CN114669522A

CN114669522A - Be used for cable testing bridge built-in cable surface dust collector

Info

Publication number: CN114669522A
Application number: CN202210582450.0A
Authority: CN
Inventors: 邢伟兵
Original assignee: Nantong Runyuan Structural Parts Co ltd
Current assignee: Nantong Runyuan Structural Parts Co ltd
Priority date: 2022-05-26
Filing date: 2022-05-26
Publication date: 2022-06-28

Abstract

The invention discloses a dust removal device for the surface of a built-in cable of a cable bridge, which comprises two side brackets arranged in parallel and a cable arranged between the two side brackets, wherein a bottom supporting plate used for supporting and placing the cable is arranged below the cable, the bottom supporting plate is fixedly connected with the side brackets on two sides, an elliptic clamping left semi-ring and an elliptic clamping right semi-ring used for clamping and placing the cable are rotatably arranged on the bottom supporting plate, and one ends of the elliptic clamping left semi-ring and the elliptic clamping right semi-ring are rotatably connected with the bottom supporting plate through a pressing reset mechanism. According to the invention, the gear holes are communicated with the pushing mechanism, so that the teeth at the bottom of the sliding toothed plate are meshed with the meshing gear, once the vibration frequency of the cable and the ship body is not consistent, the cable can be placed to push the sliding toothed plate to slide in the pressing groove when the cable slides relatively on the bottom supporting plate, and meanwhile, the cable can be meshed to drive the meshing gear to rotate.

Description

Be used for cable testing bridge built-in cable surface dust collector

Technical Field

The invention relates to the technical field of cable bridges, in particular to a dust removal device for the surface of a built-in cable of a cable bridge.

Background

At present, related cables are generally required to be used for connection in the use process of ship high-power equipment, so that the cables are supported and protected by corresponding cable bridges, the cable bridges are generally fixed on corresponding ship bodies, but the existing cable bridges are generally directly fastened and fixed on the cable bridges due to the fact that the vibration frequency of the cables and the vibration frequency of the ship bodies are different, and therefore the cables are extremely easy to damage due to vibration stretching; meanwhile, due to the fact that current flows through the cable, a magnetic field can be formed nearby the cable, the magnetic field can magnetize ferromagnetic substances around the cable to enable the ferromagnetic substances to be magnetic, most of dust in the air is ferromagnetic substances, and the dust with the ferromagnetic substances is magnetized and absorbed on the cable when the dust in the air drifts around the cable.

Therefore, the dust removal device for the surface of the built-in cable of the cable bridge is designed.

Disclosure of Invention

The invention aims to solve the problems that dust in the air is magnetized and is absorbed on a cable when the dust with ferromagnetic substances drifts around the cable, and the dust absorbed on the surface of the cable is difficult to treat by a common blowing mode, and provides a dust removing device for the surface of a built-in cable of a cable bridge.

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

a dust removing device for the surface of a built-in cable of a cable bridge comprises two side brackets which are arranged in parallel and a cable arranged between the two side brackets, wherein a bottom supporting plate for supporting and placing the cable is arranged below the cable, the bottom supporting plate is fixedly connected with the side brackets at two sides, an elliptical clamping left semi-ring and an elliptical clamping right semi-ring for clamping and placing the cable are rotationally arranged on the bottom supporting plate, one end of each of the elliptical clamping left semi-ring and the elliptical clamping right semi-ring is rotationally connected with the bottom supporting plate through a pressing reset mechanism, the other end of each of the elliptical clamping left semi-ring and the elliptical clamping right semi-ring is provided with a buckling mechanism, a dust scraping device for scraping dust on the surface of the cable, which is adsorbed on the outer wall of the cable due to a magnetic field, is arranged on the bottom supporting plate and comprises an engaging gear which is rotationally arranged at the bottom of the bottom supporting plate and a T-shaped rotating plate which is fixed on the surface of the engaging gear, two alternately be equipped with between lock mechanism and the T shape rotor plate both ends and be used for scraping the ash scrape the dirt fine rule, the gear hole that meshing gear was seted up through bottom layer board bottom to and the fixed axle frame of coaxial setting on meshing gear rotates bottom layer board bottom, the gear hole is linked together with pushing mechanism, and is used for the drive to scrape the pushing mechanism of ash device operation.

