CN208070997U - Ejection type conducting wire nozzle assembly and conducting wire nozzle system - Google Patents
Ejection type conducting wire nozzle assembly and conducting wire nozzle system Download PDFInfo
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- CN208070997U CN208070997U CN201820300136.8U CN201820300136U CN208070997U CN 208070997 U CN208070997 U CN 208070997U CN 201820300136 U CN201820300136 U CN 201820300136U CN 208070997 U CN208070997 U CN 208070997U
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- conducting wire
- ejector
- wire nozzle
- tubulose
- ejection type
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Abstract
The utility model is related to technical field of textile machine, more particularly, to a kind of ejection type conducting wire nozzle assembly and conducting wire nozzle system.The ejection type conducting wire nozzle assembly includes tubulose casing, the first ejector, the second ejector and conducting wire nozzle;First ejector and second ejector are set in tubulose casing, are kept at a distance therebetween to form the helical pitch for the sliding of conducting wire nozzle;Conducting wire nozzle is slidably disposed in the tubulose casing between first ejector and the second ejector.The ejection type conducting wire nozzle assembly is simple in structure, saves manufacturing cost;Shock and the resistance of motion are reduced, noise is smaller, while achieving higher movement velocity;Also, resistance very little of the conducting wire nozzle in tubulose casing, the first ejector and the second ejector drive the commutation moment of conducting wire nozzle, and energy consumption is small, and consumption is relatively low.
Description
Technical field
The utility model is related to technical field of textile machine, more particularly, to a kind of ejection type conducting wire nozzle assembly and conducting wire nozzle
System.
Background technology
Conducting wire nozzle assembly is commonly used in textile machine, using it is more be coil winding machine.Coil winding machine is made of three parts:Band
The winding motor assembly of moving-wire axis rotation;The ejection type conducting wire nozzle assembly of coiling shape is controlled, the tension of control coiling dynamics passes
Sensor;Three Partial coordination actions can wind a ball of string for different flower pattern.China largely uses mechanical guide wire nozzle device;
The more advanced equipment of small part has begun using number to be conducting wire nozzle device;The index for weighing digital conducting wire nozzle device has:Through
The indexs such as Ji property, noise, power consumption, speed, service life, helical pitch adjustability, reentry point time (the smaller the better), level of digital.It is existing
The labyrinth and economy of some conducting wire nozzle devices are particularly thorny, particularly thorny between speed and noise;And properties refer to
Mark it is not ideal enough, how to improve the performance indicator of conducting wire nozzle be perplex researcher a problem.
The information for being disclosed in the background technology part is merely intended to deepen the reason to the general background technology of the utility model
Solution, and it is known to those skilled in the art existing to be not construed as recognizing or imply that the information is constituted in any form
Technology.
Utility model content
One of the purpose of this utility model is to provide a kind of ejection type conducting wire nozzle assembly solve existing conducting wire nozzle dress
Set complicated, and the performance of conducting wire nozzle device and the not ideal enough technical problem of economy.
The two of the purpose of this utility model are to provide a kind of conducting wire nozzle system solve existing conducting wire nozzle apparatus structure
Complexity, and the performance of conducting wire nozzle device and the not ideal enough technical problem of economy.
For one of above-mentioned purpose, the utility model provides following technical scheme:
A kind of ejection type conducting wire nozzle assembly provided by the utility model, including:Tubulose casing, the first ejector, the second bullet
Emitter and conducting wire nozzle;
First ejector and second ejector are set in the tubulose casing, keep at a distance therebetween with
Form the helical pitch for conducting wire nozzle sliding;
The conducting wire nozzle is slidably disposed in the tubulose between first ejector and second ejector
In casing.
As a kind of further technical solution, first ejector is fixed in the tubulose casing, and described second
Ejector is movably disposed in the tubulose casing, and the tubulose casing is provided with for fixing second ejector
Fixation kit.
