阅读说明：本技术 一种长输管线用防拉支撑盘卷装置 (Anti-pulling supporting coil device for long-distance pipeline ) 是由 黄舒文 于 2021-10-20 设计创作，主要内容包括：本发明公开了一种长输管线用防拉支撑盘卷装置,包括卷盘主体,所述卷盘主体的中部设置有用于缠绕长输管线的绕管柱,所述卷盘主体的两侧设置有用于整体限定长输管线横向缠绕空间的竖方盘；本发明涉及管件防护技术领域；该盘卷装置能够避免已经被缠绕的输管线发生局部松散打结现象,利用不同位置上的伸缩壁挡,可实现对不同输管线总量的统一盘卷限位缠绕,使得输管线被稳定卡固,不受外力干扰而松动,实现导向组件对外侧未被包裹输管线的有效支撑,通过束缚带一和束缚带二的束缚作用,可将若干对鱼骨板一和鱼骨板二进行组合束缚安装,可扩展装置对输管线的有效保护面积。(The invention discloses a pulling-proof supporting disc coil device for a long-distance pipeline, which comprises a coil main body, wherein a pipe winding column for winding the long-distance pipeline is arranged in the middle of the coil main body, and vertical square discs for integrally limiting the transverse winding space of the long-distance pipeline are arranged on two sides of the coil main body; the invention relates to the technical field of pipe protection; this coil device can avoid having been taken place local loose phenomenon of knoing by the winding defeated pipeline, utilize the flexible wall on the different positions to keep off, can realize coiling spacing winding to the unity of different defeated pipeline total amounts, make defeated pipeline by stable card solid, it is not hard up not disturbed by external force, realize the guide assembly to the outside not by the effective support of parcel defeated pipeline, through the constraint effect of constraint area one and constraint area two, can make up a plurality of to fishbone plate one and fishbone plate two and restrict the installation, the effective protection area of expanded device to defeated pipeline.)

1. The utility model provides a long defeated pipeline is with preventing drawing supporting disk package is put, includes reel main part (1), the middle part of reel main part (1) is provided with and is used for twining long defeated pipeline around tubular column (5), its characterized in that: vertical square discs (2) used for integrally limiting the transverse winding space of the long pipeline are arranged on two sides of the reel main body (1), a guide assembly (3) used for carrying out direction adjustment and support on the long pipeline is arranged at the diagonal position of the inner side wall of each vertical square disc (2), a coiling assembly (4) used for preventing the long pipeline from being scattered locally is installed on the inner side wall of the reel main body (1), and a telescopic wall stopper (47) is arranged on each coiling assembly (4); the guide assembly (3) comprises a fish bone plate I (34), and a central plate (33) used for clamping and fixing the long pipeline is arranged in the middle of the guide assembly (3); the coiling assembly (4) comprises a dumping bucket piece (41), a ring disc plate (43) is arranged at the edge position of the dumping bucket piece (41), and a semi-circular plate (45) is arranged at the edge position of the ring disc plate (43).

2. The pull-proof support coil device for long distance pipeline according to claim 1, wherein: the surface of the tipping bucket piece (41) is staggered to be provided with a plurality of movable arc openings (411), a spring (42) is connected between the inner side wall of the tipping bucket piece (41) and the vertical square disc (2), the surface of the ring disc plate (43) is uniformly provided with a plurality of hemispherical teeth (44), and the inner side of the semicircular plate (45) is provided with a meniscus (46).

3. The pull-proof support coil device for long distance pipeline according to claim 2, characterized in that: a plurality of spherical tooth sockets (21) are uniformly formed in the surface of the inner side wall of the vertical square disc (2), and pipe penetrating holes (22) for penetrating long transmission pipelines are formed in the periphery of the surface of the vertical square disc (2) in a penetrating mode.

4. The pull-proof support coil device for long distance pipeline according to claim 3, wherein: the fish bone plate comprises a fish bone plate I (34), a hexagonal hinge rod (31) is installed at the bottom of the fish bone plate I (34), a half-open arc barrel (32) is installed at the upper end of the hexagonal hinge rod (31), a fish bone plate II (35) is arranged on the inner side wall of the vertical square disc (2), a plurality of framework plates (36) are symmetrically and fixedly arranged at two ends of the fish bone plate II (35), and a binding belt II (37) is sleeved between the framework plates (36) and the fish bone plate I (34).

