CN2878300Y - Automatic pipe coiling device - Google Patents
Automatic pipe coiling device Download PDFInfo
- Publication number
- CN2878300Y CN2878300Y CN 200620055365 CN200620055365U CN2878300Y CN 2878300 Y CN2878300 Y CN 2878300Y CN 200620055365 CN200620055365 CN 200620055365 CN 200620055365 U CN200620055365 U CN 200620055365U CN 2878300 Y CN2878300 Y CN 2878300Y
- Authority
- CN
- China
- Prior art keywords
- core
- aqueous vapor
- axis
- corn
- pipe
- Prior art date
- 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
Links
Images
Landscapes
- Quick-Acting Or Multi-Walled Pipe Joints (AREA)
Abstract
The utility model relates to a filed of a coiling device for tubes transferring liquid or gas, for resolving the shortcomings of present technique, providing an automatic tube-coiling device with novel structure, changing a bearing structure of a rotary shaft, and improving the structural stability. The invention comprises a left container, a right container, a line corn, a water-air shaft corn, a coiling spring and a tube, wherein the I-shaped line corn with a chamber in the middle is arranged rotationally between the left container and the right container, a shaft corn of coiling spring is fixed on one side of the line corn, one end of the shaft corn of coiling spring is engaged with the right container rotationally, another end goes into the chamber to engage with one end of the water-air shaft corn rotationally, another end of the water-air shaft corn is fixed on the left container to connect with a water-air inlet connector, a rotary middle shaft of the line corn is formed by the shaft corn and the water-air shaft corn, the tube is coiled on the line corn, one end of the tube goes into the chamber and is communicated with the water-air shaft corn rotationally, another end extrudes outside the container, one end of the coiling spring arranged between the line corn and the right container is connected with the right container and another end thereof is fixed and connected with the shaft corn of coiling spring.
Description
Technical field
The utility model relates to the winding apparatus field of can auto reeling carrying liquid or gas passage, a kind of structural good automatic tube coiling appts of saying so more specifically.
Technical background
In actual life, run into the problem of carrying liquid or gas within the specific limits through regular meeting.As watering flowers in the garden, refuel a car, give patient's delivering oxygen, tire is inflated or the like.Be to adopt to connect the mode that prolongs pipeline in liquid or gas source and realize generally speaking, but become a difficult problem but prolong depositing with putting in order of pipeline.Because pipeline is generally long, heavier, and often uses, so generally all be arbitrarily to stack or hang up.But unbecoming so on the one hand, pipeline is aging easily on the other hand, has shortened the service life of pipeline.For overcoming this shortcoming, also provide the pipe crimping equipment of multiple automatic or manual in the prior art.Its major technique is that a rotary reeling pipe wheel is installed in a housing, is used for winding pipeline.The rotating shaft of reeling pipe wheel is made into hollow structure, and is fixed on the housing.The inner of pipeline and rotating shaft are rotated and are communicated with, so liquid or gas are imported and can be sent to the pipeline from the rotating shaft outside.But this class formation reeling pipe wheel is directly installed in the rotating shaft, and reeling pipe wheel adds that the weight of pipeline is very big, and rotating shaft is hollow structure, and rotating shaft is in use held gravity that can't stand reeling pipe wheel easily and destroyed.
The utility model content
The purpose of this utility model is to overcome deficiency of the prior art, and a kind of automatic tube coiling appts of brand new structure is provided, and changes the force structure of rotating shaft, improves structural stability.
The utility model is achieved through the following technical solutions its purpose.
The utility model provides a kind of automatic tube coiling appts, mainly comprises left and right sides housing, core, aqueous vapor axle core, wind spring and pipe on the structure, and structure-improved is that the core rotation is installed between the housing of the left and right sides, is I-shape, and the centre is provided with a cavity; Core one side fixed installation enwinding spring axis core, enwinding spring axis core one end and right shell body normal-running fit, the other end is worn to cavity, with aqueous vapor axle core one end normal-running fit, the aqueous vapor axle core other end is fixedly installed on the left shell, connect the influent gas joint, enwinding spring axis core and aqueous vapor axle core form the rotating middle shaft of core jointly; Pipe is wound on the core, and an end is worn to cavity and is communicated with the rotation of aqueous vapor axle core, and the other end stretches out outside the housing, and wind spring is arranged between core and the right shell body, and an end is captiveed joint with right shell body, and the other end is captiveed joint with the enwinding spring axis core.The utility model adopts enwinding spring axis core and aqueous vapor axle core to form the structure of the rotating middle shaft of core jointly, mainly relies on one of enwinding spring axis core and aqueous vapor axle core to bring in the gravity that bears core and pipe.This structure greatly reduces the suffered gravity of aqueous vapor axle core, the service life of having improved stability of structure and product.