As a kind of further technical solution, the fixation kit includes dead ring and fastening screw, the fastening spiral shell
Silk is threadedly connected to the dead ring;
The tubulose casing is provided with elongated slot along the conducting wire nozzle moving direction, and the fastening screw is supported across the elongated slot
To be fixed on second ejector.
As a kind of further technical solution, the radial side of the conducting wire nozzle is provided with conducting wire disk, the conducting wire
Disk passes through the elongated slot to stretch out outside the tubulose casing.
As a kind of further technical solution, the tubulose casing include first fix end cap, second fix end cap with
And tubulose slideway, the first fixation end cap and second fix the both ends that end cap is fixed on the tubulose slideway;
First ejector, second ejector and the conducting wire nozzle are set in the tubulose slideway.
As a kind of further technical solution, the first fixation end cap and the second fixation end cap are respectively arranged with
Band threaded bore, the band threaded bore is for connecting external equipment.
As a kind of further technical solution, side of first ejector towards the conducting wire nozzle, described second
Side of the ejector towards the conducting wire nozzle, the conducting wire nozzle axial both sides be respectively arranged with yielding rubber pad.
For the two of above-mentioned purpose, the utility model provides following technical scheme:
The utility model provides a kind of conducting wire nozzle system, including control device and appointing such as power above-mentioned technical proposal offer
A kind of ejection type conducting wire nozzle assembly;
The control device includes controller and detection module, drive module, the detection module and the driving mould
Block is connected with the controller respectively;
The detection module is used to detect the run duration of the conducting wire nozzle and the position of the conducting wire nozzle;
The drive module is drivingly connected first ejector, second ejector.
As a kind of further technical solution, the detection module includes permanent magnetism piece and hall device, the permanent magnetism piece
It is set in the conducting wire nozzle, two hall devices are respectively arranged at one of first ejector towards the conducting wire nozzle
The side of side and second ejector towards the conducting wire nozzle;
Two hall devices are connected with the controller.
As a kind of further technical solution, the control device further includes the letter being connected respectively with the controller
Number input module, display screen and signal output module.
Compared with prior art, ejection type conducting wire nozzle assembly and conducting wire nozzle system provided by the utility model can obtain with
Lower advantageous effect:
A kind of ejection type conducting wire nozzle assembly provided by the utility model is led by the first ejector and the driving of the second ejector
Line nozzle moves back and forth in tubulose casing, simple in structure, saves manufacturing cost;Remove traditional screw-nut, rack-and-pinion, no
But cost is saved, reduces shock and the resistance of motion, noise is smaller, while achieving higher movement velocity;Also, conducting wire nozzle exists
Resistance very little in tubulose casing, the first ejector and the second ejector drive the commutation moment of conducting wire nozzle, and energy consumption is small,
It consumes relatively low.
A kind of conducting wire nozzle system provided by the utility model, including control device and appointing such as above-mentioned technical proposal offer
A kind of ejection type conducting wire nozzle assembly can obtain the attainable all advantageous effects of ejection type conducting wire nozzle assembly institute, by closing
Reciprocating rate is stablized in ring control, realizes high-precision control.
Other feature and advantage of the utility model will illustrate in the following description, also, partly from specification
In become apparent, or understood by implementing the utility model.The purpose of this utility model and other advantages are illustrating
Specifically noted structure is realized and is obtained in book, claims and attached drawing.
Description of the drawings
It, below will be right in order to illustrate more clearly of specific embodiment of the present invention or technical solution in the prior art
Specific implementation mode or attached drawing needed to be used in the description of the prior art are briefly described, it should be apparent that, it is described below
In attached drawing be that some embodiments of the utility model are not paying creativeness for those of ordinary skill in the art
Under the premise of labour, other drawings may also be obtained based on these drawings.
Fig. 1 is a kind of dimensional structure diagram for ejection type conducting wire nozzle assembly that the utility model embodiment provides;
Fig. 2 is a kind of course of work schematic diagram for ejection type conducting wire nozzle assembly that the utility model embodiment provides;
Fig. 3 is a kind of control structure schematic diagram for conducting wire nozzle system that the utility model embodiment provides.