Preferably, a plurality of ventilation holes used for heat dissipation and ventilation are formed in the side support, and the top of the bottom supporting plate is provided with a cable placing arc groove used for stably placing cables.

Preferably, the pressing reset mechanism comprises a U-shaped groove formed in the bottom supporting plate and a fixed half shaft fixedly arranged in the U-shaped groove, and the elliptical clamping left half ring and the elliptical clamping right half ring are respectively sleeved on the fixed half shaft through a first rotating half ring and a second rotating half ring which are coaxially sleeved on the fixed half shaft to rotate at the bottom of the U-shaped groove.

Preferably, the lock mechanism includes left connecting block and right connecting block that set up respectively at oval centre gripping left half ring and oval centre gripping right half ring looks remote site to and set up the lock subassembly at left connecting block and right connecting block looks remote site, left side connecting block and right connecting block all slide at oval centre gripping left half ring and oval centre gripping right half ring looks remote site through the mounting groove, left side connecting block and right connecting block all slide in the mounting groove through the T-shaped piece, left side connecting block and right connecting block all pull back the left connecting block and the right connecting block of roll-off in the mounting groove through the extension spring that sets up in the mounting groove.

Preferably, pushing mechanism is including seting up the groove of pressing at bottom layer board top to and the gliding sliding tooth plate about pressing the inslot, sliding tooth plate both ends are provided with first tailboard respectively and are used for the extrusion to press the pressing plate of canceling release mechanical system, bottom layer board and first tailboard are equipped with the second tailboard with the lateral wall of one side, and are equipped with the reset spring who is used for restoring to the sliding tooth plate between first tailboard and the second tailboard.

Preferably, the buckling assembly comprises a first elastic hook and a second elastic hook which respectively slide in the left connecting block and the right connecting block through hook placing grooves, the first elastic hook and the second elastic hook respectively slide in the hook placing grooves through two different sliding rods, and a first connecting spring and a second connecting spring which are opposite in elastic state are arranged above the first elastic hook and the second elastic hook.

Preferably, the fixed half shaft is fixed in the U-shaped groove through a fixing plate, the plane of the fixed half shaft faces upward, and the first rotating half ring and the second rotating half ring are both rotationally connected with the fixed half shaft through a sliding groove and sliding block mechanism.

The invention has the beneficial effects that:

1. according to the invention, the gear holes are communicated with the pushing mechanism, so that the teeth at the bottom of the sliding toothed plate are meshed with the meshing gear, once the vibration frequency of the cable and the ship body is not consistent, the cable can be placed to push the sliding toothed plate to slide in the pressing groove when the cable slides relatively on the bottom supporting plate, and meanwhile, the cable can be meshed to drive the meshing gear to rotate.

2. The invention adopts the swinging of the T-shaped rotating plate, the T-shaped rotating plate can pull the dust scraping fine wire to drive the buckled left connecting block and right connecting block to slide on the surface of the placed cable to scrape dust, and under the action of the extension spring, when the T-shaped rotating plate swings and resets, the left connecting block and the right connecting block can retract into the placing groove, so that the dust on the surface of the placed cable can be scraped continuously and repeatedly by the dust scraping fine wire which is subsequently attached to the surface of the placed cable.

Drawings

FIG. 1 is a schematic structural diagram of a dust removing device for a built-in cable surface of a cable tray according to the present invention;

FIG. 2 is a schematic diagram of a matching structure of an elliptical clamping left semi-ring and an elliptical clamping right semi-ring in the dust removing device for the surface of the built-in cable of the cable bridge, provided by the invention;

FIG. 3 is a side view of an upper and lower equiangular shaft of the oval clamping left half ring and the oval clamping right half ring in cooperation according to the present invention;

FIG. 4 is a front view of the oval clamping left half ring and the oval clamping right half ring in cooperation with one another according to the present invention;

FIG. 5 is an enlarged view of the structure at A in FIG. 4;

fig. 6 is a schematic view of a matching structure of the end portions of the left elliptic clamping half ring and the right elliptic clamping half ring in the dust removing device for the surface of the built-in cable of the cable bridge provided by the invention.

