CN109244974A - Cable clamping device and using method thereof - Google Patents

Abstract

The invention relates to a cable clamping device and a using method thereof, wherein the cable clamping device comprises: the clamping assembly comprises an inner ring, an outer ring and a cable clamping groove, wherein the inner ring and the outer ring are arranged at intervals, and the cable clamping groove is formed between the inner ring and the outer ring; the connecting assembly is used for connecting the inner ring and the outer ring; the adjusting component comprises a fixed part and a rotating part which are mutually sleeved and more than two adjusting rods which are movably connected on the rotating part; the rotating part is connected with the rotating part in a rotating mode and can drive the adjusting rod to swing so as to drive the inner ring to expand towards the direction close to the outer ring or contract towards the direction far away from the outer ring along the connecting component. The cable clamping device and the using method thereof provided by the embodiment of the invention can meet the clamping requirement on the cable, can complete the adjustment of the clamping force of each cable clamped by the clamping device at one time, and can effectively improve the working efficiency of operators.

Description

Cable clamping device and its application method

Technical field

The present invention relates to technical field of wind power, more particularly to a kind of cable clamping device and its application method.

Background technique

Cable is widely used as one of most common transmission of electricity wire rod mode to every field, as wind power technology is led Domain, in wind power generating set, multi-cable is laid by cabin to the bottom of tower.Cable is spread from cabin to pylon lower section During if, need to clamp cable bunchy using clamping device, it is safe and reliable, neat in tower space to guarantee And beauty.

However, although clamping device in the prior art can satisfy the clamping requirement to cable, but because its structure designs It is unreasonable, cause clamping device in the prior art when adjusting the chucking power to cable, a point multiple operating procedures is needed to complete Adjusting to the chucking power of cable clamped by the clamping device, complicated for operation, regulating time is long, influences the work of operator Efficiency.

Therefore, a kind of new cable clamping device and its application method are needed.

Summary of the invention

The embodiment of the present invention provides a kind of cable clamping device and its application method, can satisfy and wants to the clamping of cable It asks, while can disposably complete the adjusting to the chucking power of each cable clamped by clamping device, it is easy to operate, it can be effective Raising operative employee's task efficiency.

On the one hand the embodiment of the present invention proposes a kind of cable clamping device, comprising: clamp assemblies, including be spaced apart from each other and set Inner ring, outer ring and the cable clamping slot being formed between inner ring and outer ring set；Connection component connects inner ring and outer ring；It adjusts Component is saved, is connect with clamp assemblies, adjusting component includes that the fixed part being mutually arranged and rotating part and two or more are movable even The adjusting rod being connected on rotating part；Wherein, fixed part is fixedly connected with outer ring, and more than two adjusting rods are between the axis of inner ring Every setting and with inner ring rotation connection, rotating part is rotatablely connected with fixed part and adjusting rod can be driven to swing, in driving Circle is shunk along connection component to close to the expansion of outer ring direction or to far from outer ring direction.

According to an aspect of an embodiment of the present invention, the generally deformable structural body of inner ring.

According to an aspect of an embodiment of the present invention, inner ring is for split type structure and by more than two inner ring monomers along inner ring Circumferential direction be spliced to form, each inner ring monomer and one of adjusting rod are rotatablely connected, and each inner ring monomer is sliding with connection component It moves to match to merge and is formed with cable clamping slot between outer ring.

According to an aspect of an embodiment of the present invention, at least one is provided on each inner ring monomer to be recessed to far from outer ring Inner fovea part, be provided on outer ring to the outer recess portion for being recessed far from inner ring and being oppositely arranged with inner fovea part, the indent being oppositely arranged Portion and outer recess portion are enclosed cable clamping slot jointly.

According to an aspect of an embodiment of the present invention, each inner ring monomer has in the circumferential there are two opposite end, and two Switching beam is connected between a end, each inner ring monomer is rotatably connected by switching beam and adjusting rod.

According to an aspect of an embodiment of the present invention, connection component includes the guide rod more than two connecting with inner ring and outer ring Group, every group of guide rod group include at least one guide rod, each inner ring monomer and at least one set of guide rod group slidable connection.

According to an aspect of an embodiment of the present invention, fixed part and rotating part are external member and coaxially set with inner ring and outer ring It sets.

