CN112960487A - Temporary cable stacking equipment for house building construction - Google Patents

Abstract

The invention belongs to the technical field of cable collection, and particularly relates to temporary cable stacking equipment for building construction, which comprises a travelling mechanism, a lifting mechanism and a collection frame, wherein after one collection frame is collected, the collection frame wound is pushed towards one side of a first motor for the distance of one collection frame, and then a sliding plate is fixed through a fifth screw; the square hole of the rotating disc in the wound collection frame is separated from the square shaft and slides into the shaft sleeve, then the other collection frame is arranged on the square shaft on the output shaft of the first motor, and six first sliding rods in the newly-placed collection frame are matched with six limiting grooves in a fixing ring in the winding-completed collection frame; then continuing to collect the cable; the collecting rack which is collected before is not required to be detached when the collecting rack is collected newly, and after the collecting rack is collected and completed, the collecting rack can be detached uniformly, so that the collecting rack is convenient to use.

Description

Temporary cable stacking equipment for house building construction

Technical Field

The invention belongs to the technical field of cable collection, and particularly relates to temporary cable stacking equipment for building construction.

Background

In the house building engineering construction, cables are usually used, are laid before use, are cut to required lengths, and are installed and butted according to specific construction requirements; in the construction, if temporary shutdown or operation suspension caused by rain occurs, the cables need to be placed temporarily, but the lengths of the cables to be placed are possibly different, so that the temporary collection is difficult.

On the other hand, if the cables are wound and collected by the winding wheel, the cables having different lengths need to be sequentially wound end to end in order to improve the collection efficiency, but such a winding method is not easy to temporarily take out the cables wound to a specific length on the collection rack, for example, the taken-out cables are wound at the innermost portion.

When the cable is to be taken out, the peripheral cable is required to be separated from the winding wheel.

The invention designs a temporary cable stacking device for building construction, which solves the temporary collection task of cables with different lengths, and simultaneously can take any cable at any time after collection.

Disclosure of Invention

In order to solve the defects in the prior art, the invention discloses temporary cable stacking equipment for building construction, which is realized by adopting the following technical scheme.

A temporary cable stacking device for building construction comprises a travelling mechanism, a lifting mechanism and a collecting frame, wherein the lifting mechanism is arranged on the upper side of the travelling mechanism and comprises a U-shaped lifting plate and a second motor, and the second motor works to control the lifting plate to lift relative to the travelling mechanism; the sliding plate is slidably arranged on the lifting plate, and one side of the sliding plate is provided with three limiting square grooves which are uniformly distributed in the circumferential direction; a fifth screw capable of locking the sliding plate and the lifting plate is arranged between the sliding plate and the lifting plate; the collection frame is detachably arranged on one side of the sliding plate.

The collecting frame comprises a baffle plate, a rotating disk, a mounting ring, a first sliding rod, a fixing ring and a second sliding rod, wherein a square hole is formed in the middle of the rotating disk, and a plurality of first hook grooves are uniformly formed in the circumferential direction on the outer circular surface of the rotating disk; the baffle is of a disc-shaped structure, an annular step is arranged at one side of the baffle close to the edge, and three limiting blocks are uniformly arranged at one side of the baffle in the circumferential direction; the baffle is rotatably arranged on one side of the rotating disc, and a plurality of second hook grooves are uniformly formed in the side face, facing the rotating disc, of the baffle; the three limiting blocks are matched with the three limiting square grooves; the six first sliding rods are slidably mounted on the baffle and are close to the edge of the baffle; first screws which can lock the six first sliding rods and the baffle in a relative sliding mode are arranged between the six first sliding rods and the baffle; the fixing ring is fixedly arranged at one ends of the six first sliding rods, and six limiting grooves are formed in the fixing ring; the three second sliding rods are slidably mounted on the fixing ring along the radial direction of the fixing ring; fourth screws capable of locking the three second sliding rods in a relative sliding mode are arranged between the three second sliding rods and the fixing ring; the mounting ring is rotatably mounted on the other side of the rotating disc, the three telescopic outer sleeves are slidably mounted on the mounting ring along the radial direction of the mounting ring, and second screws for locking the three telescopic outer sleeves and the mounting ring in a relative sliding manner are mounted between the three telescopic outer sleeves and the mounting ring; the three telescopic inner plates are slidably arranged on the three telescopic outer sleeves, and third screws for locking the telescopic functions of the three telescopic inner plates and the corresponding telescopic outer sleeves are respectively arranged between the three telescopic inner plates and the corresponding telescopic outer sleeves; the three telescopic inner plates are matched with the three second sliding rods.