5. The pull-proof support coil device for long distance pipeline according to claim 4, wherein: the inner side of the central plate (33) is sleeved with an inner laminated plate (331) used for limiting a long pipeline, the middle of the central plate (33) is provided with a sliding cavity (332) in a penetrating mode, and the surface of the inner side wall of the sliding cavity (332) is fixedly provided with a plurality of semicircular teeth (333).

6. The pull-proof support coil device for long distance pipeline according to claim 5, wherein: the inner side of the central plate (33) is positioned at the upper part of the inner laminated plate (331) and is provided with a hinged tooth nail (321) in a penetrating mode, the first fishbone plate (34) is sleeved with two groups of first binding belts (341), and the second fishbone plate (35) is matched with the first fishbone plate (34) through a framework plate (36) and a second binding belt (37) to be installed in a combined mode.

7. The pull-proof support coil device for long distance pipeline according to claim 6, wherein: flexible wall keeps off (47) and sets up through activity nock (411) and around tubular column (5) cooperation, circle dish board (43) are through hemisphere tooth (44) and ball tooth groove (21) cooperation and perpendicular square dish (2) meshing installation, the installation is flicked to one side that the inside wall of piece (41) of fighting passes through spring (42) and perpendicular square dish (2), semicircle board (45) are through circle dish board (43) and perpendicular square dish (2) cooperation and wear pipe hole (22) to cooperate.

Technical Field

The invention relates to the technical field of pipe protection, in particular to a pulling-proof support coil device for a long-distance pipeline.

Background

In hurried medical work, hospitals use long-distance pipelines frequently, and in daily use of the long-distance pipelines, the long-distance pipelines are long and have weak self supporting and fixing performance, so that the long-distance pipelines are inconvenient for workers to move and work, are easy to be pulled randomly by external force, and are easy to be partially bent, and in order to solve the problems, the long-distance pipelines are required to be provided with anti-pulling structures to be matched with the long-distance pipelines;

the coiling device in the market can not limit the local position of the coiled transmission pipeline, can not coil and wind the unified coiling of different transmission pipeline total amounts in a limiting way, and can not expand the effective protection area of the device on the exposed transmission pipeline, so that the pulling-proof support coil device for the long transmission pipeline is provided.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a pulling-proof supporting coil device for a long pipeline, which solves the problems that the coil device cannot limit the local position of the wound pipeline, cannot limit and wind the uniform coils of different total quantities of pipelines, and cannot expand the effective protection area of the device on the exposed pipeline.

In order to achieve the purpose, the invention is realized by the following technical scheme: an anti-pulling support disc coil device for a long pipeline comprises a coil main body, wherein a pipe winding column used for winding the long pipeline is arranged in the middle of the coil main body, vertical square discs used for integrally limiting the transverse winding space of the long pipeline are arranged on two sides of the coil main body, a guide assembly used for adjusting and supporting the direction of the long pipeline is arranged at the diagonal positions of the inner side walls of the vertical square discs, a coil assembly used for preventing the long pipeline from being locally scattered is installed on the inner side walls of the coil main body, and a telescopic wall baffle is arranged on the coil assembly; the guide assembly comprises a first fishbone plate, and a central plate for clamping and fixing the long pipeline is arranged in the middle of the guide assembly;

the coiling component comprises a dumping bucket piece, a circular disk plate is arranged at the edge position of the dumping bucket piece, and a semicircular plate is arranged at the edge position of the circular disk plate.

Preferably, a plurality of movable arc openings are formed in the surface of the inverted bucket piece in a staggered mode, a spring is connected between the inner side wall of the inverted bucket piece and the vertical square disc, a plurality of hemispherical teeth are uniformly arranged on the surface of the annular disc plate, and a meniscus is arranged on the inner side of the semicircular plate.

Preferably, a plurality of ball tooth sockets are uniformly formed in the surface of the inner side wall of the vertical square disc, and the periphery of the surface of the vertical square disc is provided with penetrating holes for penetrating long transmission pipelines in a penetrating mode.

Preferably, a hexagonal hinge rod is installed at the bottom of the first fishbone plate, a half-open arc cylinder is installed at the upper end of the hexagonal hinge rod, a second fishbone plate is arranged on the inner side wall of the vertical square disc, a plurality of framework plates are symmetrically and fixedly arranged at two ends of the second fishbone plate, and a second restraining belt is sleeved between each framework plate and the first fishbone plate.

