CN203667733U - Network data transmission cable winder - Google Patents

Network data transmission cable winder Download PDF

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Publication number
CN203667733U
CN203667733U CN201420033524.6U CN201420033524U CN203667733U CN 203667733 U CN203667733 U CN 203667733U CN 201420033524 U CN201420033524 U CN 201420033524U CN 203667733 U CN203667733 U CN 203667733U
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CN
China
Prior art keywords
pivot shaft
data transmission
swivel joint
network data
becket
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Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Fee Related
Application number
CN201420033524.6U
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Chinese (zh)
Inventor
吕文霞
魏盼攀
王兴远
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Jiaxing Vocational and Technical College
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Jiaxing Vocational and Technical College
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Priority to CN201420033524.6U priority Critical patent/CN203667733U/en
Application granted granted Critical
Publication of CN203667733U publication Critical patent/CN203667733U/en
Anticipated expiration legal-status Critical
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Abstract

The utility model provides a network data transmission cable winder and belongs to the technical field of the machinery. The network data transmission cable winder solves the technical problem that the existing network cable cannot be wound and tightened, and the like. The network data transmission cable winder comprises a first support plate; a first support shaft is fixedly arranged on the first support plate, a first rotating joint is fixedly arranged on the first support shaft, a second rotating joint further sleeves the first support shaft and is rotatably connected to the first support shaft, a winding drum is fixedly arranged on the second rotating joint, cable connecting structures which are capable of connecting a network cable on the first rotating joint against a network cable on a second rotating joint are arranged on the first rotating joint and the second rotating joint, and a tightening structure is arranged between the winding drum and the first support shaft. The network data transmission cable winder has the advantage of winding and tightening network cables, and the like.