The first motor is fixedly arranged on the lifting plate, a square shaft is arranged on an output shaft of the first motor, and the square shaft is matched with the square hole in the rotating disc; the output shaft of the first motor is provided with a shaft sleeve through a plurality of bearings which are uniformly distributed.

When the cable is wound, two sections of cables connected end to end in the winding process are connected through the connecting mechanism.

After the first collecting frame is wound, pushing the wound collecting frame to one side of the first motor for the distance of one collecting frame, and fixing the sliding plate through a fifth screw; the square hole of the rotating disc in the wound collection frame is separated from the square shaft and slides into the shaft sleeve, then the other collection frame is arranged on the square shaft on the output shaft of the first motor, and six first sliding rods in the newly-placed collection frame are matched with six limiting grooves in a fixing ring in the winding-completed collection frame; after which collection of the cable continues.

As a further improvement of the technology, the lifting mechanism further comprises guide rods, a first screw, a first gear, a second gear, a third gear, a fourth gear and a lifting plate, wherein four guide rods are fixedly installed at four corners of the upper side of the walking platform, and the lifting plate is installed on the upper side of the walking platform in a sliding manner through the four guide rods; the two first screw rods are symmetrically and rotatably arranged on the upper side of the walking platform and are in threaded fit with the lifting platform; the second motor is fixedly arranged on the upper side of the lifting platform, a second gear is fixedly arranged on an output shaft of the second motor, and the two third gears are symmetrically and rotatably arranged on the upper side of the lifting platform and are in matched connection with the two first screw rods through the guide blocks and the guide grooves; one of the two third gears is meshed with the second gear; two second rotating shafts are symmetrically and rotatably arranged on the upper side of the lifting platform, two ends of each second rotating shaft are respectively and fixedly provided with a first gear, and two first gears in the four first gears are respectively meshed with third gears on the same side; the first rotating shaft is rotatably arranged on the upper side of the lifting platform, the two fourth gears are symmetrically arranged at two ends of the first rotating shaft, and the two fourth gears are meshed with the other two third gears in the four third gears in a one-to-one correspondence manner.

As a further improvement of the technology, the connecting mechanism comprises a head part and a tail part.

To the coupling mechanism of prelude, it includes go-between, latch mechanism, rotatory collar extension, couple, and wherein the one end fixed mounting of go-between has latch mechanism, and the other end rotation of go-between is installed rotatory collar extension, and the last swing of rotatory collar extension is installed the couple.

And the tail connecting mechanism comprises a connecting ring, a locking mechanism, a rotary mounting ring and a hook ring, wherein the locking mechanism is fixedly mounted at one end of the connecting ring, the rotary mounting ring is rotatably mounted at the other end of the connecting ring, and the hanging ring is arranged on the rotary mounting ring in a swinging manner.

When the cable is connected, the head and the tail of the cable are respectively provided with the head and the tail connecting mechanisms through the corresponding buckle mechanisms, and when the two sections of cables are connected, the hanging ring in the front section tail connecting mechanism is connected with the hanging hook in the rear section connecting mechanism.

As a further improvement of the technology, the outer circular surfaces of the two first screws are provided with two guide grooves opposite to the vehicle, the inner circular surfaces of the two third gears are symmetrically provided with two guide blocks, the lower ends of the two third gears are provided with rotating rings, the two third gears are rotatably arranged on the lifting platform through the two rotating rings, and the guide blocks on the two third gears are in sliding fit with the guide grooves on the corresponding first screws.

As a further improvement of the technology, the annular step on the baffle is uniformly provided with six second sliding grooves at first, and the outer circular surface of the baffle is uniformly provided with six second threaded holes in the circumferential direction; two fourth threaded holes are formed in the first sliding rod, six first sliding rods are slidably mounted on the baffle through the second sliding grooves, six first screws are mounted between the baffle and the six first sliding rods through cooperation with the six second threaded holes, and the six first screws are correspondingly matched with the four threaded holes formed in the six first sliding rods.

The fixing ring is provided with three third sliding grooves, and one side of each third sliding groove is provided with a third threaded hole; the three second slide bars are installed on the fixing ring through sliding fit with the three third slide grooves, and the three fourth screws are installed between the fixing ring and the three second slide bars through threaded accessories with the three third threaded holes.

Three first sliding grooves are uniformly formed in the circumferential direction of the mounting ring, and a first threaded hole is formed in one side of each first sliding groove; the three telescopic outer sleeves are installed on the installation ring through sliding fit with the three first sliding grooves, and the three second screws are installed between the installation ring and the three first sliding rods through threaded accessories with the three first threaded holes.

