glass fibre wire drawing machine.
Fig. 2 is the left view of Fig. 1.
Fig. 3 is the rearview of Fig. 1.
Fig. 4 is the pneumatic principle schematic diagram of the utility model.
Fig. 5 is the agent structure schematic diagram of the utility model.
Fig. 6 is the right view of Fig. 5.
Fig. 7 is the A-A cross-sectional view of Fig. 5.
Fig. 8 is the B-B cross-sectional view of Fig. 5.
Specific embodiment
Further describe the utility model combined with specific embodiments below, the advantages of the utility model and feature will be with
Description and it is apparent.But examples are merely exemplary for these, does not constitute any restrictions to the scope of the utility model.
It will be understood by those skilled in the art that can be to the utility model skill under the spirit and scope without departing from the utility model
The details and form of art scheme are modified or are replaced, but these modifications and replacement each fall within the protection scope of the utility model
It is interior.
Referring to Fig. 1 to Fig. 8, the utility model relates to a kind of pressure beam splitting travel control device of glass fibre wire drawing machine,
The pressure beam splitting travel control device 2 is mounted on the cover board 11 of glass fibre wire drawing machine, the pressure beam splitting stroke control dress
It sets including rack and rack-mounted stroke adjustable cylinder 28, the trip adjustable cylinder 28 and quantitative gas supply mechanism connect
Logical, which is controlled by the control panel 41 being mounted on glass fibre wire drawing machine;The stroke can regulating the qi flowing in the channels
Cylinder 28 is connected to beam-splitting air cylinder is forced, and is equipped with sliding block 31 on the pressure beam-splitting air cylinder;The rack includes stabilizer blade
21 and shield 22, the left side of the trip adjustable cylinder 28 is provided with left end cap, and right side is provided with right end cap, and the shield 22 is pacified
Mounted in the top of stroke adjustable cylinder 28 left end cap and right end cap, it is mounted in the lower part of the left end cap and right end cap
Stabilizer blade 21 is connected by screw to together between the stabilizer blade 21 and cover board 11.
The quantitative gas supply mechanism includes the first two single electric five-way valves 24, the second two single electric five-way valves 26, unidirectional
Valve 25, the first precise pressure-reducing valve 210, the second precise pressure-reducing valve 211, first throttle valve 212 and second throttle 213, it is described
The first two single electric five-way valves 24 are fixed on left end cap 281 by first pair of Threaded Connector Coupling 27, the second two single electric five-way valves 26
Second pair of Threaded Connector Coupling 218, threeway 29 and third are connected in turn to being fixed on right end cap 282 after Threaded Connector Coupling 219, gas source is distinguished
It is connected to the first branch and second branch, it is logical in the P that the first branch is sequentially communicated the first two single electric five-way valves 24
Mouth and B port, the first precise pressure-reducing valve 210, check valve 25 and threeway 29, the lower port and stroke adjustable cylinder 28 of the threeway
Rod chamber connection, the A port and EA port of the rodless cavity of the trip adjustable cylinder 28 and the first two single electricity five-way valves 24
Connection;The upper port of the threeway is connected to the P port of the second two single electric five-way valves 26 and B port, first throttle valve 212
Air inlet side be connected to the cavity of resorption of beam-splitting air cylinder 3 is forced by the road, and A of the gas side by the road with the second two single electric five-way valves 26 leads to out
Mouth connection;213 air inlet side of second throttle is connect with 3 epicoele of beam-splitting air cylinder is forced by the road, and gas side is smart with second by the road out
Close pressure reducing valve 211 goes out gas side connection, and second precise pressure-reducing valve accesses second branch.
Successively screw thread is equipped with and adjusts journey casing 214 and tune journey on the cylinder piston rod 283 of the stroke adjustable cylinder 28
Nut 215 adjusts journey graduated scale 216 to be fixed in graduated scale fixing seat 217, and the graduated scale fixing seat 217 is mounted on shield
On 22.