Description

A kind of network data transmission line taking-up device
Technical field
The utility model belongs to field of mechanical technique, relates to a kind of network data transmission line taking-up device.
Background technology
Network data transmission line is called for short netting twine, along with popularizing of network, the equipment that network data transmission is used and other finished products become requisite article in people's daily life, and the ease of use of these network data transmission equipments and finished product becomes the key factor that improves industrial competition.
Netting twine is through data handler, as the process bodies of wall such as router enter into each room, be linked on apparatus such as computer by Network Cable Connector again, because netting twine need to be reserved certain length, so that installation or removable computer is easy to use, cause netting twine stacking, in disorder, affect attractive in appearance, but also can affect netting twine service life and use time comfort feature.
Summary of the invention
The purpose of this utility model is the problems referred to above that exist for existing technology, and a kind of network data transmission line taking-up device is provided, and technical problem to be solved in the utility model is how netting twine to be furled to tensioning.
The purpose of this utility model can realize by following technical proposal: a kind of network data transmission line taking-up device, comprise stay bearing plate one, it is characterized in that, on described stay bearing plate one, be fixedly installed a pivot shaft one, on described pivot shaft one, be fixedly installed a swivel joint one, on described pivot shaft one, be also arranged with a swivel joint two, and swivel joint two is rotatably connected on described pivot shaft one, in described swivel joint two, be fixedly installed a coiling roller, described swivel joint one and swivel joint two are provided with the wiring construction that the netting twine in swivel joint one can be docked with the netting twine in swivel joint two, between described coiling roller and described pivot shaft one, be provided with a tension structure.
Principle of work of the present utility model is: on body of wall, start to have a cell, whole taking-up device is put into cell, utilize stay bearing plate one and cell inwall to fix, netting twine in swivel joint one and reticle plug provided connection on body of wall will be fixedly installed on, netting twine on coiling roller is connected on apparatus such as computer, being arranged on swivel joint one is connected netting twine with the wiring construction in swivel joint two, swivel joint two can be rotated around pivot shaft one, utilize tension structure by netting twine tensioning, in order to avoid netting twine is stacking in a jumble, make netting twine clean and tidy, can be in disorder indoor not attractive in appearance to affecting.
In above-mentioned a kind of network data transmission line taking-up device, clamping between described swivel joint one and swivel joint two.
In above-mentioned a kind of network data transmission line taking-up device, described wiring construction comprise be fixedly installed in swivel joint one and with each wire becket one one to one of netting twine, described swivel joint two is fixedly connected with the pivot shaft two of a hollow, described pivot shaft one is plugged in described pivot shaft two, in described swivel joint two, be fixedly installed and becket one becket two one to one, each described becket two leans with corresponding becket one.Becket one and becket two be low to be abutted against tactilely, and becket two can rotate relative to becket one, and the roller that makes to wind the line can keep the good contact between netting twine in rotation.
In above-mentioned a kind of network data transmission line taking-up device, one end of described becket one has an annular groove, one end of described becket two has a contact disk, between described contact disk and becket two, is provided with some reeds, and described contact disk is plugged in described annular groove.Reed has elastic force to contact disk, makes contact disk low leaning against in annular groove tightly.
In above-mentioned a kind of network data transmission line taking-up device, described tension structure comprises the helical teeth being arranged on described coiling roller inwall, on described pivot shaft two, be fixedly installed a clockwork spring, one end of described clockwork spring is fixedly connected with pivot shaft two, low the leaning against on helical teeth of the other end of described clockwork spring.Clockwork spring has torsion to pivot shaft two, makes pivot shaft two drive netting twine in tensioning state.