According to an aspect of an embodiment of the present invention, it is provided with shaft on the end face that rotating part is connect with adjusting rod, is adjusted Bar is rotatablely connected close to one end of rotating part by shaft and rotating part；Alternatively, being set on the end face that rotating part is connect with adjusting rod It is equipped with and is leaned on the one-to-one bar shaped sliding slot of each adjusting rod, the length direction of bar shaped sliding slot and the radial intersection of inner ring, adjusting rod One end of nearly rotating part is set to bar shaped sliding slot and is slidably connected by bar shaped sliding slot with rotating part.

According to an aspect of an embodiment of the present invention, further comprise transition piece, transition piece include two with On the transition connecting plate that is spaced apart, fixed part is fixedly connected by more than two transition connecting plates with outer ring.

It according to an aspect of an embodiment of the present invention, further comprise locked component, locked component includes solid with rotating part Surely the first sticking department for connecting, the second sticking department being fixedly connected with outer ring and the first sticking department and the second sticking department are connect Retainer, retainer can limit the first sticking department and the second sticking department relative motion.

According to an aspect of an embodiment of the present invention, the first sticking department is the rod piece radially extended along inner ring, the first lock To determine portion and is provided with the first lock hole radially extended, the second sticking department is the ring segment structure of the circumferentially extending along inner ring, second Sticking department is circumferentially arranged multiple second lock holes, and retainer is the shaft member cooperated with the first lock hole and the second lock hole.

According to an aspect of an embodiment of the present invention, further comprise in the axial direction of inner ring with inner ring interval and coaxially set The stop collar set, stop collar are connected to outer ring, adjust the perforation being provided on component with stop collar coaxial arrangement.

On the one hand the embodiment of the present invention proposes a kind of application method of cable clamping device, include the following steps:

Cable is arranged across each cable clamping slot；

Driving rotating part is rotated relative to fixed portion, and rotating part drives adjusting rod to swing and exert a force to inner ring, so that inner ring edge To expanding close to outer ring direction or shrinking to far from outer ring direction, cable clamping slot reduces or increases accordingly connection component, with It adjusts clamp assemblies and scheduled pressure value is reached to the chucking power of cable.

The cable clamping device and its application method provided according to embodiments of the present invention, cable clamping device include clamping group Part, connection component and adjusting component, connection component are used to connect the inner ring and outer ring of clamp assemblies, adjust component and clamping group Part connection and the fixed part including being mutually arranged, rotating part and more than two adjusting rods being movably connected on rotating part, by It is fixedly connected in fixed part with outer ring, more than two adjusting rods are around the setting of the axis interval of inner ring and rotate company with inner ring It connects, and rotating part and fixed part are rotatablely connected.When needing to be clamped cable, cable can be placed in inner ring and outer In cable clamping slot between circle, each adjusting rod can be driven to swing by rotating rotating part, and then by adjusting rod drive Circle is shunk along connection component to close to the expansion of outer ring direction or to far from outer ring direction, to adjust clamping of the clamp assemblies to cable Power can either meet the clamping requirement to cable, while the setting for adjusting component can disposably be completed clamped by clamping device Each cable chucking power adjusting, it is easy to operate, can effectively improve operative employee's task efficiency.

Detailed description of the invention

The feature, advantage and technical effect of exemplary embodiment of the present described below with reference to the accompanying drawings.

Fig. 1 is the axonometric drawing under one visual angle of cable clamping device of one embodiment of the invention；

Fig. 2 is the axonometric drawing under another visual angle of the cable clamping device of one embodiment of the invention；

Fig. 3 is the top view of the cable clamping device of one embodiment of the invention；

Fig. 4 is in Fig. 3 along the cross-sectional view in the direction A-A；

Fig. 5 is the front view of the cable clamping device of one embodiment of the invention；

Fig. 6 is in Fig. 5 along the cross-sectional view in the direction B-B；

Fig. 7 is the schematic cross-sectional view of the cable clamping device of another embodiment of the present invention；

Fig. 8 is the flow diagram of the application method of the cable clamping device of the embodiment of the present invention.