Force beam splitting travel control device 2 connect with glass fibre wire drawing machine 1 cable, pipeline across nylon wave pipe 23 into
Enter glass fibre wire drawing machine 1 to connect with control panel, gas source and pressure beam-splitting air cylinder 3 respectively.
As shown in Figure 1, Figure 2, Figure 3 shows, the pressure beam splitting travel control device 2 is used as an independent unit screw
It is mounted on the cover board 11 of glass fibre wire drawing machine 1;31 up stroke of pressure beam-splitting air cylinder sliding block as described in Figure 4 adjusts principle
To realize the control to 31 up stroke of beam-splitting air cylinder sliding block is forced by quantitative gas supply, setting bleed pressure is greater than in the present apparatus
First precise pressure-reducing valve, 210 setting value, 210 setting value of the first precise pressure-reducing valve are greater than 211 setting value of the second precise pressure-reducing valve.The
It is locked after one precise pressure-reducing valve 210 and the setting of the second precise pressure-reducing valve 211 constant:
1 off-position of glass fibre wire drawing machine (the offline inventory of complete machine): the first two 24 power loss of single electric five-way valve, internal P,
The conducting of B port, the conducting emptying of A, EA port;The second two 26 power loss of single electric five-way valve, internal P, B port turn-on deadline, A, EA
Port conducting emptying.The compressed air that gas source provides passes through the second precise pressure-reducing valve 211, second throttle 213 through second branch
It into 3 epicoele of beam-splitting air cylinder is forced, pushes and forces 31 downlink of beam-splitting air cylinder sliding block, force the compressed air of 3 cavity of resorption of beam-splitting air cylinder
By the road by first throttle valve 212, the A port of the second two single electric five-way valves 26, the emptying of EA port, beam-splitting air cylinder is forced
Sliding block 31 goes downwards to bottom.The compressed air that gas source provides passes through P, B of the first two single electric five-way valves 24 through the first branch
Port, the first precise pressure-reducing valve 210, check valve 25, threeway 29 enter 28 rod chamber of stroke adjustable cylinder, push stroke can regulating the qi flowing in the channels
28 piston of cylinder is moved to the left, and the second two single electricity five-way valve 26P ports, B port turn-on deadline do not have compressed air leakage, capable
28 rodless cavity compressed air of journey adjustable cylinder passes through the A port of the first two single electric five-way valves 24, the emptying of EA port, row by the road
28 piston of journey adjustable cylinder is moved to the left, until adjusting 214 left side of journey casing to contact realization with stroke adjustable cylinder right end cap 282
Volume gas storage is limited, storage gas pressure intensity is that the first precise pressure-reducing valve 210 sets pressure.
Wire drawing machine 1 is powered on and (got on the bus, two layers of personnel's beam splitting): the first two 24 power loss of single electric five-way valve, internal P, B port are led
It is logical, the conducting emptying of A, EA port;The second two single electric five-way valves 26 electric, internal P, A port conducting, the conducting of B, EB port.Gas
The compressed air that source provides accurate is depressurized through the first branch by the P port of the first two single electric five-way valves 24, B port, first
Valve 210, check valve 25, threeway 29, the P port of the second two single electric five-way valves 26, A port, first throttle valve 212 enter strong
3 cavity of resorption of beam-splitting air cylinder processed, pushes and forces 31 uplink of beam-splitting air cylinder sliding block, and stroke adjustable cylinder 28 does not have compressed air leakage still
Gas storage state is maintained, forces the compressed air of 3 epicoele of beam-splitting air cylinder to pass through second throttle 213 by the road and reaches the second precision
Pressure reducing valve 211, since pressure is greater than the setting value of the second precise pressure-reducing valve 211 at this time, compressed air can be subtracted by the first precision
The overflow port of pressure valve 211 empties, and beam-splitting air cylinder sliding block 31 is forced to be up to topmost.