In the figure: the cable fixing device comprises a support on the 1 side, a cable is placed on the support on the 2 side, a left elliptic clamping half ring on the 3 side, a right elliptic clamping half ring on the 4 side, a fine dust scraping wire on the 5 side, a bottom supporting plate on the 6 side, a sliding toothed plate on the 7 side, a pressing groove on the 8 side, an arc groove on the 9 side, a pressing plate on the 10 side, a first tail plate on the 11 side, a return spring on the 12 side, a second tail plate on the 13 side, a gear hole on the 14 side, a meshing gear on the 15 side, a rotating plate on the 16T side, a fixed half shaft on the 17 side, a first rotating half ring on the 18 side, a second rotating half ring on the 19 side, a fixed shaft bracket on the 20 side, a left connecting block on the 21 side, a right connecting block on the 22 side, a first connecting spring on the 23 side, a second connecting spring on the 24 side, a T-shaped block on the 25T side, a hook placing groove on the 26 side, a first elastic hook on the 27-shaped hook, and a second elastic hook on the 28-shaped hook.

Detailed Description

Referring to fig. 1-6, a be used for cable testing bridge built-in cable surface dust collector, including two parallel arrangement's collateral branch frame 1 and place the cable 2 of placing between two collateral branch framves 1, set up a plurality of ventilation holes that are used for the heat dissipation ventilation on the collateral branch frame 1 for to placing cable 2 and carry out ventilation cooling, and 6 tops of bottom layer board are equipped with and are used for placing cable 2 and play the cable of stably placing and place arc groove 9.

Place cable 2 below and be equipped with the bottom layer board 6 that is used for holding up and places cable 2, and bottom layer board 6 and the 1 fixed connection in collateral branch frame of both sides, it is equipped with ellipse centre gripping left semi-ring 3 and ellipse centre gripping right semi-ring 4 that is used for the centre gripping to place cable 2 to rotate on the bottom layer board 6, refer to fig. 1 and show, ellipse centre gripping left semi-ring 3 and ellipse centre gripping right semi-ring 4 in the figure are towards placing cable 2 one side and are smooth curved surface, and a closed annular that ellipse centre gripping left semi-ring 3 and ellipse centre gripping right semi-ring 4 lock formed can carry out the circumference spacing to placing cable 2, avoid the centre gripping tension to make and place cable 2 and bottom layer board 6 and collateral branch frame 1 and tightly laminate, the vibration frequency of placing cable 2 and hull does not-cause and place the cracked risk of cable 2.

One end of the elliptic clamping left semi-ring 3 and one end of the elliptic clamping right semi-ring 4 are rotationally connected with the bottom supporting plate 6 through a pressing reset mechanism, as shown in the figure 4-5, the pressing reset mechanism comprises a U-shaped groove arranged on the bottom supporting plate 6 and a fixed half shaft 17 fixedly arranged in the U-shaped groove, the elliptic clamping left semi-ring 3 and the elliptic clamping right semi-ring 4 respectively rotate at the bottom of the U-shaped groove through a first rotating semi-ring 18 and a second rotating semi-ring 19 coaxially sleeved on the fixed half shaft 17, the fixed half shaft 17 is fixed in the U-shaped groove through a fixed plate, the plane of the fixed half shaft 17 is upward, the first rotating semi-ring 18 and the second rotating semi-ring 19 are rotationally connected with the fixed half shaft 17 through a chute slide block mechanism, wherein the chute slide block mechanism is the prior art and only provides structural support for the rotation of the first rotating semi-ring 18 and the second rotating semi-ring 19 on the fixed half shaft 17, without going too far, the design ensures that the elliptically clamped left half collar 3 and the elliptically clamped right half collar 4 can be rotated on the fixed half shaft 17 by means of the first rotating half collar 18 and the second rotating half collar 19, and the elliptically clamped left half collar 3 and the elliptically clamped right half collar 4 are in an open state when the cable 2 is not placed on the bottom bracket plate 6.