Wherein:

10- clamp assemblies；

11- inner ring；111- inner ring monomer；111a- inner fovea part；The end 111b-；

The outer ring 12-；The outer ring 121- monomer；The outer recess portion of 121a-；

13- cable clamping slot；

14- switching beam；141- stripe board；

20- connection component；21- guide rod group；

30- adjusts component；31- fixed part；32- rotating part；321- shaft；322- bar shaped sliding slot；33- adjusting rod；34- is worn Hole；

40- transition piece；41- transition connecting plate；

50- locked component；

The first sticking department of 51-；The first lock hole of 511-；

The second sticking department of 52-；The second lock hole of 521-；

53- retainer；

60- stop collar；61- semicircular ring；62- connecting plate；

X- is circumferential；Y- is radial；Z- is axial.

In the accompanying drawings, identical component uses identical appended drawing reference.The attached drawing is not drawn according to the actual ratio.

Specific embodiment

The feature and exemplary embodiment of various aspects of the invention is described more fully below.In following detailed description In, many details are proposed, in order to provide complete understanding of the present invention.But to those skilled in the art It will be apparent that the present invention can be implemented in the case where not needing some details in these details.Below to implementation The description of example is used for the purpose of providing by showing example of the invention and better understanding of the invention.In attached drawing and following Description in, at least part of known features and technology are not shown, unnecessary fuzzy to avoid causing the present invention； Also, for clarity, may be exaggerated the size of part-structure.In addition, feature described below, structure or characteristic can be with It is incorporated in one or more embodiments in any suitable manner.

The noun of locality of middle appearance described below is direction shown in figure, is not to cable clamping device of the invention And its specific structure of application method is defined.In the description of the present invention, it is also necessary to explanation, unless otherwise specific Regulation and restriction, term " installation ", " connection " shall be understood in a broad sense, for example, it may be being fixedly connected, be also possible to detachably connect It connects, or is integrally connected；It can be directly connected, can also be indirectly connected.For the ordinary skill in the art, may be used The concrete meaning of above-mentioned term in the present invention is understood depending on concrete condition.

For a better understanding of the present invention, below with reference to Fig. 1 to Fig. 8 cable clamping device according to an embodiment of the present invention and Its application method is described in detail.

Under one visual angle of cable clamping device for showing one embodiment of the invention also referring to Fig. 1 and Fig. 2, Fig. 1 Axonometric drawing, Fig. 2 shows the axonometric drawings under another visual angle of the cable clamping device of one embodiment of the invention.The present invention is real It applies example and a kind of cable clamping device, including clamp assemblies 10, connection component 20 and adjusting component 30 is provided.Clamp assemblies 10 wrap Include the inner ring 11 for being spaced apart from each other setting, outer ring 12 and the cable clamping slot 13 being formed between inner ring 11 and outer ring 12.Connection Component 20 connects inner ring 11 and outer ring 12.It adjusts component 30 to connect with clamp assemblies 10, adjusting component 30 includes mutually being arranged Fixed part 31 and rotating part 32 and more than two adjusting rods 33 being movably connected on rotating part 32.Wherein, fixed part 31 with Outer ring 12 is fixedly connected, and more than two adjusting rods 33 are around the setting of the axis interval of inner ring 11 and are rotatablely connected with inner ring 11, Rotating part 32 and fixed part 31 are rotatablely connected and can drive the swing of adjusting rod 33, to drive inner ring 11 along connection component 20 to leaning on Nearly 12 direction of outer ring expansion is shunk to far from 12 direction of outer ring.

Cable clamping device provided in an embodiment of the present invention can satisfy the clamping requirement to cable, while can be primary Property complete clamping device clamped by each cable chucking power adjusting, it is easy to operate, can effectively improve operator's Working efficiency.

Please continue to refer to Fig. 1 and Fig. 2, in some optional examples, the inner ring 11 of clamp assemblies 10 and outer ring 12 can be with Coaxial arrangement, the cable clamping slot 13 being formed in inner ring 11 and outer ring 12 can be one, or it is more than two, work as electricity When the quantity of cable holding tank 13 is more than two, more than two cable clamping slots 13 are arranged around the axis interval of inner ring 11, can It is selected as being uniformly arranged.

In the specific implementation, the outer ring 12 of clamp assemblies 10 can be an integral structure, or split type structure is Convenient for the installation of cable, optionally, in this example, outer ring 12 is adopted a split structure, and outer ring 12 is single by more than two outer rings Body 121 is spliced to form along the circumferential direction of outer ring 12 itself in other words along the circumferential X of inner ring 11, two neighboring outer ring monomer 121 Between be mutually detachably connected, can be specifically connected with each other by fasteners such as bolts.