Wire drawing machine 1 expires cylinder overturning: the second two single electric five-way valves 26 it is electric, internal P is logical, the conducting of A port, and B port, EB are logical
Mouth conducting;The first two single electric five-way valves 24 electric, internal P port, the conducting of A port, B port, the conducting of EB port.Second liang
The single electric five-way valve 26 in position be slightly sooner in time than the first two single electric five-way valves 24 it is electric, force 3 cavity of resorption of beam-splitting air cylinder to pass through first by the road
Throttle valve 212, the second two single electric five-way valves 26 P port, A port, threeway 29 and 28 rod chamber of stroke adjustable cylinder connect
Logical, the compressed air pressure of rod chamber side storage is greater than the pressure for forcing 3 cavity of resorption compressed air of beam-splitting air cylinder, forces beam splitting gas
31 uplink of cylinder sliding block.Gas source compressed air enters stroke through P port, the A port of the first branch, the first two single electric five-way valves 24
28 rodless cavity of adjustable cylinder pushes the piston of stroke adjustable cylinder 28 to move right to extreme position, stroke adjustable cylinder 28
All 3 cavity of resorption of beam-splitting air cylinder is forced in indentation to the quantitative compressed air of rod chamber, forces 31 uplink of beam-splitting air cylinder sliding block.Gas source pressure
Contracting air enters through second branch, the second precise pressure-reducing valve 211, second throttle 213 forces 3 epicoele of beam-splitting air cylinder, due to the
Two precise pressure-reducing valves 211 have relief function, it is ensured that force 3 upper cavity pressure of beam-splitting air cylinder constant, force beam-splitting air cylinder sliding
It forces the lower cavity pressure of beam-splitting air cylinder 3 to be gradually reduced during 31 uplink of block, the pressure of 3 epicoele of beam-splitting air cylinder is forced until being equal to
Power, the position for forcing beam-splitting air cylinder sliding block 31 to stop is exactly the position set.Because in addition check valve 25 encloses threeway 29
One pipeline, so being not in leakage.
The normal wire drawing of wire drawing machine 1 (before less than cylinder): the first two 24 power loss of single electric five-way valve, internal P port, B port
Conducting, A port, the conducting emptying of EA port;The first two 26 power loss of single electric five-way valve, internal P port, B port turn-on deadline, A
Port, the conducting emptying of EA port.The compressed air that gas source provides passes through the first precise pressure-reducing valve 211, first segment through second branch
It flows valve 213 and enters pressure 3 epicoele of beam-splitting air cylinder, push and force 31 downlink of beam-splitting air cylinder sliding block, force 3 cavity of resorption of beam-splitting air cylinder
Compressed air passes through first throttle valve 212, the A port of the second two single electric five-way valves 26, the emptying of EA port by the road, forces point
Beam cylinder sliding block 31 goes downwards to bottom.The compressed air that gas source provides passes through the first two single electric five-way valves 24 through branch one
P, B port, the first precise pressure-reducing valve 210, check valve 25, threeway 29 enter 28 rod chamber of stroke adjustable cylinder, push stroke can
28 piston of regulating the qi flowing in the channels cylinder is moved to the left, and the P port of the second two single electric five-way valves 26, B port turn-on deadline do not have compressed air
Leakage, 28 rodless cavity compressed air of stroke adjustable cylinder pass through A port, the EA port of the first two single electric five-way valves 24 by the road
Emptying, 28 piston of stroke adjustable cylinder are moved to the left, until adjusting 214 left side of journey casing and double acting stroke adjustable cylinder right end
The contact of lid 282, which is realized, limits volume gas storage, and storage gas pressure intensity is that precise pressure-reducing valve 1 sets pressure.
First precise pressure-reducing valve 210 is fixed on the left side of shield 22, and air inlet side is single electric by elbow and pipeline and the first two
The B port of five-way valve 24 connects, and gas side is connect by elbow and pipeline with check valve 25 out, plays setting to stroke adjustable cylinder
28 rod chambers and the effect for forcing 3 cavity of resorption supply gas pressure of beam-splitting air cylinder.Second precise pressure-reducing valve 211 is fixed on 22 right side of shield,
Air inlet side is connect by elbow and second branch with gas source, and gas side is connect by elbow and pipeline with second throttle 213 out, is risen
To the effect set up to pressure 3 epicoele supply gas pressure of beam-splitting air cylinder.The pressure that first precise pressure-reducing valve 210 is set up is less than gas source pressure
Power, the pressure that the second precise pressure-reducing valve 211 is set up is less than the pressure that the first precise pressure-reducing valve 210 is set up.