Two guide ring grooves are formed in two sides of the rotating disc, a second guide ring is fixedly installed on one side of the baffle, and the baffle is installed on one side of the rotating disc in a rotating fit mode through the second guide ring and one of the two guide ring grooves; one side of the mounting ring is fixedly provided with a first guide ring, and the mounting ring is arranged on the other side of the rotating disk in a rotating fit manner through the first guide ring and the other guide ring groove in the two guide ring grooves.

As a further improvement of the technology, the walking mechanism consists of a walking platform and four universal wheels arranged at four corners of the lower side of the walking platform.

As a further improvement of the technology, the baffle is provided with six avoiding square grooves for the six first sliding rods to slide.

As a further improvement of the present technology, the output shaft of the first motor is provided with a second screw, and after the collecting frame is mounted on the first square shaft of the first motor, the collecting frame is fixed with the output shaft of the first motor through the thread fit of the limiting disc and the second screw.

As a further improvement of the technology, one end of the second sliding rod is provided with a clamping groove, and the telescopic inner plate is matched with the clamping groove formed in the corresponding second sliding rod.

As a further improvement of the technology, the upper end of the lifting platform is symmetrically provided with two trapezoidal sliding chutes, the lower end of the sliding plate is symmetrically provided with two trapezoidal sliding blocks, and the sliding plate is arranged on the upper side of the lifting platform through the sliding fit of the two trapezoidal sliding blocks and the two trapezoidal sliding chutes.

Compared with the traditional cable collection technology, the cable collection device has the following beneficial effects:

1. when the collecting frame is connected with the first motor, the lifting plate drives the first motor to move downwards to the lowest point through the lifting mechanism, so that the height of the collecting frame required to be lifted when the collecting frame is connected with the output shaft of the first motor is reduced or the collecting frame does not need to be lifted; the labor force is reduced.

2. When the cable is collected, the six first sliding rods, the fixing ring and the three second sliding rods slide to one side of the baffle, then the three telescopic inner plates stretch, the other side of the rotating disc is blocked, and the cable is wound, so that the cable cannot slide from one side of the telescopic structure in the winding process, and the winding is influenced. After the winding is finished, the six first sliding rods, the three second sliding rods, the fixing rings and the telescopic inner plate are reset, collected cables are wrapped, and the anti-falling effect is achieved. When the cable is taken down, the corresponding second screw or fourth screw is loosened according to specific requirements through the position of the cable to be taken down, the telescopic outer sleeve and the second sliding rod are slid, the cable to be taken down is exposed, other cables are still in a blocked state, the cable to be taken down can be smoothly taken down, the cables at other positions cannot be affected, after the cable is taken down, the collecting frame is installed on the output shaft of the first motor, the rotating disc is driven to rotate through the first motor, and in the rotating process, the cable on the outer layer of a blank area left after the cable is taken down is pulled to be tensioned and wound on the inner layer, so that the cable is wound tightly again.

3. After one collecting frame is collected, the collecting frame wound is pushed towards one side of the first motor for the distance of one collecting frame, and then the sliding plate is fixed through a fifth screw; the square hole of the rotating disc in the wound collection frame is separated from the square shaft and slides into the shaft sleeve, then the other collection frame is arranged on the square shaft on the output shaft of the first motor, and six first sliding rods in the newly-placed collection frame are matched with six limiting grooves in a fixing ring in the winding-completed collection frame; then continuing to collect the cable; the collecting rack which is collected before is not required to be detached when the collecting rack is collected newly, and after the collecting rack is collected and completed, the collecting rack can be detached uniformly, so that the collecting rack is convenient to use.

4. The collecting rack designed by the invention can properly adjust which section of cable is wound according to the remaining winding space and the length of the cable during the final winding in the collecting process; the cable is wound layer by layer without transverse overlapping parts, so that the utilization rate is high, the cable is convenient to take down, and the cable is taken down without considering the influence of transverse overlapping of the cable.

Drawings

FIG. 1 is a schematic view of the latch mechanism installation.

Fig. 2 is a schematic view of the overall component distribution.

FIG. 3 is a schematic view of the installation of the universal wheels and the lifting plate.

Fig. 4 is a schematic view of a collection rack installation.

Fig. 5 is a schematic view of the slide plate structure.

Fig. 6 is a schematic view of a second collection frame mounting arrangement.

Fig. 7 is a schematic view of bushing installation.

Fig. 8 is a schematic view of a collection rack configuration.

Fig. 9 is a schematic view of a rotating disk structure.

Fig. 10 is a schematic view of a baffle structure.

Fig. 11 is a schematic view of a mounting ring.

Fig. 12 is a schematic view of the structure of the second sliding bar, the telescopic inner plate and the telescopic outer sleeve.

Fig. 13 is a schematic view of a fixed ring structure.