Likewise, the inner ring 11 of clamp assemblies 10 can be an integral structure, and when inner ring 11 is an integral structure, inner ring 11 entirety are chosen as deformable structural body, such as can be the deformable knot under the effect of external force such as rubber ring, plastic ring Structure body.Certain deformable structural body described herein is not limited to rubber ring or plastic ring, as long as meeting in adjusting rod 33 When swing, it is able to drive inner ring 11 and is shunk along connection component 20 to close to the expansion of 12 direction of outer ring or to far from 12 direction of outer ring, And then adjusting of the satisfaction to cable retaining force.

Certainly, as shown in Figures 1 and 2, in some optional examples, inner ring 11 or split type structure, at this point, Inner ring 11 can be spliced to form by more than two inner ring monomers 111 along the circumferential direction of inner ring 11, each inner ring monomer 111 and wherein one A adjusting rod 33 is rotatablely connected, and each inner ring monomer 111 is slidably matched with connection component 20 and is formed with electricity between outer ring 12 Cable holding tank 13.When inner ring 11 is split type structure, whole inner ring 11 can be rigid body, such as quoit, certain entirety It can also be deformable body, the material when material of the deformable body is an integral structure with inner ring 11, i will not repeat them here.Inner ring 11, using above-mentioned split type structure and respectively with the rotation connection mode of adjusting rod 33, can better meet the grouping to cable Clamping, and be conducive to the adjusting of the size to the chucking power of cable.The quantity of inner ring monomer 111 is not specifically limited, can be with It is identical as the quantity of outer ring monomer 121, naturally it is also possible to, specifically can basis fewer or greater than the quantity of outer ring monomer 121 The quantity of cable to be held is set.

When inner ring 11 is split type structure, at least one is provided on each of which inner ring monomer 111 to far from outer ring 12 The inner fovea part 111a of recess is provided on outer ring 12 to the outer recess portion for being recessed far from inner ring 11 and being oppositely arranged with inner fovea part 111a 121a, the inner fovea part 111a being oppositely arranged and outer recess portion 121a are enclosed cable clamping slot 13 jointly.Each inner ring monomer 111 On the quantity of inner fovea part 111a can be one, or it is more than two, in some instances, each inner ring monomer 111 On can be set there are two inner fovea part 111a, as long as can satisfy to the cable to be held after grouping to grip requirement equal It can.

By the way that inner fovea part 111a and outer recess portion 121a is accordingly arranged on inner ring monomer 111 and outer ring monomer 121, and pass through Cable clamping slot 13 is collectively formed in inner fovea part 111a and outer recess portion 121a, and it is right by cable clamping slot 13 to better meet The limitation of corresponding cable to be held effectively avoids its between cable clamping slot 13 and inner ring 11 and outer ring 12 of cable Mutual play in his space guarantees the clamping effect to cable.

As an alternative embodiment, each inner ring monomer 111 has in the circumferential there are two opposite end 111b, Switching beam 14 is connected between two end 111b, each inner ring monomer 111 is rotatably connected by switching beam 14 with adjusting rod 33. Since inner ring monomer 111 is in that rough arcuate structure can be by adjusting rod 33 to corresponding inner ring monomer by the way that switching beam 14 is arranged 111 single-point driving is changed into two point driving, so that each inner ring monomer 111 is to the direction close to outer ring 12 or far from outer ring When 12 direction movement, the power of suffered corresponding adjusting rod 33 is more uniform, and inner ring monomer 111 is avoided to connect because of unbalance stress There is the phenomenon that clamping stagnation on component 20.In the specific implementation, switching beam 14 can be made of two stripe boards 141, two bar shapeds One end of plate 141 is overlapped mutually and passes through pin shaft and is rotatablely connected equal to corresponding adjusting rod 33.By above-mentioned setting, can more have Conducive to the uniformity for guaranteeing 111 stress of inner ring monomer.

As an alternative embodiment, the connection component 20 of the offer of the embodiment of the present invention may include more than two The guide rod group 21 connecting with inner ring 11 and outer ring 12, every group of guide rod group 21 include at least one guide rod, each inner ring monomer 111 With at least one set of 21 slidable connection of guide rod group.The quantity of guide rod in every group of guide rod group 21 is not specifically limited, Ke Yiwei One, or it is more than two, inner ring 11 in other words wants the guiding of more than two inner ring monomers 111 as long as can satisfy It asks.Connection component 20 using the above structure, can either guarantee the guiding requirement to inner ring 11, while structure is simple, cost It is cheap, additionally it is possible to be easy to the lightweight demand of cable clamping component 10.In the specific implementation, guide rod can use bolt group Part can be convenient for being detachably connected between the inner ring 11 and outer ring 12 of clamp assemblies 10.