Owing to adopt said structure, the utility model pipe rotates the structure that is communicated with aqueous vapor axle core can adopt absolute construction.Aqueous vapor axle core middle part is provided with moisture outlet, moisture outlet outside turning set water receiving gas axis, and the aqueous vapor axis is connected with aqueous vapor axle core sealed rotational, and the aqueous vapor connector that goes out of aqueous vapor axis is communicated with pipe.Adopt the structure of aqueous vapor axis independently to reduce the difficulty of product processing, be convenient to installation and maintenance.Because it is structures movable maximum in this series products that pipe is communicated with the rotation of aqueous vapor axle core, and need be sealed and matched.So go wrong easily, need often to safeguard and maintenance.Existing design is integrated with rotating shaft, need pull down in the lump together with rotating shaft during dismounting, is not easy to maintenance and safeguards.The utility model adopts independently the structure of aqueous vapor axis to be convenient to Assembly ﹠Disassembly, has overcome maintenance and problem difficult in maintenance fully.
The utility model is further improved, and makes can automatically lock in certain position after pulling out pipe, need not the elastic force that pulling force overcomes wind spring.Its structure is to be provided with automatic locking mechanism between core and left shell, and automatic locking mechanism comprises the ratchet that is rotatably installed on the left shell, is used to limit the extension spring that ratchet rotates and is fixedly mounted on arc ratchet wheel block on the core side.When core drove arc ratchet plate and turns to position with the ratchet clamping, under the tension of extension spring, ratchet can clamping be lived the ratchet plate and is limited it and rotate, thereby reaches the purpose that the restriction core rotates.Turn to position with not clamping of ratchet when core drives arc ratchet plate, when unclamping pipe, wind spring can drive the core revolution.In the rotating process of arc ratchet plate, ratchet no longer blocks arc ratchet plate, thereby can't limit the core revolution.In the process of using, when outwards pulling is managed, can hear that ratchet collides the sound that the ratchet plate sends " rattle away, rattle away ... " under the effect of extension spring.Can judge that ratchet is in the clamping position, even unclamp hand this moment, pipe can not retracted by core yet.When moving to when no longer sending the sound, then ratchet is in non-clamping position.Unclamp hand this moment, and core is in the effect turning down of wind spring, and pipe is pulled.
In order to make when core is rotating, what pipe can be neat is arranged on the core, and the utility model is provided with the automatic tube-arranging device in the outlet spout inboard of housing.The automatic tube-arranging device mainly comprises reverse-flighted screw, guide pillar, guides, miniature gears, large fluted disc and is with synchronously; Guides be installed between reverse-flighted screw and the guide pillar can about slidably reciprocate, pipe passes guides to hull outside; Miniature gears is installed on a side of reverse-flighted screw, and large fluted disc is installed on a side of core, and passes through synchronous strap drive between the miniature gears.Large fluted disc and then rotated when core rotated, and by synchronous band rotational power was reached miniature gears.Pinion rotation drives the reverse-flighted screw rotation, and the reverse-flighted screw rotation can drive about guides and slidably reciprocate, and the drive pipe swings in the process that reclaims, thereby realizes the function of automatic tube-arranging.Adopt the tube coiling appts of automatic tube-arranging device, in the process of Through Flow Line (TFL), what pipe can be neat is arranged on the core, can not twist to gather together, and core can not lived by pipe clamp in turning course.
In order to prevent that pipe is involved in the housing fully, the end of the utility model outside pipe stretches out housing is provided with the stop bit ball.Hang for convenience, the support that is used to hang up automatic tube coiling appts is installed in hull outside.Support can be made into rotary structure, conveniently can rotate tube coiling appts in the process that is usefulness.
