CN111446666A - Mounting structure with rolling function for high-frequency signal cable - Google Patents

Abstract

The invention discloses a high-frequency signal cable mounting structure with a winding function, which relates to the field of cable mounting instruments and comprises a base, a mounting angle adjusting assembly and a cable guide assembly, wherein the mounting angle adjusting assembly is positioned on the surface of the bottom end of a vertical frame, the cable guide assembly is positioned on one side of the inner lower end surface of the vertical frame, the mounting angle adjusting assembly comprises a first arc-shaped guide rail, a second arc-shaped guide rail and an arc-shaped gear ring, the first arc-shaped guide rail is welded and fixed with the surface of one side of the vertical frame through a first support rod, the second arc-shaped guide rail is welded and fixed with the surface of one side of the vertical frame through a second support rod, a first guide wheel and a second guide wheel are symmetrically arranged on two sides in the first arc-shaped guide rail, the arc-shaped gear ring is welded and fixed on the outer side surface of a third arc-shaped guide, the installation efficiency of the cable is improved, and application scope is wide simultaneously, is convenient for act on personnel and operates.

Description

Mounting structure with rolling function for high-frequency signal cable

Technical Field

The invention relates to the field of cable installation equipment, in particular to an installation structure with a winding function for a high-frequency signal cable.

Background

The wire and cable is used for transmitting electric (magnetic) energy, information and wire products for realizing electromagnetic energy conversion. A wire cable in a broad sense, also referred to as a cable for short, refers to an insulated cable, which can be defined as: an aggregate consisting of; one or more insulated wire cores, and a coating layer, a total protective layer and an outer protective layer which can be respectively arranged on the insulated wire cores, wherein the cable also can be provided with an additional conductor without insulation, and the product is mainly characterized in that: pure conductor metal without insulating and sheathing layer, such as steel-cored aluminum stranded wire, copper-aluminum bus bar, electric locomotive wire, etc.; the processing technology mainly comprises pressure processing, such as smelting, calendering, drawing, stranding/pressing stranding and the like; the product is mainly used in suburbs, rural areas, user mainlines, switch cabinets and the like, the high-frequency cable is used for transmitting high-frequency signals, and the cable has distributed capacitance and distributed inductance, has a filtering effect on the high-frequency signals and attenuates the high-frequency signals, so that the cable with small distributed capacitance and distributed inductance is required for transmitting the high-frequency signals.

The high-frequency cable can not be adjusted easily to the angle of installation cable in the installation, and difficult bent angle department of carrying on is installed in the cable installation, and the installation degree of difficulty is big, provides a mounting structure for high-frequency signal cable with rolling function for this reason and solves the above-mentioned problem that appears.

Disclosure of Invention

The invention aims to solve the problems that in the prior art, a cable is difficult to install at a bent angle in the cable installation process and the installation difficulty is high, and provides an installation structure for a high-frequency signal cable with a winding function.

In order to achieve the purpose, the invention adopts the following technical scheme:

a high-frequency signal cable mounting structure with a winding function comprises a vertical frame, a winding roller, a winding shaft, a base, a mounting angle adjusting assembly located on the surface of the bottom end of the vertical frame and a cable guide assembly located on one side of the lower end face in the vertical frame, wherein the mounting angle adjusting assembly comprises a first arc-shaped guide rail, a second arc-shaped guide rail and an arc-shaped gear ring, the first arc-shaped guide rail and the second arc-shaped guide rail are respectively located on two sides of the vertical frame, the first arc-shaped guide rail is welded and fixed with the surface of one side of the vertical frame through a first support rod, the second arc-shaped guide rail is welded and fixed with the surface of one side of the vertical frame through a second support rod, a first guide wheel and a second guide wheel are symmetrically mounted in the first arc-shaped guide rail, the lower ends of the first guide wheel and the second guide wheel are welded and fixed with the base, and a third guide wheel and a, third leading wheel and fourth leading wheel lower extreme all with base up end welded fastening, the arc ring gear is located the grudging post middle part, and arc ring gear welded fastening is on third arc guide rail lateral surface, third arc guide rail passes through third bracing piece and grudging post side surface welded fastening, the arc ring gear passes through the teeth of a cogwheel and driving gear meshing, the driving gear passes through bolt fastening in driving motor's output shaft one end.