The top view of the cable clamping device of one embodiment of the invention is shown also referring to Fig. 3 and Fig. 4, Fig. 3, is schemed 4 show in Fig. 3 along the cross-sectional view in the direction A-A.As an alternative embodiment, the fixed part 31 of the embodiment of the present invention And rotating part 32 is external member and is coaxially disposed with inner ring 11 and outer ring 12.External member can be tubular structure body, be set by above-mentioned It sets, the rotation connection requirement that can be easier to realize between fixed part 31 and rotating part 32, and by fixed part 31 and rotating part 32 are coaxially disposed with inner ring 11 and outer ring 12, so that rotating part 32 relative to the rotation of fixed portion 31 and is passing through each adjusting rod 33 to interior When 11 force of circle, enable to being more uniformly stressed for inner ring 11, each inner ring monomer 111 can synchronizing moving, guarantee right When the chucking power of cable is adjusted, chucking power suffered by the cable in each cable clamping slot 13 is in the same size.That is, can The synchronous adjustment for realizing each 13 inner cable chucking power of cable clamping slot can be avoided the electricity occurred in different cable clamping slots 13 The different problem of chucking power suffered by cable.

Meanwhile it fixed part 31 and rotating part 32 are limited to external member can also make the center of cable clamping device entirety Position has perforation 34, can be passed through with cables such as the signal wire of wind driven generator group, optical fiber.In order to preferably to from perforation 34 The cables such as signal wire, optical fiber across cable clamping device are limited, and avoid it from generating in wind power generating set operation acute Strong shaking, optionally, cable clamping device further comprise being spaced and being coaxially disposed with inner ring 11 on the axial Z of inner ring 11 Stop collar 60, stop collar 60 are connected to outer ring 12.Stop collar 60 can be formed by two docking of semicircular ring 61, two semicircular rings 61 Both ends be respectively set connecting plate 62, two semicircular rings 61 are mutually detachably connected and detachable with outer ring 12 by connecting plate 62 Connection.

Rotating part 32 provided in an embodiment of the present invention is mutually arranged with fixed part 31, can be by rotating part 32 when implementing It is set to the inside of fixed part 31 and is rotatablely connected with fixed part 31, can be specifically disposed as rotating part 32 and fixed part 31 Ladder external member, the top end face of fixed part 31 are resisted against one end of rotating part 32, can either save and adjust the occupied sky of component 30 Between, while fixed part 31 can be limited on the axial Z of inner ring 11, and can also convenient for fixed part 31 and outer ring 12 it Between connection.

Please continue to refer to Fig. 1 to Fig. 4, as an alternative embodiment, in order to further increase fixed part 31 and outer Bonding strength between circle 12, optionally, cable clamping component 10 further comprise transition piece 40, and transition piece 40 wraps More than two transition connecting plates 41 being spaced apart are included, it is fixed with outer ring 12 that fixed part 31 passes through more than two transition connecting plates 41 Connection, transition connecting plate 41 can use different structure type, as long as can satisfy the company between fixed part 31 and outer ring 12 Connect requirement.Optionally, transition connecting plate 41 can be plane tabular structure, can also be stepped plate structure, mistake The quantity for crossing connecting plate 41 can be set according to the size of fixed part 31 and outer ring 12, as long as can satisfy between the two Bonding strength requirement.

As an alternative embodiment, the cable clamping device of the embodiment of the present invention further comprises locked component 50, locked component 50 includes the first sticking department 51 being fixedly connected with rotating part 32, second be fixedly connected with outer ring 12 locking The retainer 53 of portion 52 and the first sticking department 51 of connection and the second sticking department 52, retainer 53 can limit the first sticking department 51 With 52 relative motion of the second sticking department.By the way that locked component 50 is arranged, and limits it and fill using the above structure and with cable clamping The connection type for setting other component passes through stop when the relative position of inner ring 11 and outer ring 12 being enabled to reach predetermined position Portion 53 limits the first sticking department 51 and the second sticking department 52 continues relative motion, so that the chucking power energy after adjusting to cable Access holding.