Icon:The first ejectors of 1-;The second ejectors of 2-;3- conducting wire nozzles;31- conducting wire disks;32- permanent magnetism pieces;
41- dead rings;42- fastening screws;51- first fixes end cap;52- second fixes end cap;53- tubulose slideways;531-
Elongated slot;The first hall devices of 61-;The second hall devices of 62-;7- yielding rubber pads;8- controllers;91- first drives mould
Block;The second drive modules of 92-;10-485 communication modules;11- display screens.
Specific implementation mode
The technical solution of the utility model is clearly and completely described below in conjunction with attached drawing, it is clear that described
Embodiment is the utility model a part of the embodiment, instead of all the embodiments.Based on the embodiments of the present invention, originally
The every other embodiment that field those of ordinary skill is obtained without making creative work, belongs to this practicality
Novel protected range.
It is in the description of the present invention, it should be noted that term "center", "upper", "lower", "left", "right", " perpendicular
Directly ", the orientation or positional relationship of the instructions such as "horizontal", "inner", "outside" is to be based on the orientation or positional relationship shown in the drawings, and is only
The utility model and simplifying describes for ease of description, do not indicate or imply the indicated device or element must have it is specific
Orientation, with specific azimuth configuration and operation, therefore should not be understood as limiting the present invention.In addition, term " the
One ", " second ", " third " are used for description purposes only, and are not understood to indicate or imply relative importance.
In the description of the present invention, it should be noted that unless otherwise clearly defined and limited, term " is pacified
Dress ", " connected ", " connection " shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or integrally
Connection;It can be mechanical connection, can also be electrical connection;Can be directly connected, can also indirectly connected through an intermediary,
It can be the connection inside two elements.For the ordinary skill in the art, it can understand above-mentioned art with concrete condition
The concrete meaning of language in the present invention.
Specific embodiment of the present utility model is described in detail below in conjunction with attached drawing.It should be understood that herein
Described specific implementation mode is only used for describing and explaining the present invention, and is not intended to limit the utility model.
Referring to Fig.1-3, the utility model embodiment provides a kind of ejection type conducting wire nozzle assembly, including:Tubulose casing,
One ejector 1, the second ejector 2 and conducting wire nozzle 3;
First ejector 1 and the second ejector 2 are set in tubulose casing, are kept at a distance therebetween to be formed for leading
The helical pitch that line nozzle 3 slides;
Conducting wire nozzle 3 is slidably disposed in the tubulose casing between the first ejector 1 and the second ejector 2.
Tubulose casing is cylindrical structure, and inner hollow forms cylindrical cavity.First ejector 1 and the second ejector 2 with
And conducting wire nozzle 3 is the cylindrical shape to match with cylindrical cavity, to be set in tubulose casing.
In work, conducting wire nozzle 3 needs to move back and forth, tubulose casing, that is, shape between the first ejector 1 and the second ejector 2
At the helical pitch s moved for conducting wire nozzle 3, conducting wire nozzle 3 is past in the tubulose casing between the first ejector 1 and the second ejector 2
Multiple mobile, the first ejector 1 and the second ejector 2 are for driving conducting wire nozzle 3 to change the direction of motion.
After starter, the first ejector 1 launches conducting wire nozzle 3 to the second ejector 2, when conducting wire nozzle 3 reaches the second bullet
Emitter 2, the action of the second ejector 2 launch conducting wire nozzle 3 to the first ejector 1, in cycles, realize that conducting wire nozzle 3 is back and forth transported
It is dynamic.
The conducting wire nozzle 3 of sliding is only only being contacted in the both ends stress of whole device, the first ejector 1 or the second ejector 2
Moment acts on conducting wire nozzle 3, and conducting wire nozzle 3 collides the reaction force and first that the first ejector 1 or the second ejector 2 generate at one end
The thrust that ejector 1 or the second ejector 2 provide forms the resultant force that conducting wire nozzle 3 is moved to negative direction;Take full advantage of reaction
Power reaches energy saving purpose.It is to fall counterforce counteraction in contrast to existing conducting wire nozzle device, then can just does reversed fortune
Dynamic, theoretically, ejection type conducting wire nozzle assembly provided by the utility model is only a quarter of existing apparatus energy consumption.