Preferably, the cable direction subassembly includes vertical screw rod, first fabric wheel and second fabric wheel, vertical screw rod is located carrier up end middle part, the carrier is located lower extreme one side in the grudging post, first fabric wheel rotates the connection and is in the middle part in the support frame, the support frame is located upper portion in the carrier, second fabric wheel rotates the connection and is in the lower part position in the carrier.

Preferably, the vertical frame is located the base upside, the wind-up roll cup joints in wind-up shaft lateral surface middle part, the wind-up roll rotates to be connected one side surface in the vertical frame, the high frequency cable winding is on the wind-up roll lateral surface.

Preferably, the circle centers of the first arc-shaped guide rail, the second arc-shaped guide rail and the third arc-shaped guide rail are positioned on the same straight line, and the specifications of the first arc-shaped guide rail, the second arc-shaped guide rail and the third arc-shaped guide rail are the same.

Preferably, first guide gear and second guide gear are installed respectively to base up end middle part both sides, first guide gear rotates through the pivot and connects in first carrier, second guide gear rotates through the pivot and connects in second carrier, first guide gear and second guide gear all mesh through the teeth of a cogwheel and arc ring gear.

Preferably, rolling axle one end is connected with the reduction gear, reduction gear one end is connected with the output shaft of rolling motor, a side surface in the grudging post is installed to rolling motor, rolling motor passes through connecting wire and external power supply electric connection.

Preferably, driving motor passes through mounting panel welded fastening in base up end middle part, driving motor passes through connecting wire and external power electric connection.

Preferably, the fixed back shaft of carrier lower extreme terminal surface middle part welded connection, the bottom rotates in back shaft lower extreme and the grudging post and is connected, first gear is cup jointed to back shaft lateral surface middle part lower part, first gear passes through the teeth of a cogwheel and the meshing of second gear, the second gear rotates to be connected one side in the adjustment tank, the adjustment tank is seted up in the grudging post on the terminal surface down.

Preferably, the support frame bilateral symmetry installation spacing fixture block, two spacing fixture block sliding connection is respectively at two spacing inslots, two the spacing inslot symmetry is seted up at the interior both sides surface of carrier.

The invention has the beneficial effects that:

1, through first arc guide rail, second arc guide rail, third arc guide rail, the setting of driving gear and arc ring gear, can drive the arc ring gear through the driving gear and remove, the arc ring gear drives first arc guide rail and second arc guide rail simultaneously and removes, first arc guide rail and second arc guide rail drive the grudging post and remove, and then adjust the vertical installation angle of cable, be convenient for the cable to install at different angle walls or corners, the installation effectiveness is improved, through first leading wheel, the second leading wheel, the third leading wheel, the fourth leading wheel, the setting of first leading gear and second leading gear, carry out spacing direction to the removal of grudging post, stability when improving the grudging post and removing.

2, through the setting of first fabric wheel, second fabric wheel and vertical screw rod, can adjust the interval between first fabric wheel and the second fabric wheel through vertical screw rod, can fix a position the cable of different specifications, through the setting of back shaft, first gear and second gear, can drive the carrier frame through the supporting seat and rotate, and then adjust the transverse angle of cable.

The cable installation angle adjusting device is reasonable in structure, capable of adjusting the cable installation angle in real time, capable of improving the installation efficiency of cables, wide in application range and convenient for operators to operate.

Drawings

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

FIG. 2 is a schematic cross-sectional view A-A of the present invention;

FIG. 3 is a schematic cross-sectional view of B-B of the present invention;

FIG. 4 is a schematic cross-sectional view of C-C of the present invention;

fig. 5 is an enlarged schematic view of a portion a in fig. 2 according to the present invention.

Reference numbers in the figures: the cable winding device comprises a cable guide assembly 1, a vertical frame 2, a winding roller 3, a winding shaft 4, an installation angle adjusting assembly 5, a base 6, a high-frequency cable 7, a carrier 101, a limit slider 102, a limit groove 103, a longitudinal screw 104, a support frame 105, a first wire pressing wheel 106, a second wire pressing wheel 107, a second wire pressing wheel 108, a first gear 109, a support shaft 110, a first support rod 501, a first arc-shaped guide rail 502, a first guide wheel 503, a second guide wheel 504, a driving motor 505, a driving gear 506, a first guide gear 507, a third support rod 508, a third arc-shaped guide rail 509, an arc-shaped gear ring 510, a second guide gear 511, a second support rod 512, a second arc-shaped guide rail 513, a third guide wheel 514 and a fourth guide wheel 515.