In the specific implementation, the first sticking department 51, the second sticking department 52 and retainer 53 can use different structures Form, as long as can satisfy the locking of inner ring 11 Yu 12 relative position of outer ring.In some optional examples, the first locking Portion 51 can be the rod piece that extends along the radial Y of inner ring 11, and the first sticking department 51 is provided with the of the radial Y extension along inner ring 11 One lock hole 511, the second sticking department 52 are the ring segment structure of the circumferentially extending along inner ring 11, and circumferentially X is set the second sticking department 52 Multiple second lock holes 521 are equipped with, retainer 53 is the shaft member cooperated with the first lock hole 511 and the second lock hole 521.

Since the first sticking department 51 is connect with rotating part 32, the first sticking department 51 using the above structure, not only be can satisfy Locking requires, while being also used as the driving handle that driving rotating part 32 rotates, and pushes the first lock by the circumferential X along inner ring 11 Determining portion 51 makes it that rotating part 32 be driven to rotate, and then drives each adjusting rod 33 to swing by rotating part 32, to meet inner ring 11 Movement needs.It, i.e., will when the cable of each cable clamping slot 13 reaches scheduled chucking power when inner ring 11 moves to suitable position 53 grafting of retainer enters in the first lock hole 511 and the second lock hole 521 being oppositely arranged at this time with the first lock hole 511 i.e. The holding requirement of the chucking power of each cable can be met.In the specific implementation, the first lock hole 511 can use strip-shaped hole, multiple Second lock hole 521 can use circular hole.

The front view of the cable clamping device of one embodiment of the invention is shown also referring to Fig. 5 and Fig. 6, Fig. 5, is schemed 6 show in Fig. 5 along the cross-sectional view in the direction B-B.

The length of more than two adjusting rods 33 of cable clamping device provided in an embodiment of the present invention be chosen as it is identical, and When separation distance from each other reaches farthest between inner ring 11 and outer ring 12, the tilt angle of each adjusting rod 33 is identical.It can as one kind The embodiment of choosing is provided with shaft 321 on the end face that rotating part 32 is connect with adjusting rod 33, and adjusting rod 33 is close to rotating part 32 One end be rotatablely connected by shaft 321 and rotating part 32, can either be convenient for adjusting rod 33 and rotating part 32 by above-mentioned setting Between connection, and can preferably by rotating part 32 simultaneously drive more than two adjusting rods 33 while swing, with optimize Adjusting to the chucking power of the cable in each cable clamping slot 13.

Referring to Figure 7 together, Fig. 7 shows the sectional structure signal of the cable clamping device of another embodiment of the present invention Figure.It is understood that rotating part 32 and adjusting rod 33 are a kind of optional mode using above-mentioned fit system, but it is not limited to Above-mentioned form, in some other examples, as shown in fig. 7, be provided on the end face that rotating part 32 is connect with adjusting rod 33 with The one-to-one bar shaped sliding slot 322 of each adjusting rod 33, the length direction of bar shaped sliding slot 322 and the radial intersection of inner ring 11, are adjusted Bar 33 is set to bar shaped sliding slot 322 close to one end of rotating part 32 and is slidably connected by bar shaped sliding slot 322 with rotating part 32.It is logical Above-mentioned fit system is crossed, equally can satisfy the connection request of adjusting rod 33 Yu rotating part 32, and can also be better met More than two adjusting rods 33 are driven by rotating part 32 while swinging requirement, so as to the folder of the cable in each cable clamping slot 13 Holding force adjusting reaches more excellent.

As an alternative embodiment, being provided with rotating roller (figure in one end that adjusting rod 33 is connect with rotating part 32 Do not show), rotating roller is rotatably connected with adjusting rod 33, so that adjusting rod 33 is connected by rotating roller with corresponding bar shaped sliding slot 322 It connects, sliding requirement of the adjusting rod 33 in corresponding bar shaped sliding slot 322 can either be met, while can be by adjusting rod 33 and bar shaped Sliding friction between sliding slot 322 is changed into rolling friction, and to reduce the abrasion to adjusting rod 33, it is whole to improve cable clamping device The service life of body.