In above-mentioned a kind of network data transmission line taking-up device, on described pivot shaft one, be provided with some mounting holes, described mounting hole is circumferentially evenly distributed on pivot shaft one, between the radial line of the line of centers of described mounting hole and pivot shaft one, be an angle, in described mounting hole, be provided with a steel ball, low by there being a holddown spring between described steel ball and the diapire of mounting hole, the inwall of described steel ball and described pivot shaft two leans.Steel ball can be pressed in mounting hole during to a direction rotation at pivot shaft two, pivot shaft two and pivot shaft one can be relatively rotated, in the time that coiling roller rotates to other direction, steel ball presses the inwall of pivot shaft two, make to realize locking between pivot shaft one and pivot shaft, now, under the effect of clockwork spring elastic force, can drive coiling roller in tensioning state, and in the time of forward rotation coiling roller, between pivot shaft one and pivot shaft two, realize and separating, and one end of clockwork spring can slide on helical teeth, netting twine can be released.
In above-mentioned a kind of network data transmission line taking-up device, described helical teeth has a dip plane and a vertical surface, and the footpath line parallel of described vertical surface and pivot shaft two is an angle between described dip plane and the radial line of pivot shaft.
In above-mentioned a kind of network data transmission line taking-up device, between the line of centers of described mounting hole and the radial line of pivot shaft one, be 30 ° of angles.
In above-mentioned a kind of network data transmission line taking-up device, between described dip plane and the radial line of pivot shaft, be 150 ° of angles.
In above-mentioned a kind of network data transmission line taking-up device, one end of described clockwork spring has a block, and described block and described vertical surface lean.When needs by netting twine around on coiling roller time, external force rotation coiling roller, block is subject to external force to depart from vertical surface, make the to wind the line relative clockwork spring of roller and pivot shaft two motions, by netting twine on coiling roller.
In above-mentioned a kind of network data transmission line taking-up device, on described pivot shaft one, be also arranged with a sleeve pipe, described sleeve pipe is slidably connected on pivot shaft one, is fixedly installed a stay bearing plate two on described sleeve pipe.Distance between stay bearing plate one and stay bearing plate two can regulate by stretching casing tube, thereby adapts to the size of cell.
In above-mentioned a kind of network data transmission line taking-up device, on described stay bearing plate one and stay bearing plate two, army is provided with screw.Stay bearing plate one and stay bearing plate two are all fixed on the inwall of cell, make firm the fixing on the wall of whole taking-up device.
Compared with prior art, the utlity model has following advantage:
1, on body of wall, start there is a cell, whole taking-up device is put into cell, utilize stay bearing plate one and cell inwall to fix, netting twine in swivel joint one and reticle plug provided connection on body of wall will be fixedly installed on, netting twine on coiling roller is connected on apparatus such as computer, being arranged on swivel joint one is connected netting twine with the wiring construction in swivel joint two, swivel joint two can be rotated around pivot shaft one, utilize tension structure by netting twine tensioning, in order to avoid netting twine is stacking in a jumble, make netting twine neatly, can not be in disorder indoor attractive in appearance to affecting.
2, steel ball can be pressed in mounting hole during to a direction rotation at pivot shaft two, pivot shaft two and pivot shaft one can be relatively rotated, in the time that coiling roller rotates to other direction, steel ball presses the inwall of pivot shaft two, make to realize locking between pivot shaft one and pivot shaft, now, under the effect of clockwork spring elastic force, can drive coiling roller in tensioning state, and in the time of forward rotation coiling roller, between pivot shaft one and pivot shaft two, realize and separating, and one end of clockwork spring can slide on helical teeth, netting twine can be released.
Accompanying drawing explanation
Fig. 1 is the integral structure schematic diagram of this taking-up device.
Fig. 2 is the section drawing of wiring construction in this taking-up device.
Fig. 3 is the section drawing of coiling roller.
Fig. 4 is the enlarged drawing of local A in Fig. 3.
Fig. 5 is the perspective view of swivel joint two.
In figure, 11, stay bearing plate one; 12, stay bearing plate two; 21, pivot shaft one; 22, pivot shaft two; 31, swivel joint one; 32, swivel joint two; 4, coiling roller; 51, becket one; 52, becket two; 53, annular groove; 54, contact disk; 55, reed; 56, helical teeth; 57, clockwork spring; 61, mounting hole; 62, steel ball; 63, holddown spring; 71, dip plane; 72, vertical surface; 73, block; 8, sleeve pipe; 9, screw.
The specific embodiment
Be below specific embodiment of the utility model by reference to the accompanying drawings, the technical solution of the utility model is further described, but the utility model be not limited to these embodiment.
As Fig. 1, shown in Fig. 2 and Fig. 5, network data transmission line taking-up device comprises stay bearing plate 1, it is characterized in that, on stay bearing plate 1, be fixedly installed a strut bar one, on strut bar one, be fixedly installed a swivel joint 1, on pivot shaft 1, be also arranged with a swivel joint 2 32, and swivel joint 2 32 is rotatably connected on pivot shaft 1, in swivel joint 2 32, be fixedly installed a coiling roller 4, swivel joint 1 and swivel joint 2 32 are provided with the wiring construction that the netting twine in swivel joint 1 can be docked with the netting twine in swivel joint 2 32, between coiling roller 4 and pivot shaft 1, be provided with a tension structure.