Preferably, the inboard cover of central authorities board is equipped with the interior folded plate that is used for spacing long pipeline, the middle part of central authorities board is run through and has been seted up smooth chamber, the inside wall surface in smooth chamber has set firmly a plurality of semicircle teeth, and is inboard through stacking interior folded plate at the central authorities inboard, makes articulated tooth nail carry out the activity hinge with hexagonal hinge rod through smooth chamber and the inseparable meshing setting of semicircle tooth, and the guarantee central authorities board can mesh the promotion in half-open arc section of thick bamboo inboard, adjusts the relative mounted position between central authorities board and the half-open arc section of thick bamboo, and it is spacing to exposing the further constraint of the defeated pipeline in the device edge outside effectively to extend the direction subassembly.

Preferably, the inner side of the central plate is provided with a hinged toothed nail at the upper part of the inner laminated plate in a penetrating manner, the fishbone plate I is sleeved with two groups of binding belts I, the fishbone plate II is combined and installed with the fishbone plate I through the matching of the framework plate and the binding belts II, and a plurality of pairs of the fishbone plate I and the fishbone plate II can be combined and bound and installed through the binding action of the binding belts I and the binding belts II, so that the local wrapping type limiting and protecting of the transmission pipeline are realized, the transmission pipeline is prevented from being scratched and damaged, the effective protection area of the device on the transmission pipeline can be expanded, and the large-area protection of the transmission pipeline is realized.

Preferably, the telescopic wall baffle is arranged in a matched mode through a movable arc opening and a winding pipe column, the annular disc plate is installed in a meshed mode through the matching of hemispherical teeth and spherical tooth grooves and the vertical square disc, the inner side wall of the inverted bucket piece is installed in a springing mode through a spring and one side of the vertical square disc, the semicircular plate is matched with the pipe penetrating hole through the matching of the annular disc plate and the vertical square disc, the spring and the vertical square disc are driven to twist through the rotation of the annular disc plate, and the torsion generated through spring deformation is balanced and opposite to the meshing force between the annular disc plate and the vertical square disc, so that the pipeline conveying line is clamped stably and is not loosened due to external force interference.

Advantageous effects

The invention provides a pulling-proof support coil device for a long-distance pipeline. The method has the following beneficial effects:

1. this coil device keeps off through the flexible wall of each group dislocation installation on the piece of fighting of falling of push-and-pull for the flexible wall of every group subtend position keeps off and supports the knot each other, and it is spacing to the local parcel formula of being twined the transmission line, avoids having taken place local loose phenomenon of knoing by the winding transmission line, utilizes the flexible wall on the different positions to keep off, can realize coiling spacing winding to the unity of different transmission line total amounts.

2. This coil device passes perpendicular square dish with the defeated pipeline through the tube passing hole, through the rotating ring coiled plate on perpendicular square dish, adjusts the solid position of semicircle board and the corresponding card of tube passing hole, and the inboard meniscus of semicircle board will be defeated pipeline card and is fixed spacing in one side of perpendicular square dish, and the realization device is injectd the position of defeated pipeline input and output, plays certain effect of preventing dragging.

3. This coil device through according to the different thickness degree of defeated pipeline, selects the meniscus of suitable size to carry out spacing card to it and fixes, through rotatory ring plate in, drives and takes place to twist reverse between spring and the perpendicular square plate, through the torsion that spring deformation produced, and the meshing force between ring plate and the perpendicular square plate carries out balanced antagonism for defeated pipeline is fixed by stable card, does not receive external force interference and not hard up.

4. This coil device through adjusting the relative mounted position between central authorities board and the half-open arc section of thick bamboo, effectively extends the direction subassembly and is spacing to exposing the further constraint of device edge outside pipeline, realizes that the direction subassembly is not wrapped up the effective support of pipeline to the outside.