As can be seen that a kind of ejection type conducting wire nozzle assembly that the utility model embodiment provides, passes through 1 He of the first ejector
Second ejector 2 driving conducting wire nozzle 3 moves back and forth in tubulose casing, simple in structure, saves manufacturing cost;Remove traditional silk
Thick stick screw, rack-and-pinion not only save cost, reduce shock and the resistance of motion, noise is smaller, while achieving higher movement
Speed;Also, resistance very little of the conducting wire nozzle 3 in tubulose casing, the first ejector 1 and the second changing to conducting wire nozzle 3 of ejector 2
It is driven to moment, energy consumption is small, and consumption is relatively low.
In the utility model at least one embodiment, the first ejector 1 is fixed in tubulose casing, and the second ejector 2 can
It is actively set in tubulose casing, and tubulose casing is provided with the fixation kit for fixing the second ejector 2.
First ejector 1 is fixed in pipeline casing, and the relative position of the two cannot be adjusted.And the second ejector 2 can live
It is set to dynamicly in tubulose casing, the second ejector 2 can be moved relative to tubulose casing.When the opposite tubulose of the second ejector 2
Casing changes position, then the distance between the first ejector 1 and the second ejector 2 change, then is used for what conducting wire nozzle 3 moved
Helical pitch changes, and therefore, can be achieved with by adjusting position of second ejector 2 in tubulose casing reciprocal to conducting wire nozzle 3
The helical pitch of movement is adjusted.
After second ejector 2 is adjusted to suitable position, the second ejector 2 is consolidated with tubulose casing with fixation kit
It is fixed, to determine the distance between the first ejector 1 and the second ejector 2, and then determine the reciprocating motion helical pitch of conducting wire nozzle 3.
Fixation kit at least one embodiment of the utility model includes dead ring 41 and fastening screw 42, fastening screw
42 are threadedly connected to dead ring 41;Tubulose casing is provided with elongated slot 531 along 3 moving direction of conducting wire nozzle, and fastening screw 42 passes through length
Slot 531 is against on the second ejector 2 to be fixed.
Dead ring 41 is sheathed on tubulose casing, and fastening screw 42 is threadedly connected on the dead ring 41,41 energy of dead ring
Enough axial movements with fastening screw 42 on tubulose casing.
After second ejector 2 is adjusted to the position needed, tightened relative ring 41 tightens fastening screw 42, fastening screw 42
It is against on the second ejector 2 across tubulose casing, until being fixed the second ejector 2 in tubulose casing, makes the second bullet
It will not be moved between emitter 2 and tubulose casing.
Fastening screw 42 needs to fix the second ejector 2 across tubulose casing, will also be with the mobile phase of the second ejector 2
Tubulose casing is moved.It realizes mobile in order to facilitate fastening screw 42 and passes through tubulose casing, be provided on tubulose casing
With elongated slot 531, which extends along the moving direction of conducting wire nozzle 3, and fastening screw 42 passes through the elongated slot 531 to fix second
Ejector 2, meanwhile, trip bolt can be moved with the movement of the second ejector 2 in elongated slot 531.
The radial side of conducting wire nozzle 3 in at least one embodiment of the utility model is provided with conducting wire disk 31, the conducting wire
Disk 31 passes through elongated slot 531 to stretch out outside tubulose casing.
In use, gently stir conducting wire disk 31 outside device, cylindrical conductor nozzle 3 can the first ejector 1 with
Sliding in tubulose casing between second ejector 2.
In the utility model at least one embodiment, tubulose casing includes that the first fixation end cap 51, second fixes end cap 52
And tubulose slideway 53, the first fixation end cap 51 and second fix the both ends that end cap 52 is fixed on tubulose slideway 53;First ejection
Device 1, the second ejector 2 and conducting wire nozzle 3 are set in tubulose slideway 53.