On body of wall, starting has a cell, whole taking-up device is put into cell, utilize stay bearing plate 1 and cell inwall to fix, netting twine in swivel joint 1 and reticle plug provided connection on body of wall will be fixedly installed on, netting twine on coiling roller 4 is connected on apparatus such as computer, being arranged on swivel joint 1 is connected netting twine with the wiring construction in swivel joint 2 32, swivel joint 2 32 can be around pivot shaft one 21 rotations, utilize tension structure by netting twine tensioning, in order to avoid netting twine is stacking in a jumble, make netting twine neatly, can not be in disorder indoor attractive in appearance to affecting.
Clamping between swivel joint 1 and swivel joint 2 32.
As shown in Figure 2 and Figure 5, wiring construction comprise be fixedly installed in swivel joint 1 and with each wire becket 1 one to one of netting twine, swivel joint 2 32 is fixedly connected with the pivot shaft 2 22 of a hollow, pivot shaft 1 is plugged in pivot shaft 2 22, in swivel joint 2 32, be fixedly installed and becket 1 becket 2 52 one to one, each becket 2 52 leans with corresponding becket 1, becket 1 and becket 2 52 be low be abutted against tactile, and becket 2 52 can rotate relative to becket 1, the roller 4 that makes to wind the line can keep the good contact between netting twine in rotating, one end of becket 1 has an annular groove 53, one end of becket 2 52 has a contact disk 54, between contact disk 54 and becket 2 52, be provided with some reeds 55, contact disk 54 is plugged in annular groove 53, reed 55 has elastic force to contact disk 54, make contact disk 54 low leaning against in annular groove 53 tightly.
As shown in Figure 3 and Figure 4, tension structure comprises the helical teeth 56 being arranged on coiling roller 4 inwalls, on pivot shaft 2 22, be fixedly installed a clockwork spring 57, one end of clockwork spring 57 is fixedly connected with pivot shaft 2 22, low the leaning against on helical teeth 56 of the other end of clockwork spring 57, clockwork spring 57 has torsion to pivot shaft 2 22, makes pivot shaft 2 22 drive netting twine in tensioning state.
As shown in Figure 3 and Figure 4, on pivot shaft 1, be provided with some mounting holes 61, mounting hole 61 is circumferentially evenly distributed on pivot shaft 1, between the radial line of the line of centers of mounting hole 61 and pivot shaft 1, be an angle, in mounting hole 61, be provided with a steel ball 62, low by there being a holddown spring 63 between the diapire of steel ball 62 and mounting hole 61, steel ball 62 leans with the inwall of pivot shaft 2 22, steel ball 62 can be pressed in mounting hole 61 during to a direction rotation at pivot shaft 2 22, pivot shaft 2 22 and pivot shaft 1 can be relatively rotated, in the time that coiling roller 4 rotates to other direction, steel ball 62 presses the inwall of pivot shaft 2 22, make to realize locking between pivot shaft 1 and pivot shaft, now, under clockwork spring 57 elastic force effects, can drive coiling roller 4 in tensioning state, and in the time of forward rotation coiling roller 4, between pivot shaft 1 and pivot shaft 2 22, realize and separating, and can slide on helical teeth 56 in one end of clockwork spring 57, netting twine can be released, helical teeth 56 has a dip plane 71 and a vertical surface 72, the footpath line parallel of vertical surface 72 and pivot shaft 2 22, between dip plane 71 and the radial line of pivot shaft, be an angle.
Between the radial line of the line of centers of mounting hole 61 and pivot shaft 1, be 30 ° of angles, between dip plane 71 and the radial line of pivot shaft, be 150 ° of angles, one end of clockwork spring 57 has a block 73, block 73 leans with vertical surface 72, when needs by netting twine around on coiling roller 4 time, external force rotation coiling roller 4, block 73 is subject to external force to depart from vertical surface 72, the relative clockwork spring 57 of roller 4 and pivot shaft 2 22 motions that make to wind the line, by netting twine on coiling roller 4.
As shown in Figure 1, on pivot shaft 1, be also arranged with a sleeve pipe 8, sleeve pipe 8 is slidably connected on pivot shaft 1, on sleeve pipe 8, be fixedly installed a stay bearing plate 2 12, distance between stay bearing plate 1 and stay bearing plate 2 12 can regulate by stretching casing tube 8, thereby adapts to the size of cell, and on stay bearing plate 1 and stay bearing plate 2 12, army is provided with screw 9, stay bearing plate 1 and stay bearing plate 2 12 are all fixed on the inwall of cell, make firm the fixing on the wall of whole taking-up device.
Specific embodiment described herein is only to the explanation for example of the utility model spirit.The utility model person of ordinary skill in the field can make various modifications or supplements or adopt similar mode to substitute described specific embodiment, but can't depart from spirit of the present utility model or surmount the defined scope of appended claims.