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.

Referring to fig. 1-5, a mounting structure for a high-frequency signal cable with a winding function comprises a vertical frame 2, a winding roller 3, a winding shaft 4, a base 6, a mounting angle adjusting assembly 5 positioned on the bottom end surface of the vertical frame 2, and a cable guiding assembly 1 positioned on one side of the inner lower end surface of the vertical frame 2, wherein the mounting angle adjusting assembly 5 comprises a first arc-shaped guide rail 502, a second arc-shaped guide rail 513 and an arc-shaped gear ring 510, the first arc-shaped guide rail 502 and the second arc-shaped guide rail 513 are respectively positioned on two sides of the vertical frame 2, the first arc-shaped guide rail 502 is fixed to one side surface of the vertical frame 2 by welding through a first support rod 501, the second arc-shaped guide rail 513 is fixed to one side surface of the vertical frame 2 by welding through a second support rod 512, a first guide wheel 503 and a second guide wheel 504 are symmetrically arranged on two sides in the first arc-shaped guide rail 502, the lower, third guide wheels 514 and fourth guide wheels 515 are symmetrically installed on two sides in a second arc-shaped guide rail 513, the lower ends of the third guide wheels 514 and the fourth guide wheels 515 are welded and fixed with the upper end surface of the base 6, an arc-shaped gear ring 510 is located in the middle of the vertical frame 2, the arc-shaped gear ring 510 is welded and fixed on the outer side surface of the third arc-shaped guide rail 510, the third arc-shaped guide rail 510 is welded and fixed with one side surface of the vertical frame 2 through a third support rod 508, the arc-shaped gear ring 510 is meshed with the driving gear 506 through gear teeth, the driving gear 506 is fixed at one end of an output shaft of the driving motor 505 through bolts, the arc-shaped gear ring 510 can be driven to move through the driving gear 506, the arc-shaped gear ring 510 simultaneously drives the first arc-shaped guide rail 502 and the second arc-shaped guide rail 513 to move, the first arc-shaped guide rail 502 and the second arc, the installation efficiency is improved.

Specifically, the cable guide assembly 1 comprises a longitudinal screw 104, a first wire pressing wheel 106 and a second wire pressing wheel 107, wherein the longitudinal screw 104 is positioned in the middle of the upper end face of the carrier 101, the carrier 101 is positioned on one side of the lower end face in the vertical frame 2, the first wire pressing wheel 106 is rotatably connected to the middle in the support frame 105, the support frame 105 is positioned on the upper part in the carrier 101, the second wire pressing wheel 107 is rotatably connected to the lower part in the carrier 101, the distance between the first wire pressing wheel 106 and the second wire pressing wheel 107 can be adjusted through the longitudinal screw 104, and cables with different specifications can be positioned.

Specifically, grudging post 2 is located 6 upsides of base, and wind-up roll 3 cup joints in 4 lateral surfaces of rolling axle middle parts, and wind-up roll 3 rotates and connects a side surface in grudging post 2, and high frequency cable 7 winding can carry out the rolling to high frequency cable 7 on 3 lateral surfaces of wind-up roll.

Specifically, the circle centers of the first arc-shaped guide rail 502, the second arc-shaped guide rail 513 and the third arc-shaped guide rail 510 are located on the same straight line, and the specifications of the first arc-shaped guide rail 502, the second arc-shaped guide rail 513 and the third arc-shaped guide rail 510 are the same, which is convenient for the stability of the first arc-shaped guide rail 502, the second arc-shaped guide rail 513 and the third arc-shaped guide rail 510 during movement.

Specifically, first leading gear 507 and second leading gear 511 are installed respectively to base 6 up end middle part both sides, and first leading gear 507 rotates through the pivot and connects in first gear 109 frame, and second leading gear 511 rotates through the pivot and connects in second gear 108 frame, and first leading gear 507 all meshes with arc ring gear 510 through the teeth of a cogwheel with second leading gear 511, can drive carrier 101 through the supporting seat and rotate, and then adjusts the transverse angle of cable.