First, which fixes end cap 51 and second, fixes end cap 52 by the closed at both ends of tubulose slideway 53, and three forms total
External frame.
Embodiment as one preferred, the first fixation end cap 51 and second fix end cap 52 and are respectively arranged with band screw thread
Hole, band threaded bore is for connecting external equipment.
Wherein, the quantity with threaded bore is two, when the first fixation end cap 51 is for when connecting external equipment, passing through screw
External equipment is connected with threaded bore, realizes the company of ejection type the conducting wire nozzle assembly and other devices in the present embodiment
It connects.Correspondingly, when external equipment for when connecting external equipment, being connect by the second fixation end cap 52 by screw with threaded bore
Get up, realizes the connection of ejection type the conducting wire nozzle assembly and other devices in the present embodiment.
In the utility model at least one embodiment, side, second ejector 2 face of first ejector 1 towards conducting wire nozzle 3
The side of guiding line nozzle 3, the axial both sides of conducting wire nozzle 3 are respectively arranged with yielding rubber pad 7.
At work, conducting wire nozzle 3 moves back and forth between the first ejector 1 and the second ejector 2, and by the first ejector
1 and second ejector 2 driving force for changing the direction of motion, conducting wire nozzle 3 and the first ejector 1, the ejection of conducting wire nozzle 3 and second are provided
Contact and the effect of power are generated between device 2, yielding rubber pad 7 can reduce mutual shock, reduce the resistance of motion.
To sum up, the ejection type conducting wire nozzle assembly that the utility model embodiment provides has following technical advantage:
1, simple in structure, remove traditional screw-nut, rack-and-pinion, saves manufacturing cost;
2, reduce shock and the resistance of motion, the noise of device operation is smaller, while achieving higher movement velocity;
3, the conducting wire nozzle 3 slided is only in the both ends stress of device, and the first ejector 1 or the second ejector 2 are only in this contact
Moment acts on conducting wire nozzle 3, conducting wire nozzle 3 collide at one end the reaction force that the first ejector 1 or the second ejector 2 generate and
The thrust that first ejector 1 or the second ejector 2 provide forms the resultant force that conducting wire nozzle 3 is moved to negative direction;It takes full advantage of anti-
Active force reaches energy saving purpose.
The utility model embodiment also provides a kind of conducting wire nozzle system, including control device and such as above-described embodiment offer
Any ejection type conducting wire nozzle assembly;Control device includes controller 8 and detection module, drive module, detection module and
Drive module is connected with controller 8 respectively;Detection module is used to detect the run duration of conducting wire nozzle 3 and the position of conducting wire nozzle 3
It sets;Drive module is drivingly connected the first ejector 1, the second ejector 2.
Wherein, the concrete structure of ejection type conducting wire nozzle assembly is hereinbefore discussed in detail, and details are not described herein again.
Specifically, the detection module in the present embodiment includes permanent magnetism piece 32 and hall device, and permanent magnetism piece 32 is set to conducting wire
In nozzle 3, one in two hall devices is set to the first side of the ejector 1 towards conducting wire nozzle 3, is the first hall device
61;Another is set to the second side of the ejector 2 towards conducting wire nozzle 3, is the second hall device 62;First hall device 61,
First hall device 61 is connected with controller 8 respectively.
Drive module includes the first drive module 91 and the second drive module 92, and the first drive module 91 is for driving first
Ejector 1, the second drive module 92 for drive the second ejector 2, the first drive module 91, the second drive module 92 respectively with
Controller 8 is connected.
Before work, conducting wire nozzle 3 is located at the initial segment (operator will be in this position hanging wire), when device startup, controller 8
Controlling the first drive module 91 drives the first ejector 1 to launch conducting wire nozzle 3 to 2 end of the second ejector, at this moment above conducting wire nozzle 3
Permanent magnetism piece 32 trigger the second ejector 2 on the second hall device 62, after controller 8 receives trigger signal, control second
Drive module 92 drives the action of the second ejector 2, by the ejection of conducting wire nozzle 3 to 1 end of the first ejector, the first of the first ejector 1
Hall device 61 trigger, controller 8 control the first drive module 91 drive the first emitter action, by conducting wire nozzle 3 launch again to
Second ejector 2 realizes that conducting wire nozzle 3 is reciprocating in cycles.Ejection terminates every time, and controller 8 resets ejector,
Preparation acts next time.