In order to make structure further stable, the utility model increases some structures and strengthens cable coiling device.One side of core described in the utility model is the core lid, and the enwinding spring axis core passes core and covers corresponding Kong Weiyu bottom bracket, utilizes screw to tighten together and forms integral body; One side of core is by enwinding spring axis core and right shell body normal-running fit, the opposite side of core passes the fluted disc bearing support that is screwed on core, by the influent gas joint aqueous vapor axle core is fixed on a core fixed mount by aqueous vapor axle core, again with axle core fixed mount by screw retention on left shell.The structure that matches with the enwinding spring axis core by bottom bracket can well be fixed on core with the enwinding spring axis core and cover, core lid and the installation that has made things convenient for structure cooperating of core.Same axle core fixed mount has also played and has supported aqueous vapor axle core and the effect that is connected the influent gas joint, has improved the support strength of aqueous vapor axle core.
In order to guarantee that liquids and gases can not leak in the process of using, the utility model provides a kind of sealing property high structure.Concrete structure is to be provided with shaft-cup in the aqueous vapor in aqueous vapor axis side, both use the screw leak-tight joint, the centre seals with seal ring, seal ring is located at the moisture outlet both sides of aqueous vapor axis inboard, aqueous vapor axle core respectively, separate, fix and oppress seal ring with pad and tripod pad, the aqueous vapor axis with go out the aqueous vapor joint and be connected with screw, middlely seal with seal ring.The utility model adopts the structure of a plurality of seal rings and pad, can be good at guaranteeing the leak tightness between aqueous vapor axis and the aqueous vapor axle core.Even in aqueous vapor axis rotating process, the liquids and gases in the transmission can not leak yet.
Wind spring also is one of movable maximum parts in this series products, in order to improve wind spring stability in use.The utility model is provided with the wind spring gland between right shell body inboard and core, wind spring is installed in the space of right shell body and the formation of wind spring gland, the wind spring axis injects in the middle of the wind spring phase coordination and blocks wind spring by wind spring gland interstitial hole position, and then injects the right shell position that matches.The wind spring gland has played the effect of protection wind spring, and has limited degree of freedom movable about wind spring, has improved the working stability of wind spring.
The utility model has following substantive distinguishing features and progress with respect to prior art.
1. adopt enwinding spring axis core and aqueous vapor axle core to form the structure of the rotating middle shaft of core jointly, improved the support performance of rotating shaft, strengthened the structural stability of tube coiling appts;
2. adopt independently aqueous vapor axis and aqueous vapor axle core sealed rotational bonded assembly structure, improved the structural behaviour of aqueous vapor axis, help the sealing between aqueous vapor axis and the aqueous vapor axle core, and made things convenient for the maintenance and the maintenance of tube coiling appts;
3. the suitable distance that automatic locking mechanism can be in use, the length that the locking pipe stretches out has made things convenient for the use of tube coiling appts;
4. the automatic tube-arranging device can make neat being arranged on the core of pipeline, can not cause confusion;
5. the stop bit ball can prevent that pipe from being taken in the housing fully;
6. support helps on wall or other fixed buildings tube coiling appts being installed;
7. bottom bracket and axle core fixed mount help improving the bearing force of rotating shaft, make structure more stable;
8. the structure of many seal rings and pad guarantees the leak tightness between aqueous vapor axis and the aqueous vapor axle core;
9. the wind spring gland has played protection wind spring and the effect that makes its stable operation.
Description of drawings
Fig. 1 is STRUCTURE DECOMPOSITION figure of the present utility model;
Fig. 2 is the fragmentary cross-sectional view of the utility model assembly drowing;
Fig. 3 is the structure assembly drowing of the utility model rotating shaft part;
Fig. 4 is that the structure of the utility model lockout mechanism is changeed figure;
Fig. 5 is the part-structure assembly drowing of the utility model racker;
Fig. 6 is an External view of the present utility model;
The specific embodiment
Below in conjunction with accompanying drawing the utility model is described further.