5. According to the coiling device, a plurality of pairs of fishbone plates I and fishbone plates II can be combined and bound and mounted through the binding action of the binding belts I and II, so that local wrapping type limiting and protecting of a transmission pipeline are realized, the transmission pipeline is prevented from being damaged by being cut and rubbed, the effective protection area of the device on the transmission pipeline can be expanded, and large-area protection on the transmission pipeline is realized; through the local cooperation with passing through the pipe hole with the meniscus with defeated pipeline, the solid spacing one side back at perpendicular square dish of card, accessible guide assembly is whole to defeated pipeline's local limited cooperation down, realizes that the device is fixed to the dual spacing of defeated pipeline, avoids taking place the local relaxation and pulls the phenomenon.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic diagram of the assembly of the coil assembly and the rectangular vertical plate of the present invention;

FIG. 3 is a schematic diagram of the construction of the coil assembly of the present invention;

FIG. 4 is a schematic view of a partial structure of the vertical square plate and the retractable wall block of the present invention;

FIG. 5 is a schematic view of a guide assembly according to the present invention;

FIG. 6 is a schematic view of the center plate of the present invention.

In the figure: 1. a reel main body; 2. a vertical square plate; 21. a ball spline; 22. perforating the tube holes; 3. a guide assembly; 31. a hexagonal hinge rod; 32. half-open arc cylinder; 321. a hinge pin; 33. a central plate; 331. an inner laminated plate; 332. a slide chamber; 333. a semicircular tooth; 34. a first fishbone plate; 341. a first binding belt; 35. a fish bone plate II; 36. a framework plate; 37. a second binding belt; 4. a coil assembly; 41. a tipping bucket piece; 411. a movable arc opening; 42. a spring; 43. a ring plate; 44. hemispherical teeth; 45. a semicircular plate; 46. a meniscus; 47. a telescopic wall block; 5. around the pipe string.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example one

Referring to fig. 1-6, the present invention provides a technical solution: an anti-pulling supporting coil device for a long pipeline comprises a coil main body 1, wherein a winding pipe column 5 used for winding the long pipeline is arranged in the middle of the coil main body 1, vertical square discs 2 used for integrally limiting the transverse winding space of the long pipeline are arranged on two sides of the coil main body 1, a guide assembly 3 used for adjusting and supporting the direction of the long pipeline is arranged at the diagonal positions of the inner side walls of the vertical square discs 2, a coil assembly 4 used for preventing the long pipeline from being scattered locally is arranged on the inner side walls of the coil main body 1, and a telescopic wall stopper 47 is arranged on the coil assembly 4; the guide component 3 comprises a fishbone plate I34, and the middle part of the guide component 3 is provided with a central plate 33 for clamping and fixing the long pipeline; the coiling assembly 4 comprises a dumping bucket piece 41, an annular disc plate 43 is arranged at the edge position of the dumping bucket piece 41, and a semi-circular plate 45 is arranged at the edge position of the annular disc plate 43;

as shown in fig. 3-4, a plurality of movable arc openings 411 are alternately arranged on the surface of the bucket dumping member 41, a spring 42 is connected between the inner side wall of the bucket dumping member 41 and the vertical square disc 2, a plurality of hemispherical teeth 44 are uniformly arranged on the surface of the ring disc plate 43, and a meniscus 46 is arranged on the inner side of the semicircular plate 45; a plurality of ball tooth sockets 21 are uniformly arranged on the surface of the inner side wall of the vertical square disc 2, and pipe penetrating holes 22 for penetrating long pipeline are arranged on the periphery of the surface of the vertical square disc 2.

When the device works, redundant long-distance pipelines are wound on the winding pipe column 5, then the initial winding end of the long-distance pipeline is clamped and limited at one side of the vertical square disc 2 through the guide component 3, and then the winding end of the long-distance pipeline is locally limited through the guide component 3, so that the device finishes the winding of the long-distance pipeline; the pipeline is passed through the vertical square disc 2 through the pipe penetrating hole 22, the corresponding clamping position of the semicircular plate 45 and the pipe penetrating hole 22 is adjusted by rotating the circular disc plate 43 on the vertical square disc 2, the pipeline is clamped and limited at one side of the vertical square disc 2 through the meniscus 46 on the inner side of the semicircular plate 45, and through the operation, the position limitation of the input end and the output end of the pipeline by the device is realized, so that a certain anti-pulling effect is achieved;

the transmission pipeline is wound on the winding pipe column 5, the input end and the output end of the transmission pipeline are respectively limited and mounted on the guide assembly 3, and then all groups of the telescopic wall baffles 47 which are installed on the reversing bucket piece 41 in a staggered mode are pushed and pulled, so that the telescopic wall baffles 47 at opposite positions of each group are mutually abutted and buckled, the local wrapping type limiting of the wound transmission pipeline is realized, the local loose knotting phenomenon of the wound transmission pipeline is avoided, and the uniform coiling limiting winding of different transmission pipeline total amounts can be realized by utilizing the telescopic wall baffles 47 at different positions;

through the different thickness degree according to defeated pipeline, select meniscus 46 of suitable size to carry out spacing card to it and fix, through rotatory ring plate 43 in, drive and take place to twist reverse between spring 42 and the perpendicular square plate 2, through the torsion that spring 42 deformation produced, with the meshing force between ring plate 43 and the perpendicular square plate 2 balanced counterwork for defeated pipeline is fixed by stable card, does not receive external force interference and not hard up.