Claims (10)

1. a network data transmission line taking-up device, comprise stay bearing plate one (11), it is characterized in that, on described stay bearing plate one (11), be fixedly installed a pivot shaft one (21), on described pivot shaft one (21), be fixedly installed a swivel joint one (31), on described pivot shaft one (21), be also arranged with a swivel joint two (32), and swivel joint two (32) is rotatably connected on described pivot shaft one (21), in described swivel joint two (32), be fixedly installed a coiling roller (4), described swivel joint one (31) and swivel joint two (32) are provided with the wiring construction that the netting twine in swivel joint one (31) can be docked with the netting twine in swivel joint two (32), between described coiling roller (4) and described pivot shaft one (21), be provided with a tension structure.
2. network data transmission line taking-up device according to claim 1, it is characterized in that, described wiring construction comprise be fixedly installed on swivel joint one (31) upper and with each wire becket one (51) one to one of netting twine, described swivel joint two (32) is fixedly connected with the pivot shaft two (22) of a hollow, described pivot shaft one (21) is plugged in described pivot shaft two (22), in described swivel joint two (32), be fixedly installed and becket one (51) becket two (52) one to one, each described becket two (52) leans with corresponding becket one (51).
3. network data transmission line taking-up device according to claim 2, it is characterized in that, one end of described becket one (51) has an annular groove (53), one end of described becket two (52) has a contact disk (54), between described contact disk (54) and becket two (52), be provided with some reeds (55), described contact disk (54) is plugged in described annular groove (53).
4. network data transmission line taking-up device according to claim 2, it is characterized in that, described tension structure comprises the helical teeth (56) being arranged on described coiling roller (4) inwall, on described pivot shaft two (22), be fixedly installed a clockwork spring (57), one end of described clockwork spring (57) is fixedly connected with pivot shaft two (22), low the leaning against on helical teeth (56) of the other end of described clockwork spring (57).
5. network data transmission line taking-up device according to claim 3, it is characterized in that, on described pivot shaft one (21), be provided with some mounting holes (61), described mounting hole (61) is circumferentially evenly distributed on pivot shaft one (21), between the radial line of the line of centers of described mounting hole (61) and pivot shaft one (21), be an angle, in described mounting hole (61), be provided with a steel ball (62), low by there being a holddown spring (63) between the diapire of described steel ball (62) and mounting hole (61), described steel ball (62) leans with the inwall of described pivot shaft two (22).
6. network data transmission line taking-up device according to claim 4, it is characterized in that, described helical teeth (56) has a dip plane (71) and a vertical surface (72), the footpath line parallel of described vertical surface (72) and pivot shaft two (22), is an angle between described dip plane (71) and the radial line of pivot shaft.
7. network data transmission line taking-up device according to claim 5, is characterized in that, between the line of centers of described mounting hole (61) and the radial line of pivot shaft one (21), is 30 ° of angles.
8. network data transmission line taking-up device according to claim 6, is characterized in that, is 150 ° of angles between described dip plane (71) and the radial line of pivot shaft.
9. network data transmission line taking-up device according to claim 6, is characterized in that, one end of described clockwork spring (57) has a block (73), and described block (73) leans with described vertical surface (72).
10. network data transmission line taking-up device according to claim 5, it is characterized in that, on described pivot shaft one (21), be also arranged with a sleeve pipe (8), it is upper that described sleeve pipe (8) is slidably connected at pivot shaft one (21), is fixedly installed a stay bearing plate two (12) on described sleeve pipe (8).
CN201420033524.6U 2014-01-20 2014-01-20 Network data transmission cable winder Expired - Fee Related CN203667733U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201420033524.6U CN203667733U (en) 2014-01-20 2014-01-20 Network data transmission cable winder

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201420033524.6U CN203667733U (en) 2014-01-20 2014-01-20 Network data transmission cable winder

Publications (1)

Publication Number Publication Date
CN203667733U true CN203667733U (en) 2014-06-25

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Application Number Title Priority Date Filing Date
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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN106966234A (en) * 2014-11-11 2017-07-21 杨佳雯 Automatic takeup wheel

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN106966234A (en) * 2014-11-11 2017-07-21 杨佳雯 Automatic takeup wheel
CN106966235A (en) * 2014-11-11 2017-07-21 李乔利 A kind of take-up pulley
CN106966235B (en) * 2014-11-11 2018-04-13 永春左耳贸易有限公司 A kind of take-up pulley
CN106966234B (en) * 2014-11-11 2018-07-06 肇庆市恒电电力工程有限公司 Automatic takeup wheel

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C14 Grant of patent or utility model
GR01 Patent grant
CF01 Termination of patent right due to non-payment of annual fee

Granted publication date: 20140625

Termination date: 20150120

EXPY Termination of patent right or utility model