In conjunction with illustrated in figures 1 and 2, a kind of automatic tube coiling appts that the utility model is designed.Right shell body 2 and left shell 41 form the space of boxlike by screw retention together, thereby install and running provides enough spaces for each several part; Right trim 1 and left trim 27 cooperate with right shell body 2 and left shell 41 appropriate sections by self hook position and are separately fixed on right shell body 2 and the left shell 41, reach the effect of beautiful decoration from face; Two fixed mount supporting bases 25 are fastened on the right shell body 2, entire product are hung up by support 26 with regard to available screw like this.Wind spring 5 is placed in the space that right shell body 2 and wind spring gland 6 form reposefully, and wind spring axis 7 injects in the middle of the wind spring 5 the phase coordinations and blocks wind spring 5 by wind spring gland 6 interstitial hole positions, and then injects right shell body 2 position that matches.Because wind spring axis 7 is fastened on the core lid 3 with bottom bracket 37 usefulness screws, wind spring axis 7 forms integral body with whole core.Therefore when external force pulled outward pipe 9, wind spring axis 7 was tightened up thereby also drive wind spring 5 by core 4 driven rotary, forms increasing antagonistic force, and core 4 can pastly be turned round, thereby reached the purpose of automatic Through Flow Line (TFL) 9.
As shown in Figure 2, core 4 and core lid 3 tightens together by screw.Enwinding spring axis core 7 passes core lid 3 corresponding Kong Weiyu bottom brackets 37 and utilizes screw to tighten together to form integral body, utilize enwinding spring axis core 7 a side of whole core 4 and right shell body 2 normal-running fiies then.In conjunction with Fig. 1 and Fig. 3, the another side of core 4 is to utilize aqueous vapor axle core 40 to pass the fluted disc bearing support 33 that is screwed on core 4, utilizes influent gas joint 29 that aqueous vapor axle core 40 is fixed on the core fixed mount 31 again.Axle core fixed mount 31, so just can be positioned at whole core 4 on the left shell 41 on left shell 41 by screw retention.From then on structure as can be seen, thereby core can be between left shell 41 and right shell body 2 reaches effect around pipe or releasing tube around the rotation of individual axle core.
As shown in Figure 3, aqueous vapor axle core 40 1 ends are inserted on the enwinding spring axis core 7, and the other end is fastened on the core fixed mount 31 by the screw connection by influent gas joint 29.And because axle core fixed mount 31 is to be fastened on the left shell 41 with screw, again because enwinding spring axis core 7 has an end and right shell 2 to work good, so enwinding spring axis core 7 and aqueous vapor axle core 40 just form an axis.In conjunction with Fig. 1, shaft-cup 39 and aqueous vapor axis 38 screw leak-tight joint in the aqueous vapor, middle seal with seal ring 46, seal ring 34 is placed on aqueous vapor shaft-cup 39 and aqueous vapor axis 38 relevant positions respectively, middlely separates and fixes and oppress seal ring with pad 44 and tripod pad 43.Aqueous vapor axis 38 with go out aqueous vapor joint 36 usefulness screws and be connected, middle with the seal ring sealing, so just form the axis of a water flowing gas.Aqueous vapor axle core 40 passes aqueous vapor axis and seal ring 34, so liquid or gas just can be by influent gas joint 29 to aqueous vapor axle cores 40, position, two holes through aqueous vapor axle core 40 enters aqueous vapor axis 38 then, enters out aqueous vapor joint 36 by the position, hole of aqueous vapor axis 38 again and enters pipe 9.Said mechanism forms a leak free aqueous vapor passage as can be seen, and aqueous vapor axis 38 just can be around 40 rotations of aqueous vapor axle core.Enwinding spring axis core 7 can be around 40 rotations of aqueous vapor axle core, and enwinding spring axis core 7 and bottom bracket 37 usefulness screws are fastened on the core lid 3, core lid 3 and core 4 usefulness screws tighten together, aqueous vapor is fastened on the core 4 with fluted disc bearing support 33 usefulness screws, and aqueous vapor axle core 40 passes aqueous vapor with in the middle of the fluted disc bearing support 33, so aqueous vapor fluted disc bearing support 33, core 4, core lid 3, aqueous vapor bottom bracket 37, the core that enwinding spring axis core 7 forms can be around the axle core rotation of aqueous vapor axle core 40 and 7 formation of enwinding spring axis core, thereby reach effects, and can allow aqueous vapor form a passage managing 9 recovery and discharging.