Specifically, 4 one ends of rolling axle are connected with the reduction gear, and reduction gear one end is connected with winding motor's output shaft, and winding motor installs a side surface in grudging post 2, and winding motor passes through connecting wire and external power supply electric connection, can control the rotational speed reduction of rolling axle 4.

Specifically, driving motor 505 passes through mounting panel welded fastening in the middle part of 6 up ends of base, and driving motor 505 passes through connecting wire and external power source electric connection, can drive driving gear 506 through driving motor 505 and rotate, and then drive arc ring gear 510 and remove.

Specifically, terminal surface middle part welded fastening back shaft 110 under carrier 101, the bottom rotates in back shaft 110 lower extreme and the grudging post 2 and is connected, and first gear 109 is cup jointed to back shaft 110 lateral surface middle part lower part, and first gear 109 passes through the teeth of a cogwheel and the meshing of second gear 108, and second gear 108 rotates to be connected in adjustment tank one side, and the adjustment tank is seted up in grudging post 2 on the terminal surface down, can drive carrier 101 through the supporting seat and rotate, and then adjusts the transverse angle of cable.

Specifically, the support frame 105 bilateral symmetry installs spacing fixture block, and two spacing fixture blocks are sliding connection respectively in two spacing grooves 103, and two spacing grooves 103 symmetry are seted up in the interior both sides surface of carrier 101, stability when can improving the support frame 105 and remove.

The working principle is as follows: when the high-frequency cable pressing device is used, one end of a high-frequency cable 7 firstly penetrates through a gap between a first wire pressing wheel 106 and a second wire pressing wheel 107, the high-frequency cable 7 extrudes the first wire pressing wheel 106, the first wire pressing wheel 106 drives a supporting frame 105 to move, the supporting frame 105 drives a limiting slide block 102 to move in a limiting groove 103, then a longitudinal screw 104 is rotated, the longitudinal screw 104 rotates and moves downwards, after the lower end of the longitudinal screw 104 is attached to the supporting frame 105, the first wire pressing wheel 106 and the second wire pressing wheel 107 are both attached to the high-frequency cable 7, then the high-frequency cable 7 is pulled, the high-frequency cable 7 simultaneously drives the first wire pressing wheel 106 and the second wire pressing wheel 107 to rotate and guide the movement of the high-frequency cable 7, when the longitudinal angle and the installation position of the cable need to be adjusted, a driving motor 505 is connected to drive a driving gear 506 to rotate, the driving gear 506, meanwhile, the arc-shaped gear ring 510 moves along the first guide gear 507 and the second guide gear 511, along with the movement of the arc-shaped gear ring 510, the first arc-shaped guide rail 502 moves along the first guide wheel 503 and the second guide wheel 504, the second arc-shaped guide rail 513 moves along the third guide wheel 514 and the fourth guide wheel 515, at this time, the first arc-shaped guide rail 502 and the second arc-shaped guide rail 513 drive the stand 2 to move, the stand 2 moves to drive the cable to move, and further, the installation position and the longitudinal installation angle of the cable are adjusted, after the specified installation position is adjusted, the driving motor 505 stops running, then the carrier 101 is pushed, the carrier 101 drives the support shaft 110 to rotate, the support shaft 110 drives the first gear 109 to rotate, the first gear 109 drives the second gear 108 to rotate, and the transverse angle of the high-frequency cable 7 is adjusted, after the high-frequency cable 7 rotates to a proper angle, the carrier 101 stops being pushed, the first gear 109 and the second gear 108 are engaged by gear teeth, and define the position of the carriage 101, and then the worker installs the high-frequency cable 7.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like, indicate orientations and positional relationships based on those shown in the drawings, and are used only for convenience of description and simplicity of description, and do not indicate or imply that the equipment or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be considered as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (9)