First throttle valve 212, which plays the role of setting up, forces 3 cavity of resorption extraction flow of beam-splitting air cylinder, and beam-splitting air cylinder is forced in control
31 downstream rate of sliding block.Second throttle 213, which plays the role of setting up, forces 3 epicoele extraction flow of beam-splitting air cylinder, and control is forced
31 speed uplink of beam-splitting air cylinder sliding block.
3 epicoele air pressure of beam-splitting air cylinder processed set up by the first precise pressure-reducing valve 211 it is constant, glass fibre wire drawing machine 1 overturning change
When head, the stroke of 31 uplink of beam-splitting air cylinder sliding block is forced to force the air supply of 3 cavity of resorption of beam-splitting air cylinder to determine by input.Input
Force the compressed air of 3 cavity of resorption of beam-splitting air cylinder from 28 rod chamber of double acting stroke adjustable cylinder, double acting stroke can regulating the qi flowing in the channels
28 rod chamber of cylinder storage compressed air pressure set up by the first precise pressure-reducing valve 210 it is constant, so change stroke adjustable cylinder
The volume of 28 rod chambers storage gas can change the air supply that 3 cavity of resorption of beam-splitting air cylinder is forced in input.In glass fibre
" stopping in cylinder " button of control panel 41 on control cabinet 4, stroke adjustable cylinder after delay 5 seconds are pressed under 1 shutdown status of wire drawing machine
28 piston rods 283 stretch out, and adjusting the corresponding numerical value for adjusting journey graduated scale 216 of journey nut 215 is to force beam-splitting air cylinder sliding block 31 current
The position of up stroke.At this moment adjusting journey nut 215 and adjusting journey casing 214 is double nut locking state, unclamps and adjusts journey nut 215
It can be adjusted as needed referring to tune journey graduated scale 216 with tune journey casing 214.The small direction of 214 rotation direction scale of tune journey casing
And with adjusting journey nut 215 to lock, the volume of 28 rod chamber of stroke adjustable cylinder storage gas will reduce, and when movement forces beam splitting
31 up stroke of cylinder sliding block reduces;It is locked the big direction of 214 rotation direction scale of tune journey casing and with tune journey nut 215, double cropping
It will be become larger with the volume of 28 rod chamber of stroke adjustable cylinder storage gas, 31 up stroke of beam-splitting air cylinder sliding block is forced when movement
Increase.Due to constant pitch on piston rod 283, so being rotated every time to the direction that tune 216 scale of journey graduated scale is big or scale is small
Journey casing 214 1 is adjusted to enclose, the amount for forcing 31 up stroke of beam-splitting air cylinder sliding block to become larger or become smaller when movement is also constant.Due to
Double acting stroke adjustable cylinder 28 is by adjusting journey casing 214 and adjusting journey nut 215 that the volume of rod chamber storage gas can be made from 0
It is that 28 piston full stroke of double acting stroke adjustable cylinder is moved to left side to maximum, so by adjusting journey casing 214 and adjusting journey spiral shell
The adjustment of mother 215 can make the full row for forcing 31 up stroke of beam-splitting air cylinder sliding block to force beam-splitting air cylinder 3 from 0 to maximum
Journey.