In conjunction with Fig. 1 and shown in Figure 4, ratchet 22 passes the corresponding aperture position of left shell 41 can make circular movement.And ratchet 22 is hooked in 24 1 of extension springs, and the other end is screwed after pressing extension spring to be situated between to refer to 23 to push down, and so just can the rotation of ratchet 22 be limited.Core since the external force effect pipe 9 when pulling outward, core 4 just rotates, but when external force disappears or weakens because the antagonistic force of wind spring 5, core 4 revolutions, pipe 9 is toward bouncing back.When ratchet 22 runs into ratchet wheel block with core 4 one, because the tension of extension spring 24 makes ratchet 22 toward the opposite sense motion that the ratchet wheel block on the core 4 drives, tooth position on ratchet 22 and the ratchet wheel block is closely cooperated whole core can not be rested on this position toward swivel motion.When external force remakes when being used on the pipe 9, ratchet wheel block on the core 4 drives ratchet 22 and travels forward, when ratchet 22 moves to the position that does not have ratchet wheel block.If external force disappears or weakens, core 4 is toward back rotation, and at this moment the ratchet wheel block end makes ratchet 22 move to opposite location, causes ratchet 22 not cooperate with ratchet wheel block, so just can not allow core stop.As the state keeping, then core 4 can be pulled out to pipe 9 parts to external force and all be recovered to stop bit ball 8, is stuck in till the shell outlet spout position.
In conjunction with Fig. 1 and automatic tube-arranging structure shown in Figure 5, right reverse-flighted screw support 10 and left reverse-flighted screw support 13 are fastened on right shell body 2 and the left shell 41 with screw respectively.Miniature gears 12 usefulness screws are fastened on the reverse-flighted screw 11, are installed in then on right reverse-flighted screw support 10 and left reverse-flighted screw support 13 relevant positions; Circle guide pillar 45 is installed on the post position of respectively passing right reverse-flighted screw support 10 and left reverse-flighted screw support 13 corresponding hole site on right shell body 2 and the left shell 41, and is fastening with screw, and circle guide pillar 45 two ends match six-sided head and match and prevent to rotate.Guides 16 usefulness are through on round guide pillar 45 and the reverse-flighted screw 11 in two holes up and down, and guides 16 can move back and forth on circle guide pillar 45 and reverse-flighted screw 11 like this.Commutator head 14 passes commutator 15 on the screw thread that guides 16 is pressed in reverse-flighted screw 11, and when reverse-flighted screw 11 rotated like this, commutation piece 15 just drove guides 16 and does clocklike to move at the threaded portion of reverse-flighted screw 11.Two racker roller shaft cores 17 pass guides 16 two racker rollers 18 are fixed on the guides 16, pass racker roller shaft core cap 19 with screw then and are fastened on the guides 16.Pipe 9 passes the space that forms in the middle of two racker rollers 18, and two racker rollers 18 can rotate, and makes guides 16 reduce pipe 9 friction force to it.Large fluted disc 32 and fluted disc gland 21 fastening backs are by being fastened on screw on the fluted disc bearing support 33, and large fluted disc 32 and miniature gears 12 are with being with 20 to link together synchronously.Because fluted disc bearing support 33 is to be fastened on the core 4 with screw, so core 4 drives fluted disc bearing support 33 when rotating and large fluted disc 32 rotates together synchronously.Also by being with 20 rotations to be delivered to miniature gears 12 synchronously, miniature gears 12 drives reverse-flighted screw 11 and rotates large fluted disc 32.Screw thread on the reverse-flighted screw 11 drives guidess 16 crank motion clocklike by commutation piece 15, passes pipe 9 between two rollers 18 on the guides 16 and is directed to device 16 and drives and swing back and forth, thereby reach the purpose of comb.