Referring to fig. 6, the other ends of the left elliptic clamping half ring 3 and the right elliptic clamping half ring 4 are provided with a buckling mechanism, the buckling mechanism comprises a left connecting block 21 and a right connecting block 22 which are respectively arranged at the opposite ends of the left elliptic clamping half ring 3 and the right elliptic clamping half ring 4, and a buckling component arranged at the opposite ends of the left connecting block 21 and the right connecting block 22, the buckling component comprises a first elastic hook 27 and a second elastic hook 28 which respectively slide in the left connecting block 21 and the right connecting block 22 through a hook placing groove 26, it should be noted that the first elastic hook 27 and the second elastic hook 28 are relatively arranged as shown in fig. 6, wherein the first elastic hook 27 and the second elastic hook 28 are flat hooks, so that the first elastic hook 27 and the second elastic hook 28 can be hooked with each other.

The first elastic hook 27 and the second elastic hook 28 respectively slide in the hook placement groove 26 through two different slide bars, the first connection spring 23 and the second connection spring 24 with opposite elastic states are arranged above the first elastic hook 27 and the second elastic hook 28, it should be noted that the opposite elastic states are to ensure the trend that the first elastic hook 27 and the second elastic hook 28 are close to each other, when the first elastic hook 27 and the second elastic hook 28 are fastened due to the close to each other, the first elastic hook 27 and the second elastic hook 28 cannot be pulled apart by the force of the first elastic hook 27 and the second elastic hook 28 on a straight line, if the hook fastening state of the first elastic hook 27 and the second elastic hook 28 needs to be destroyed, the first elastic hook 27 and the second elastic hook 28 are not in the fastening state, and then the slide bar above the second elastic hook 28 is pulled to make the first elastic hook 27 and the second elastic hook 28 break the fastening state along the vertical direction, in this way, the end parts of the left half ring 3 and the right half ring 4 clamped in the ellipse can be separated.

And the bottom supporting plate 6 is provided with an ash scraping device for scraping dust on the outer wall of the placed cable 2 due to the magnetic field adsorption on the surface of the placed cable 2, and a pushing mechanism for driving the ash scraping device to operate.

Referring to fig. 2, the pushing mechanism includes a pressing groove 8 opened at the top of the bottom plate 6, and a sliding toothed plate 7 sliding up and down in the pressing groove 8, and it should be noted that, when the cable 2 is placed on the bottom supporting plate 6, the cable 2 is placed to press the sliding toothed plate 7 on the bottom supporting plate 6 under the action of gravity, the meshing gear 15 passes through a gear hole 14 formed in the bottom of the bottom supporting plate 6, and a fixed shaft bracket 20 coaxially disposed on the meshing gear 15 rotates at the bottom of the bottom pallet 6, the gear hole 14 communicates with the pushing mechanism, make the tooth and the meshing gear 15 mesh of sliding teeth board 7 bottom, in case the vibration frequency of placing cable 2 and hull does not so and lead to placing cable 2 and just can rely on placing cable 2 and promote sliding teeth board 7 and slide in pressing down the groove 8 when having the relative slip on bottom layer board 6, can mesh simultaneously and drive meshing gear 15 and rotate.

Meanwhile, the two ends of the sliding toothed plate 7 are respectively provided with a first tail plate 11 and a pressing plate 10 for extruding and pressing the reset mechanism, wherein when the sliding toothed plate 7 is placed on a cable 2 to press down, the pressing plate 10 can also be pressed into a U-shaped groove, the descending pressing plate 10 can continuously extrude a first rotating half ring 18 and a second rotating half ring 19 which originally deflect to rotate on a fixed half shaft 17, the rotating first rotating half ring 18 and the rotating second rotating half ring 19 can drive the elliptical clamping left half ring 3 and the elliptical clamping right half ring 4 to be mutually buckled, and when the pressing plate 10 presses the first rotating half ring 18, the second rotating half ring 19 and the fixed half shaft 17 to be flush, the buckling of the elliptical clamping left half ring 3 and the elliptical clamping right half ring 4 is also finished.