Example two

As shown in fig. 1 to 6, the present invention provides a technical solution: an anti-pulling supporting coil device for a long pipeline comprises a coil main body 1, wherein a winding pipe column 5 used for winding the long pipeline is arranged in the middle of the coil main body 1, vertical square discs 2 used for integrally limiting the transverse winding space of the long pipeline are arranged on two sides of the coil main body 1, a guide assembly 3 used for adjusting and supporting the direction of the long pipeline is arranged at the diagonal positions of the inner side walls of the vertical square discs 2, a coil assembly 4 used for preventing the long pipeline from being scattered locally is arranged on the inner side walls of the coil main body 1, and a telescopic wall stopper 47 is arranged on the coil assembly 4; fishbone plates 34 which are matched and butted with each other are symmetrically arranged at two ends of the guide component 3, and a central plate 33 for clamping and fixing the long pipeline is arranged in the middle of the guide component 3; the coiling assembly 4 comprises a dumping bucket piece 41, an annular disc plate 43 is arranged at the edge position of the dumping bucket piece 41, and a semi-circular plate 45 is arranged at the edge position of the annular disc plate 43;

as shown in fig. 5-6, a hexagonal hinge rod 31 is installed at the bottom of the first fishbone plate 34, a half-open arc cylinder 32 is installed at the upper end of the hexagonal hinge rod 31, a second fishbone plate 35 is arranged on the inner side wall of the vertical square plate 2, a plurality of framework plates 36 are symmetrically and fixedly arranged at two ends of the second fishbone plate 35, and a second restraining belt 37 is sleeved between the framework plates 36 and the first fishbone plate 34; an inner laminated plate 331 for limiting the long-distance pipeline is sleeved on the inner side of the central plate 33, a sliding cavity 332 is formed in the middle of the central plate 33 in a penetrating mode, and a plurality of semicircular teeth 333 are fixedly arranged on the surface of the inner side wall of the sliding cavity 332; the inner side of the central plate 33 is provided with a hinged tooth nail 321 at the upper part of the inner laminated plate 331 in a penetrating way, a first fishbone plate 34 is sleeved with two groups of first constraint belts 341, and a second fishbone plate 35 is combined and installed with the first fishbone plate 34 through the matching of a framework plate 36 and a second constraint belt 37; the telescopic wall baffle 47 is matched with the pipe column 5 through a movable arc opening 411, the circular plate 43 is matched with the vertical square plate 2 through the hemispherical teeth 44 and the spherical tooth grooves 21 and is installed in a meshed mode, the inner side wall of the reverse bucket piece 41 is installed in a springing mode through the spring 42 and one side of the vertical square plate 2, and the semicircular plate 45 is matched with the pipe penetrating hole 22 through the circular plate 43 and the vertical square plate 2.

When the device works, the inner laminated plate 331 is stacked on the inner side of the central plate 33, so that the hinged tooth nail 321 is tightly meshed with the semicircular teeth 333 through the sliding cavity 332, the half-open arc cylinder 32 is movably hinged with the hexagonal hinged rod 31, the central plate 33 can be meshed and pushed on the inner side of the half-open arc cylinder 32, the relative mounting position between the central plate 33 and the half-open arc cylinder 32 is adjusted, the guide component 3 is effectively extended to further limit the outer side pipeline of the exposed device edge, and the guide component 3 can effectively support the outer side pipeline which is not wrapped;

through the cooperation of the local part of the pipeline with the meniscus 46 through the through hole 22, the clamping is fixed and limited at one side of the vertical square disc 2, and the double limiting fixation of the device on the pipeline can be realized under the matching of the whole local limitation of the pipeline by the guide component 3, so that the phenomenon of local relaxation and dragging is avoided.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation. The use of the phrase "comprising one of the elements does not exclude the presence of other like elements in the process, method, article, or apparatus that comprises the element.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.