Profile after the assembling as shown in Figure 6, in conjunction with above Fig. 1,2,3,4 and 5, by support 26, with screw whole spool device fixing on the wall after, with external force pipe 9 is pulled out from the spool device, around managing 9 core 4, and rotate also along with the release of managing 9.In the time will pausing, external force weakens or when disappearing midway, and pipe 9 is just toward retraction, and when ratchet 22 was in the ratchet wheel block of core 4, core 4 revolutions made ratchet 22 and ratchet match will stoping core toward revolution.When external force remakes with pipe 9 when pulling out outward, core 4 changes forward, is with ratchet 22 to leave tooth on the ratchet, and core just can rotate.Core 4 is to rotate round the axle core that is fixedly supported upon on left shell 41 and the right shell body 2 that aqueous vapor axle core 40 and enwinding spring axis core 7 are formed.Because enwinding spring axis core 7 is combined into integral body with core 4, so rotating, core 4 drives 7 rotations of enwinding spring axis core, enwinding spring axis core 7 also drives the wind spring 5 that is stuck in above it and shrinks, and the antagonistic force of wind spring 5 is increased.The antagonistic force of wind spring 5 reclaims pipe 9 when external force weakens, and during core 4 revolutions, the fluted disc bearing support 33 that is fixed on the core 4 drives the large fluted disc 32 that is fixed on above it.The rotation of large fluted disc 32 is by being with 20 to pass to miniature gears 12 synchronously, miniature gears 12 rotates with reverse-flighted screw 11, then guides 16 is by the threaded portion crank motion of commutation piece (15) at reverse-flighted screw (11), thereby drives the pipe 9 that passes between two racker rollers 18 that are fixed on the guides 16 core marshalling that swings back and forth and wind the line.After liquid or gas enter influent gas joint 29 by water inlet tracheae 28, two holes through aqueous vapor axle core 40 enter aqueous vapor axis 38, enter pipe 9 through going out aqueous vapor joint 36 then, and form a leak free passage, flow out from managing 9 the other end at last around core.
Claims (9)
1. automatic tube coiling appts, mainly comprise left and right sides housing (41) (2), core (4), aqueous vapor axle core (40), wind spring (5) and pipe (9), it is characterized in that core (4) rotation is installed between the left and right sides housing (41) (2), be I-shape, the centre is provided with a cavity; Core (4) one sides fixed installation enwinding spring axis core (7), enwinding spring axis core (7) one ends and right shell body (2) normal-running fit, the other end is worn to cavity, with aqueous vapor axle core (40) one end normal-running fiies, aqueous vapor axle core (40) other end is fixedly installed on the left shell (41), connect influent gas joint (29), enwinding spring axis core (7) and aqueous vapor axle core (40) form the rotating middle shaft of core (4) jointly; Pipe (9) is wound on the core (4), one end is worn to cavity and is communicated with aqueous vapor axle core (40) rotation, and the other end stretches out outside the housing, and wind spring (5) is arranged between core (4) and the right shell body (2), one end is captiveed joint with right shell body (2), and the other end is captiveed joint with enwinding spring axis core (7).
2. automatic tube coiling appts according to claim 1, it is characterized in that pipe (9) and aqueous vapor axle core (40) rotate the structure that is communicated with and be: aqueous vapor axle core (40) middle part is provided with moisture outlet, moisture outlet outside turning set water receiving gas axis (38), aqueous vapor axis (38) is connected with aqueous vapor axle core (40) sealed rotational, and the aqueous vapor connector (36) that goes out of aqueous vapor axis (38) is communicated with pipe (9).
3. automatic tube coiling appts according to claim 2, it is characterized in that between core (4) and left shell (41), being provided with automatic locking mechanism, automatic locking mechanism comprises the ratchet (22) that is rotatably installed on the left shell (41), is used to limit the extension spring (24) that ratchet (22) rotates and is fixedly mounted on arc ratchet wheel block on core (4) side.
4. automatic tube coiling appts according to claim 3, the outlet spout inboard that it is characterized in that housing is provided with the automatic tube-arranging device, and the automatic tube-arranging device mainly comprises reverse-flighted screw (11), guide pillar (45), guides (16), miniature gears (12), large fluted disc (32) and is with (20) synchronously; Guides (16) be installed between reverse-flighted screw (11) and the guide pillar (45) can about slidably reciprocate, pipe (9) passes guides (16) to hull outside; Miniature gears (12) is installed on a side of reverse-flighted screw (11), and large fluted disc (32) is installed on a side of core (4), and passes through band (20) transmission synchronously between the miniature gears (12).