Bottom layer board 6 is equipped with second tailboard 13 with the lateral wall of first tailboard 11 with one side, and is equipped with between first tailboard 11 and the second tailboard 13 and is used for the reset spring 12 that resets to sliding tooth plate 7, and the sliding tooth plate 7 of being convenient for like this can reset when not placing cable 2 extrusion.

The dust scraping device comprises a meshing gear 15 which is rotatably arranged at the bottom of a bottom supporting plate 6, and a T-shaped rotating plate 16 which is fixed on the surface of the meshing gear 15, dust scraping thin lines 5 which are used for scraping dust are arranged between two buckling mechanisms and the two ends of the T-shaped rotating plate 16 in a crossed mode, wherein the dust scraping thin lines 5 are not stretchable, it needs to be explained that when a cable 2 is placed, the bottom supporting plate 6 is pressed downwards, the dust scraping thin lines 5 can also be touched, and when an oval clamping left half ring 3 and an oval clamping right half ring 4 are buckled, the dust scraping thin lines 5 which are arranged in a crossed mode can be placed on the outer side wall of the cable 2 in a surrounding mode by means of the initial positions of the oval clamping left half ring 3 and the oval clamping right half ring 4.

The left connecting block 21 and the right connecting block 22 slide at opposite ends of the oval-clamped left half ring 3 and the oval-clamped right half ring 4 through the placing grooves, the left connecting block 21 and the right connecting block 22 slide in the placing grooves through the T-shaped blocks 25, the left connecting block 21 and the right connecting block 22 slide back into the placing grooves through the tension springs arranged in the placing grooves, it should be noted that when the meshing gear 15 rotates, the T-shaped rotating plate 16 can be driven to swing, the swinging T-shaped rotating plate 16 can drive the dust scraping thin wire 5 at the end part to scrape on the surface of the placed cable 2, because the left connecting block 21 and the right connecting block 22 are buckled with each other, originally, two dust scraping thin wires 5 are jointed, and along with the swinging of the T-shaped rotating plate 16, the T-shaped rotating plate 16 can pull the dust scraping thin wire 5 and slide and scrape dust on the surface of the placed cable 2 with the left connecting block 21 and the right connecting block 22 buckled with the dust scraping thin wire 5, under the action of the extension spring, when the T-shaped rotating plate 16 swings and resets, the left connecting block 21 and the right connecting block 22 at the moment can retract into the placing groove, so that the dust scraping fine wire 5 which is subsequently attached to the surface of the placed cable 2 can scrape the dust on the surface of the placed cable 2 in a reciprocating manner.

The working principle of the invention is as follows: firstly, place cable 2 and place on bottom layer board 6, then because place sliding tooth plate 7 on the effect of the gravity of cable 2 and constantly press down bottom layer board 6, and drive the pressing plate 10 of tip and press first rotatory semi-ring 18 and second rotatory semi-ring 19, and make oval centre gripping left semi-ring 3 and the lock of oval centre gripping right semi-ring 4, because place cable 2 and the vibrational frequency of hull do not-cause and lead to placing cable 2 and can take sliding tooth plate 7 to slide and take the swing of T shape rotor plate 16 on the meshing gear 15, and wobbling T shape rotor plate 16 can take the left connecting block 21 of lock and scrape dirt fine rule 5 on the right connecting block 22 and scrape the static dust on placing cable 2.

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 able to cover the technical scope of the present invention and the equivalent alternatives or modifications according to the technical solution and the inventive concept of the present invention within the technical scope of the present invention.