Cable clamping device provided in an embodiment of the present invention as a result, because it include clamp assemblies 10, connection component 20 and Component 30 is adjusted, makes it when needing to be clamped cable, the electricity that cable can be placed between inner ring 11 and outer ring 12 In cable holding tank 13, each adjusting rod 33 can be driven to swing by rotating rotating part 32, and then drive inner ring by adjusting rod 33 11 shrink along connection component 20 to close to the expansion of 12 direction of outer ring or to far from 12 direction of outer ring, to adjust 10 pairs of electricity of clamp assemblies The setting that the chucking power of cable can either meet the clamping requirement to cable, while adjust component 30 can also disposably be completed to press from both sides The adjusting of the chucking power of each cable clamped by tight device, it is easy to operate, it can effectively improve operative employee's task efficiency.

The process signal of the application method of the cable clamping device of the embodiment of the present invention is shown also referring to Fig. 8, Fig. 8 Figure.Cable clamping device involved in the application method of cable clamping device provided in an embodiment of the present invention is the various embodiments described above Cable clamping device, the application method the following steps are included:

S100, cable are arranged across each cable clamping slot 13；

S200, driving rotating part 32 rotates relative to fixed portion 31, drive adjusting rod 33 swing of rotating part 32 and to inner ring 11 Force, so that inner ring 11 is shunk along connection component 20 to close to the expansion of 12 direction of outer ring or to far from 12 direction of outer ring, cable clip It holds slot 13 to reduce or increase accordingly, reaches scheduled pressure value to adjust clamp assemblies 10 to the chucking power of cable.

In the step s 100, when the quantity of cable clamping slot 13 is multiple, cable can be divided into more parts, number can With equal with the quantity of cable clamping slot 13, it is of course also possible to be less than the quantity of cable clamping slot 13.By each part electricity after grouping Cable one-to-one correspondence is held in corresponding cable clamping slot 13.When the inner ring 11 of cable clamping device and/or outer ring 12 are fission When formula structure, again by corresponding inner ring monomer 111 or outer ring after cable can first being installed to corresponding cable clamping slot 13 Monomer 121 is connect with other components, can easily facilitate the assembly of cable.

In step s 200, when cable clamping device includes the first sticking department 51, the week along inner ring 11 can be passed through It pushes the first sticking department 51 clockwise or counter-clockwise to X, and then rotating part 32 is driven to rotate, more easily to realize chucking power Adjusting.

The application method of cable clamping device provided in an embodiment of the present invention, cable clamping device as used by it are The cable clamping device of the various embodiments described above so that this method can either meet the clamping requirement to cable, while adjusting component 30 setting can disposably complete the adjusting of the chucking power of each cable clamped by clamping device, easy to operate, can be effective Raising operative employee's task efficiency.

Although by reference to preferred embodiment, invention has been described, the case where not departing from the scope of the present invention Under, various improvement can be carried out to it and can replace component therein with equivalent.Especially, as long as there is no structures to rush Prominent, items technical characteristic mentioned in the various embodiments can be combined in any way.The invention is not limited to texts Disclosed in specific embodiment, but include all technical solutions falling within the scope of the claims.

Claims (13)

1. a kind of cable clamping device characterized by comprising

Clamp assemblies (10), including be spaced apart from each other the inner ring (11) of setting, outer ring (12) and be formed in the inner ring (11) with Cable clamping slot (13) between the outer ring (12)；

Connection component (20) connects the inner ring (11) and the outer ring (12)；

It adjusts component (30), is connect with the clamp assemblies (10), the adjusting component (30) includes the fixed part being mutually arranged (31) adjusting rod (33) on the rotating part (32) is movably connected on rotating part (32) and two or more；

Wherein, the fixed part (31) is fixedly connected with the outer ring (12), and more than two adjusting rods (33) are around described The axis interval of inner ring (11) is arranged and is rotatablely connected with the inner ring (11), the rotating part (32) and the fixed part (31) it is rotatablely connected and the adjusting rod (33) can be driven to swing, to drive the inner ring (11) along the connection component (20) It is shunk to close to the expansion of the outer ring (12) direction or to far from the outer ring (12) direction.

2. cable clamping device according to claim 1, which is characterized in that the generally deformable knot of inner ring (11) Structure body.

3. cable clamping device according to claim 1, which is characterized in that the inner ring (11) be split type structure and by Circumferential direction (X) of more than two inner ring monomers (111) along the inner ring (11) is spliced to form, each inner ring monomer (111) with One of them described adjusting rod (33) rotation connection, each inner ring monomer (111) are matched with the connection component (20) sliding Merge and is formed with the cable clamping slot (13) between the outer ring (12).