5. automatic tube coiling appts according to claim 4 is characterized in that pipe (9) goes out the outer end of housing and is provided with stop bit ball (8).
6. automatic tube coiling appts according to claim 5 is characterized in that hull outside is equipped with the support (26) that is used to hang up automatic tube coiling appts.
7. according to claim 1 or 2 or 3 or 4 or 5 or 6 described automatic tube coiling apptss, a side that it is characterized in that core (4) is a core lid (3), enwinding spring axis core (7) passes the corresponding Kong Weiyu bottom bracket (37) of core lid (3), utilizes screw to tighten together and forms integral body; One side of core (4) is by enwinding spring axis core (7) and right shell body (2) normal-running fit, the opposite side of core (4) passes the fluted disc bearing support (33) that is screwed on core (4), by influent gas joint (29) aqueous vapor axle core (40) is fixed on a core fixed mount (31) by aqueous vapor axle core (40), again with axle core fixed mount (31) by screw retention on left shell (41).
8. automatic tube coiling appts according to claim 7, it is characterized in that aqueous vapor axis (38) side is provided with shaft-cup in the aqueous vapor (39), both use the screw leak-tight joint, the centre seals with seal ring (46), seal ring (34) is located at the moisture outlet both sides of aqueous vapor axis (38) inboard, aqueous vapor axle core (40) respectively, separate, fix and oppress seal ring (34) with pad (44) and tripod pad (43), aqueous vapor axis (38) with go out aqueous vapor joint (36) and be connected with screw, middlely seal with seal ring.
9. automatic tube coiling appts according to claim 8, it is characterized in that being provided with wind spring gland (6) between right shell body (2) inboard and the core (4), wind spring (5) is installed in the space of right shell body (2) and wind spring gland (6) formation, wind spring axis (7) injects in the middle of the wind spring (5) the phase coordination and blocks wind spring (5) by wind spring gland (6) interstitial hole position, and then injects right shell (2) position that matches.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN 200620055365 CN2878300Y (en) | 2006-02-27 | 2006-02-27 | Automatic pipe coiling device |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN 200620055365 CN2878300Y (en) | 2006-02-27 | 2006-02-27 | Automatic pipe coiling device |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN2878300Y true CN2878300Y (en) | 2007-03-14 |
Family
ID=37860716
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN 200620055365 Expired - Fee Related CN2878300Y (en) | 2006-02-27 | 2006-02-27 | Automatic pipe coiling device |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN2878300Y (en) |
Cited By (9)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN101955090A (en) * | 2010-09-14 | 2011-01-26 | 宁波大叶园林工业有限公司 | The pipe winding device that trap stage clip mechanism and many damping mechanisms are arranged |
| CN102612479A (en) * | 2009-10-29 | 2012-07-25 | 格雷索明尼苏达有限公司 | Hose reel spring adjustment |
| CN102701027A (en) * | 2012-06-14 | 2012-10-03 | 黄健 | Tube winding device or cable winding device and driving mechanism |
| CN104512769A (en) * | 2014-12-31 | 2015-04-15 | 佛山市顺德区惠音电子设备有限公司 | Pipe reeling device with buffering brake |
| CN104528480A (en) * | 2014-12-26 | 2015-04-22 | 市下控股有限公司 | Automatic retraction speed reduction device of winder |
| CN104692195A (en) * | 2014-10-27 | 2015-06-10 | 邱强生 | Pipeline scrolling device |
| CN107857173A (en) * | 2017-11-02 | 2018-03-30 | 四川电力送变电建设公司 | A kind of safety self-locking rolling device |
| CN109335902A (en) * | 2018-11-14 | 2019-02-15 | 浙江优食环境科技有限公司 | A kind of winder with energization ventilatory function |
| CN109775476A (en) * | 2019-03-06 | 2019-05-21 | 国网安徽省电力有限公司亳州供电公司 | A kind of power supply disks of the automatic exhausting line of energy |
-
2006
- 2006-02-27 CN CN 200620055365 patent/CN2878300Y/en not_active Expired - Fee Related