Claims

1. The dust removing device for the surface of the built-in cable of the cable bridge comprises two side brackets (1) arranged in parallel and a placed cable (2) placed between the two side brackets (1), and is characterized in that a bottom supporting plate (6) used for supporting and placing the cable (2) is arranged below the placed cable (2), the bottom supporting plate (6) is fixedly connected with the side brackets (1) on two sides, an oval clamping left half ring (3) and an oval clamping right half ring (4) used for clamping and placing the cable (2) are rotationally arranged on the bottom supporting plate (6), one ends of the oval clamping left half ring (3) and the oval clamping right half ring (4) are rotationally connected with the bottom supporting plate (6) through a pressing reset mechanism, the other ends of the oval clamping left half ring (3) and the oval clamping right half ring (4) are provided with a buckling mechanism, and the bottom supporting plate (6) is provided with a magnetic field adsorption device used for scraping the surface of the placed cable (2) due to the fact that the magnetic field is adsorbed outside the placed cable (2) Wall dust scrape grey device, scrape grey device including rotating meshing gear (15) that set up in bottom layer board (6) bottom to and fix T shape rotor plate (16) on meshing gear (15) face, two the cross is equipped with between lock mechanism and T shape rotor plate (16) both ends and is used for scraping grey scrapes dirt fine rule (5), gear hole (14) that meshing gear (15) were seted up through bottom layer board (6) bottom to and fixed pedestal (20) of coaxial setting on meshing gear (15) rotate bottom layer board (6), gear hole (14) are linked together with pushing mechanism to and be used for the drive to scrape the pushing mechanism of grey device operation.

2. The dust removing device for the surface of the built-in cable of the cable bridge stand is characterized in that a plurality of ventilation holes for heat dissipation and ventilation are formed in the side brackets (1), and cable placing arc grooves (9) for stably placing the cable (2) are formed in the top of the bottom supporting plate (6).

3. The device for removing dust on the surface of the built-in cable of a cable bridge stand is characterized in that the pressing reset mechanism comprises a U-shaped groove formed in the bottom supporting plate (6) and a fixed half shaft (17) fixedly arranged in the U-shaped groove, and the elliptic clamping left half ring (3) and the elliptic clamping right half ring (4) rotate at the bottom of the U-shaped groove through a first rotating half ring (18) and a second rotating half ring (19) coaxially sleeved on the fixed half shaft (17), respectively.

4. The device for removing dust on the surface of the built-in cable of the cable bridge rack as claimed in claim 1, it is characterized in that the buckling mechanism comprises a left connecting block (21) and a right connecting block (22) which are respectively arranged at the opposite ends of the elliptic clamping left half ring (3) and the elliptic clamping right half ring (4), and a snap-fit assembly provided at opposite ends of the left and right connection blocks (21, 22), the left connecting block (21) and the right connecting block (22) slide at the opposite ends of the elliptic clamping left semi-ring (3) and the elliptic clamping right semi-ring (4) through the placing grooves, the left connecting block (21) and the right connecting block (22) slide in the placing groove through a T-shaped block (25), and the left connecting block (21) and the right connecting block (22) are pulled back into the placing groove through the extension spring arranged in the placing groove to slide out of the left connecting block (21) and the right connecting block (22).

5. The dust removing device for the built-in cable surface of the cable bridge according to claim 1, wherein the pushing mechanism comprises a pressing groove (8) formed in the top of the bottom supporting plate (6) and a sliding toothed plate (7) sliding up and down in the pressing groove (8), a first tail plate (11) and a pressing plate (10) used for pressing the pressing resetting mechanism are respectively arranged at two ends of the sliding toothed plate (7), a second tail plate (13) is arranged on the side wall of the bottom supporting plate (6) on the same side as the first tail plate (11), and a resetting spring (12) used for resetting the sliding toothed plate (7) is arranged between the first tail plate (11) and the second tail plate (13).

6. The dust removing device for the surface of the built-in cable of the cable bridge frame is characterized in that the buckling assembly comprises a first elastic hook (27) and a second elastic hook (28) which respectively slide in the left connecting block (21) and the right connecting block (22) through a hook placing groove (26), the first elastic hook (27) and the second elastic hook (28) respectively slide in the hook placing groove (26) through two different slide rods, and a first connecting spring (23) and a second connecting spring (24) with opposite elastic force states are arranged above the first elastic hook (27) and the second elastic hook (28).

7. The device for removing dust on the surface of the built-in cable of a cable bridge frame as claimed in claim 3, wherein the fixed half shaft (17) is fixed in the U-shaped groove through a fixed plate, the plane of the fixed half shaft (17) faces upwards, and the first rotating half ring (18) and the second rotating half ring (19) are both rotationally connected with the fixed half shaft (17) through a sliding chute and sliding block mechanism.