When conducting wire nozzle 3 and the first ejector 1 or the second ejector 2 contact, the first hall device 61 or the second Hall device
Part 62 detects the signal of permanent magnetism piece 32, realizes the position signal acquisition to conducting wire nozzle 3, and this signal is transmitted to controller 8.
It should be noted that controller 8 herein is microcontroller.
Before work, controller 8 can preset the movement velocity parameter of conducting wire nozzle 3, fastening screw 42 be unclamped, by tubulose
Scale on casing adjusts the position of the second ejector 2, fastens fastening screw 42, controller 8 is according to this above-mentioned parameter, control
The ejection dynamics of first ejector 1 and the second ejector 2.When device starts, controller 8 is according to the parameter of setting by (changing
The amplitude and pulsewidth of feathering screw propeller pulse) pilot nozzle 3 movement velocity.Conducting wire nozzle 3 under the promotion of the first ejector 1 from
During first ejector 1 is moved to the second ejector 2, detection module detects the process the time it takes, feeds back to control
Device 8 processed, the analysis of controller 8 calculate the speed for showing that conducting wire nozzle 3 moves back and forth, are compared with preset speed, and root
According to being sent instructions under comparing result to drive module, drive module controls the first ejector 1, the second pushing away to conducting wire nozzle 3 of ejector 2
Power, to realize the control and regulation to 3 speed of conducting wire nozzle.
Meanwhile according to the feedback of detection module, controller 8 calculates the number that conducting wire nozzle 3 reaches one end, reaches and specifies numerical value
Automatic stopping afterwards.
Further, the number of turns of coiling can also be preset, controller 8 works as count value according to the feedback of detection module
Reach specified the number of turns control parking.
Further, control device further includes the signal input module being connected respectively with controller 8, display screen 11 and letter
Number output module.
Signal input module includes input keyboard, for 3 preset kinematic parameter of conducting wire nozzle to be input in controller 8.
Kinematic parameter herein is mainly the reciprocating speed of conducting wire nozzle 3, and the distance of helical pitch, the total number of turns of coiling, controller 8 is according to these
Parameter is controlled.
Signal output module is specially 485 communication modules 10, the interface realization pair that controller 8 passes through 485 communication modules 10
At the time of halt instruction, conducting wire nozzle 3 reach both ends, conducting wire nozzle 3 move back and forth the synchronism outputs of the information such as real-time speed to winding
Electric machine controller.
The display of display screen 11 can show current working condition, can monitor current working status in real time.It needs to illustrate
, display screen 11 herein can be LCD liquid crystal displays.
A kind of conducting wire nozzle system provided by the utility model, including control device and appointing such as above-mentioned technical proposal offer
A kind of ejection type conducting wire nozzle assembly can obtain the attainable all advantageous effects of ejection type conducting wire nozzle assembly institute, controller
It can easily detect that conducting wire nozzle reaches the time of both sides as long as by both sides Hall element, it is easy to pass through 2 points of time
Interval calculates reciprocating speed, stablizes reciprocating rate by closed-loop control, realizes that high-precision control, Digital Control degree are high.
To sum up, the conducting wire nozzle system that the utility model embodiment provides has following technical advantage:
Although 1, simple in structure, the task that complicated machinery formula ejection type conducting wire nozzle assembly cannot be completed can be completed, is realized
The institute that currently used digital ejection type conducting wire nozzle assembly can be completed is functional;
2, rectification winding system automation is realized, intelligence is possibly realized.
3, it can at a high speed be moved back and forth in the case of low noise, preferably take into account the indices of conducting wire nozzle device,
With good development prospect.