Cited By (14)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN102612479A (en) * | 2009-10-29 | 2012-07-25 | 格雷索明尼苏达有限公司 | Hose reel spring adjustment |
| CN101955090A (en) * | 2010-09-14 | 2011-01-26 | 宁波大叶园林工业有限公司 | The pipe winding device that trap stage clip mechanism and many damping mechanisms are arranged |
| CN102701027A (en) * | 2012-06-14 | 2012-10-03 | 黄健 | Tube winding device or cable winding device and driving mechanism |
| CN102701027B (en) * | 2012-06-14 | 2015-02-04 | 黄健 | Tube winding device or cable winding device and driving mechanism |
| CN104692195A (en) * | 2014-10-27 | 2015-06-10 | 邱强生 | Pipeline scrolling device |
| CN104692195B (en) * | 2014-10-27 | 2017-03-22 | 广州市强生信达贸易有限公司 | Pipeline scrolling device |
| CN104528480A (en) * | 2014-12-26 | 2015-04-22 | 市下控股有限公司 | Automatic retraction speed reduction device of winder |
| CN104528480B (en) * | 2014-12-26 | 2017-02-22 | 市下控股有限公司 | Automatic retraction speed reduction device of winder |
| CN104512769A (en) * | 2014-12-31 | 2015-04-15 | 佛山市顺德区惠音电子设备有限公司 | Pipe reeling device with buffering brake |
| CN107857173A (en) * | 2017-11-02 | 2018-03-30 | 四川电力送变电建设公司 | A kind of safety self-locking rolling device |
| CN107857173B (en) * | 2017-11-02 | 2020-06-30 | 四川电力送变电建设公司 | Safe self-locking type sliding device |
| CN109335902A (en) * | 2018-11-14 | 2019-02-15 | 浙江优食环境科技有限公司 | A kind of winder with energization ventilatory function |
| CN109775476A (en) * | 2019-03-06 | 2019-05-21 | 国网安徽省电力有限公司亳州供电公司 | A kind of power supply disks of the automatic exhausting line of energy |
| CN109775476B (en) * | 2019-03-06 | 2024-03-29 | 国网安徽省电力有限公司亳州供电公司 | Power supply panel capable of automatically recovering wire |
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| CN2878300Y (en) | Automatic pipe coiling device | |
| CN2878299Y (en) | Automatic cable coiling device | |
| CN200965987Y (en) | Overhead trolley for electric maintenance and repair purpose | |
| CN110080534A (en) | A kind of device that is spirally connected for building iron and connection sleeve | |
| CN113852009B (en) | Professional quick tensioner bullwheel among power supply station electrical power rush-repair | |
| CN210025123U (en) | Semi-automatic double-wall corrugated pipe installing machine | |
| CN104682157A (en) | Convenient connection device for transmission cable breakage | |
| CN204407665U (en) | Transmission cable ruptures convenient jockey | |
| CN220042810U (en) | High-voltage line construction tightener | |
| CN211639722U (en) | Water inlet pipe joint device | |
| CN211735522U (en) | Concrete inspection well | |
| CN2740577Y (en) | Pipe winder recvering for steam pipe | |
| CN209516283U (en) | Hot line robot equipment on a kind of bar | |
| CN213115774U (en) | Tent good in stability and high in safety factor | |
| CN208022529U (en) | A kind of super-pressure tube rolling device | |
| CN110015595B (en) | Pipe rolling device with multiple pipe rolling modes | |
| CN214487557U (en) | Fountain outlet pipe pendulous device | |
| CN1850566A (en) | Nest spring device for tube winding machine | |
| CN209016584U (en) | It is a kind of with the automobile wire harness fixing support for tightening function | |
| CN214497688U (en) | Automatic water intake device for drinking water source | |
| CN213312722U (en) | Oxygen regulating valve convenient for fixing oxygen pipeline on oxygen pillow | |
| CN205753271U (en) | Electrical cables support means is faced in construction | |
| CN215402275U (en) | Subway water supply and drainage fire pipeline unwinding device | |
| CN216929432U (en) | Threading construction device for building electrical engineering | |
| CN219304329U (en) | Wire tightening device for electric power installation |
Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| C14 | Grant of patent or utility model | ||
| GR01 | Patent grant | ||
| C17 | Cessation of patent right | ||
| CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20070314 Termination date: 20110227 |