Claims (3)
1. the pressure beam splitting travel control device of glass fibre wire drawing machine, which is mounted on glass fibers
On the cover board for tieing up wire drawing machine, which is characterized in that the pressure beam splitting travel control device includes rack and is mounted on the rack
Stroke adjustable cylinder (28), the trip adjustable cylinder (28) be connected to quantitative gas supply mechanism, this quantifies gas supply mechanism and passes through peace
Control panel (41) control on glass fibre wire drawing machine;The stroke adjustable cylinder (28) and pressure beam-splitting air cylinder connects
It is logical, sliding block (31) are installed on the pressure beam-splitting air cylinder;The rack includes stabilizer blade (21) and shield (22), the row
Left end cap is provided on the left of journey adjustable cylinder (28), right side is provided with right end cap, and the shield (22) is mounted on stroke can
The top of regulating the qi flowing in the channels cylinder (28) left end cap and right end cap is mounted on stabilizer blade in the lower part of the left end cap and right end cap
(21), it is connected by screw to together between the stabilizer blade (21) and cover board (11).
2. the pressure beam splitting travel control device of glass fibre wire drawing machine according to claim 1, which is characterized in that described
Quantitative gas supply mechanism include the first two single electric five-way valves (24), the second two single electric five-way valves (26), check valve (25), the
One precise pressure-reducing valve (210), the second precise pressure-reducing valve (211), first throttle valve (212) and second throttle (213), it is described
The first two single electric five-way valves (24) are fixed on left end cap (281) by first pair of Threaded Connector Coupling (27), the second two single electricity five
Port valve (26) is connected with second pair of Threaded Connector Coupling (218), threeway (29) and third in turn to being fixed on right end cap after Threaded Connector Coupling (219)
(282) on, gas source is connected to the first branch and second branch respectively, has been sequentially communicated the first two lists in the first branch
The P port and B port of electric five-way valve (24), the first precise pressure-reducing valve (210), check valve (25) and threeway (29), the threeway
Lower port be connected to the rod chamber of stroke adjustable cylinder (28), the rodless cavity of the trip adjustable cylinder (28) and the first two lists
The A port and EA port of electric five-way valve (24) are connected to;The P of the upper port of the threeway and the second two single electric five-way valves (26)
Port is connected to B port, and first throttle valve (212) air inlet side is connected to the cavity of resorption of beam-splitting air cylinder (3) is forced by the road, out gas side
It is connect by the road with the A port of the second two single electric five-way valves (26);Second throttle (213) air inlet side is divided with pressure by the road
The connection of beam cylinder (3) epicoele, gas side goes out gas side with the second precise pressure-reducing valve (211) by the road and connect out, and described second is accurate
Pressure reducing valve accesses second branch.
3. the pressure beam splitting travel control device of glass fibre wire drawing machine according to claim 1 or 2, which is characterized in that
Successively screw thread is equipped with and adjusts journey casing (214) and tune journey spiral shell on the cylinder piston rod (283) of the stroke adjustable cylinder (28)
Female (215) adjust journey graduated scale (216) to be fixed on graduated scale fixing seat (217), graduated scale fixing seat (217) installation
On shield (22).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201820788349.XU CN208517279U (en) | 2018-05-25 | 2018-05-25 | The pressure beam splitting travel control device of glass fibre wire drawing machine |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201820788349.XU CN208517279U (en) | 2018-05-25 | 2018-05-25 | The pressure beam splitting travel control device of glass fibre wire drawing machine |
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Publication Number | Publication Date |
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CN208517279U true CN208517279U (en) | 2019-02-19 |
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ID=65340211
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CN201820788349.XU Withdrawn - After Issue CN208517279U (en) | 2018-05-25 | 2018-05-25 | The pressure beam splitting travel control device of glass fibre wire drawing machine |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108423982A (en) * | 2018-05-25 | 2018-08-21 | 泰安佳成机电科技有限公司 | The pressure beam splitting travel control device of glass fibre wire drawing machine |
-
2018
- 2018-05-25 CN CN201820788349.XU patent/CN208517279U/en not_active Withdrawn - After Issue
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108423982A (en) * | 2018-05-25 | 2018-08-21 | 泰安佳成机电科技有限公司 | The pressure beam splitting travel control device of glass fibre wire drawing machine |
CN108423982B (en) * | 2018-05-25 | 2023-05-30 | 泰安佳成机电科技有限公司 | Forced beam splitting travel control device of glass fiber drawing machine |
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