Finally it should be noted that:The above various embodiments is only to illustrate the technical solution of the utility model, rather than limits it
System;Although the utility model has been described in detail with reference to the foregoing embodiments, those skilled in the art should
Understand:It still can be with technical scheme described in the above embodiments is modified, either to which part or whole
Technical characteristic carries out equivalent replacement;And these modifications or replacements, this practicality that it does not separate the essence of the corresponding technical solution are new
The range of each embodiment technical solution of type.
Claims (10)
1. a kind of ejection type conducting wire nozzle assembly, which is characterized in that including:Tubulose casing, the first ejector, the second ejector and
Conducting wire nozzle;
First ejector and second ejector are set in the tubulose casing, are kept at a distance therebetween to be formed
Helical pitch for conducting wire nozzle sliding;
The conducting wire nozzle is slidably disposed in the tubulose casing between first ejector and second ejector
It is interior.
2. ejection type conducting wire nozzle assembly according to claim 1, which is characterized in that first ejector is fixed on described
In tubulose casing, second ejector is movably disposed in the tubulose casing, and tubulose casing setting is useful
In the fixation kit of fixation second ejector.
3. ejection type conducting wire nozzle assembly according to claim 2, which is characterized in that the fixation kit include dead ring and
Fastening screw, the fastening screw are threadedly connected to the dead ring;
The tubulose casing is provided with elongated slot along the conducting wire nozzle moving direction, and the fastening screw is against institute across the elongated slot
It states on the second ejector to be fixed.
4. ejection type conducting wire nozzle assembly according to claim 3, which is characterized in that the radial side of the conducting wire nozzle is arranged
There are conducting wire disk, the conducting wire disk that the elongated slot is passed through to stretch out outside the tubulose casing.
5. ejection type conducting wire nozzle assembly according to claim 1, which is characterized in that the tubulose casing includes the first fixation
End cap, second fix end cap and tubulose slideway, and the first fixation end cap and the second fixation end cap, which are fixed on the tubulose, to be slided
The both ends in road;
First ejector, second ejector and the conducting wire nozzle are set in the tubulose slideway.
6. ejection type conducting wire nozzle assembly according to claim 5, which is characterized in that described first fixes end cap and described the
Two fixation end caps are respectively arranged with band threaded bore, and the band threaded bore is for connecting external equipment.
7. ejection type conducting wire nozzle assembly according to claim 2, which is characterized in that first ejector is led towards described
Side towards the conducting wire nozzle of the side of line nozzle, second ejector, the conducting wire nozzle axial both sides be respectively arranged with
Yielding rubber pad.
8. a kind of conducting wire nozzle system, which is characterized in that including control device and as described in any one of claim 1-7
Ejection type conducting wire nozzle assembly;
The control device includes controller and detection module, drive module, and the detection module and the drive module are divided
It is not connected with the controller;
The detection module is used to detect the run duration of the conducting wire nozzle and the position of the conducting wire nozzle;
The drive module is drivingly connected first ejector, second ejector.
9. conducting wire nozzle system according to claim 8, which is characterized in that the detection module includes permanent magnetism piece and Hall device
Part, the permanent magnetism piece are set in the conducting wire nozzle, two hall devices be respectively arranged at first ejector towards
The side of the side of the conducting wire nozzle and second ejector towards the conducting wire nozzle;
Two hall devices are connected with the controller.
10. conducting wire nozzle system according to claim 8, which is characterized in that the control device further include respectively with it is described
Signal input module, display screen and the signal output module that controller is connected.
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CN201820300136.8U CN208070997U (en) | 2018-03-05 | 2018-03-05 | Ejection type conducting wire nozzle assembly and conducting wire nozzle system |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN108217321A (en) * | 2018-03-05 | 2018-06-29 | 广东理工学院 | Ejection type conducting wire nozzle assembly and conducting wire nozzle system |
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2018
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN108217321A (en) * | 2018-03-05 | 2018-06-29 | 广东理工学院 | Ejection type conducting wire nozzle assembly and conducting wire nozzle system |
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