1. The utility model provides a mounting structure for high frequency signal cable with rolling function, includes grudging post (2), wind-up roll (3), rolling axle (4), base (6), is located installation angle adjusting part (5) of grudging post (2) bottom surface and is located cable guide subassembly (1) of terminal surface one side down in grudging post (2), its characterized in that, installation angle adjusting part (5) include first arc guide rail (502), second arc guide rail (513) and arc ring gear (510), first arc guide rail (502) and second arc guide rail (513) are located grudging post (2) both sides respectively, first arc guide rail (502) are fixed with grudging post (2) side surface welding through first bracing piece (501), second arc guide rail (513) are fixed with grudging post (2) side surface welding through second bracing piece (512), first leading wheel (503) and second leading wheel(s) (3) of bilateral symmetry installation in first arc guide rail (502) 504) The lower ends of the first guide wheel (503) and the second guide wheel (504) are fixedly welded with the base (6), the third guide wheel (514) and the fourth guide wheel (515) are symmetrically installed on two sides in the second arc-shaped guide rail (513), the lower ends of the third guide wheel (514) and the fourth guide wheel (515) are fixedly welded with the upper end face of the base (6), the arc-shaped gear ring (510) is located in the middle of the vertical frame (2), the arc-shaped gear ring (510) is fixedly welded on the outer side face of the third arc-shaped guide rail (510), the third arc-shaped guide rail (510) is fixedly welded with one side surface of the vertical frame (2) through a third support rod (508), the arc-shaped gear ring (510) is meshed with the driving gear (506) through gear teeth, and the driving gear (506) is fixedly welded at one end of an output shaft of the driving motor (505) through bolts.

2. The mounting structure for high-frequency signal cables with a winding function according to claim 1, wherein the cable guide assembly (1) comprises a longitudinal screw (104), a first wire-pressing wheel (106) and a second wire-pressing wheel (107), the longitudinal screw (104) is located in the middle of the upper end surface of the carrier (101), the carrier (101) is located on one side of the lower end surface in the vertical frame (2), the first wire-pressing wheel (106) is rotatably connected in the middle of the support frame (105), the support frame (105) is located in the upper part of the carrier (101), and the second wire-pressing wheel (107) is rotatably connected in the lower position of the carrier (101).

3. The mounting structure with the winding function for the high-frequency signal cable according to claim 1, wherein the vertical frame (2) is located on the upper side of the base (6), the winding roller (3) is sleeved in the middle of the outer side surface of the winding shaft (4), the winding roller (3) is rotatably connected to the inner side surface of the vertical frame (2), and the high-frequency cable (7) is wound on the outer side surface of the winding roller (3).

4. The mounting structure with the winding function for the high-frequency signal cable according to claim 1, wherein the centers of the first arc-shaped guide rail (502), the second arc-shaped guide rail (513) and the third arc-shaped guide rail (510) are located on the same straight line, and the first arc-shaped guide rail (502), the second arc-shaped guide rail (513) and the third arc-shaped guide rail (510) have the same specification.

5. The mounting structure with the winding function for the high-frequency signal cable according to claim 1, wherein a first guide gear (507) and a second guide gear (511) are respectively mounted on two sides of the middle of the upper end surface of the base (6), the first guide gear (507) is rotatably connected in a first gear (109) frame through a rotating shaft, the second guide gear (511) is rotatably connected in a second gear (108) frame through a rotating shaft, and the first guide gear (507) and the second guide gear (511) are meshed with the arc-shaped gear ring (510) through gear teeth.

6. The mounting structure with the winding function for the high-frequency signal cable according to claim 1, wherein one end of the winding shaft (4) is connected with a speed reducer, one end of the speed reducer is connected with an output shaft of a winding motor, the winding motor is mounted on the inner side surface of the stand (2), and the winding motor is electrically connected with an external power supply through a connecting wire.

7. The mounting structure with the winding function for the high-frequency signal cable according to claim 1, wherein the driving motor (505) is fixed in the middle of the upper end face of the base (6) by welding through a mounting plate, and the driving motor (505) is electrically connected with an external power supply through a connecting wire.

8. The mounting structure with the winding function for the high-frequency signal cable according to claim 2, wherein a support shaft (110) is fixedly welded to the middle of the lower end face of the carrier (101), the lower end of the support shaft (110) is rotatably connected with the bottom of the stand (2), a first gear (109) is sleeved on the lower portion of the middle of the outer side face of the support shaft (110), the first gear (109) is meshed with a second gear (108) through gear teeth, the second gear (108) is rotatably connected to one side of an adjusting groove, and the adjusting groove is formed in the lower end face of the stand (2).

9. The mounting structure with the winding function for the high-frequency signal cable according to claim 2, wherein two limiting blocks are symmetrically mounted on two sides of the supporting frame (105), the two limiting blocks are respectively slidably connected in two limiting grooves (103), and the two limiting grooves (103) are symmetrically formed in two side surfaces of the carrier (101).

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