4. cable clamping device according to claim 3, which is characterized in that be arranged on each inner ring monomer (111) There is at least one to the inner fovea part (111a) being recessed far from the outer ring (12), is provided on the outer ring (12) to far from described The outer recess portion (121a) that inner ring (11) is recessed and is oppositely arranged with the inner fovea part (111a), the inner fovea part being oppositely arranged (111a) and the outer recess portion (121a) are enclosed the cable clamping slot (13) jointly.

5. cable clamping device according to claim 3, which is characterized in that each inner ring monomer (111) is described Tool is connected with switching beam (14), each institute there are two opposite end (111b) between two ends (111b) on circumferential (X) Inner ring monomer (111) are stated to be rotatably connected by the switching beam (14) with the corresponding adjusting rod (33).

6. cable clamping device according to claim 3, which is characterized in that the connection component (20) includes more than two The guide rod group (21) connecting with the inner ring (11) and the outer ring (12), guide rod group (21) described in every group includes that at least one is led To bar, each inner ring monomer (111) and at least one set of guide rod group (21) slidable connection.

7. cable clamping device according to claim 1, which is characterized in that the fixed part (31) and the rotating part (32) it is external member and is coaxially disposed with the inner ring (11) and the outer ring (12).

8. cable clamping device according to claim 7, which is characterized in that the rotating part (32) and the adjusting rod (33) it is provided with shaft (321) on the end face connected, the adjusting rod (33) passes through institute close to the one end of the rotating part (32) Shaft (321) and the rotating part (32) are stated to be rotatablely connected；

Alternatively, being provided on the end face that the rotating part (32) connect with the adjusting rod (33) a pair of with each adjusting rod (33) one The bar shaped sliding slot (322) answered, the length direction of the bar shaped sliding slot (322) intersects with the radial direction (Y) of the inner ring (11), described Adjusting rod (33) is set to the bar shaped sliding slot (322) and by the bar shaped sliding slot close to the one end of the rotating part (32) (322) it is slidably connected with the rotating part (32).

9. cable clamping device according to claim 1, which is characterized in that further comprise transition piece (40), institute Stating transition piece (40) includes more than two transition connecting plate (41) being spaced apart, the fixed part (31) by two with The upper transition connecting plate (41) is fixedly connected with the outer ring (12).

10. according to claim 1 to cable clamping device described in 9 any one, which is characterized in that further comprise locking group Part (50), the locked component (50) include the first sticking department (51) being fixedly connected with the rotating part (32), with it is described outer The second sticking department (52) and connection first sticking department (51) and second sticking department (52) that circle (12) is fixedly connected Retainer (53), it is opposite that the retainer (53) can limit first sticking department (51) and second sticking department (52) Movement.

11. cable clamping device according to claim 10, which is characterized in that first sticking department (51) is along described The rod piece that the radial direction (Y) of inner ring (11) extends, first sticking department (51) are provided with the first lock extended along the radial direction (Y) Determine hole (511), second sticking department (52) be along the inner ring (11) circumferential direction (X) extend ring segment structure, described second Sticking department (52) is arranged at intervals with multiple second lock holes (521) along the circumferential direction (X), and the retainer (53) is and described the One lock hole (511) and the shaft member of second lock hole (521) cooperation.

12. according to claim 1 to cable clamping device described in 9 any one, which is characterized in that further comprise described The stop collar (60) for being spaced and being coaxially disposed with the inner ring (11) in the axial direction (Z) of inner ring (11), the stop collar (60) is even It is connected to the outer ring (12), it is described to adjust the perforation (34) being provided on component (30) with the stop collar (60) coaxial arrangement.

13. a kind of application method of cable clamping device described in claim 1 to 12 any one, which is characterized in that including Following steps:

Cable passes through each cable clamping slot (13) setting；

The rotating part (32) is driven to rotate relative to the fixed part (31), the rotating part (32) drives the adjusting rod (33) It swings and exerts a force to the inner ring (11), so that the inner ring (11) is along the connection component (20) to close to the outer ring (12) Direction expansion is shunk to far from the outer ring (12) direction, and the cable clamping slot (13) is reduced or increased accordingly, to adjust It saves the clamp assemblies (10) and scheduled pressure value is reached to the chucking power of the cable.