Figure 14 is a schematic view of a sled installation.

Number designation in the figures: 1. a connecting ring; 2. a latch mechanism; 3. rotating the mounting ring; 4. hooking; 5. a shackle; 6. a lifting plate; 7. a first motor; 8. a collection rack; 9. a walking platform; 10. a second motor; 11. a limiting square groove; 12. a universal wheel; 13. a first gear; 14. a second gear; 15. a guide groove; 16. a third gear; 17. a guide block; 18. a rotating ring; 19. a first screw; 20. a baffle plate; 21. rotating the disc; 22. a limiting disc; 23. a mounting ring; 24. a first screw; 25. a first slide bar; 26. a fixing ring; 27. a second slide bar; 28. a second screw; 29. a first chute; 30. a first threaded hole; 31. a first guide ring; 32. a first hook groove; 33. a guide ring groove; 34. a limiting block; 35. avoiding a square groove; 36. a second hook groove; 37. an annular step; 38. a second chute; 39. a second threaded hole; 40. a second guide ring; 41. a square shaft; 42. a second screw; 44. a telescopic outer sleeve; 45. a third screw; 46. a telescopic inner plate; 47. a fourth screw; 48. a card slot; 49. a third threaded hole; 50. a third chute; 51. a fourth threaded hole; 52. a first rotating shaft; 53. a fourth gear; 54. a second rotating shaft; 55. a trapezoidal chute; 56. a trapezoidal slider; 57. a shaft sleeve; 58. a traveling mechanism; 59. a lifting mechanism; 60. a connecting mechanism; 61. a guide bar; 62. a bearing; 63. a slide plate; 64. a limiting groove; 65. and a fifth screw.

Detailed Description

The following detailed description of embodiments of the present invention is provided in connection with the accompanying drawings and examples. The following examples or figures are illustrative of the present invention and are not intended to limit the scope of the present invention.

As shown in fig. 2, it comprises a walking mechanism 58, a lifting mechanism 59 and a collecting frame 8, wherein as shown in fig. 2 and 3, the lifting mechanism 59 is installed on the upper side of the walking mechanism 58, the lifting mechanism 59 comprises a U-shaped lifting plate 6 and a second motor 10, and the second motor 10 works to control the lifting plate 6 to lift relative to the walking mechanism 58; as shown in fig. 14, the sliding plate 63 is slidably mounted on the lifting plate 6, and as shown in fig. 5, one side of the sliding plate 63 is provided with three limit square grooves 11 which are uniformly distributed in the circumferential direction; a fifth screw 65 capable of locking the sliding plate 63 and the lifting plate 6 is arranged between the sliding plate and the lifting plate; as shown in fig. 2, the collecting shelf 8 is detachably installed at one side of the sliding plate 63.

As shown in fig. 6, the collecting frame 8 comprises a baffle 20, a rotating disc 21, a mounting ring 23, a first slide bar 25, a fixed ring 26 and a second slide bar 27, wherein as shown in fig. 9, a square hole is formed in the middle of the rotating disc 21, and a plurality of first hook grooves 32 are uniformly formed in the circumferential direction on the outer circumferential surface of the rotating disc 21; as shown in fig. 10, the baffle 20 is a disc-shaped structure, an annular step 37 is formed at one side of the baffle 20 close to the edge, and three limit blocks 34 are uniformly arranged at one side of the baffle 20 in the circumferential direction; the baffle plate 20 is rotatably arranged on one side of the rotating disk 21, and a plurality of second hook grooves 36 are uniformly formed in the side surface, facing the rotating disk 21, of the baffle plate 20; the three limit blocks 34 are matched with the three limit square grooves 11; as shown in fig. 6, six first sliding bars 25 are slidably mounted on the baffle plate 20 and close to the edge of the baffle plate 20; first screws 24 which can lock the six first sliding rods 25 and the baffle 20 in a relative sliding mode are arranged between the six first sliding rods 25 and the baffle 20; as shown in fig. 13, the fixing ring 26 is fixedly installed at one end of the six first sliding bars 25, and six limiting grooves 64 are formed on the fixing ring 26; three second slide bars 27 are slidably mounted on the fixed ring 26 along the radial direction of the fixed ring 26; a fourth screw 47 capable of locking the three second sliding rods 27 and the fixed ring 26 in a sliding manner is arranged between the two second sliding rods; as shown in fig. 6 and 11, the mounting ring 23 is rotatably mounted on the other side of the rotating disc 21, as shown in fig. 6 and 12, the three telescopic jackets 44 are slidably mounted on the mounting ring 23 along the radial direction of the mounting ring 23, and second screws 28 for slidably locking the three telescopic jackets 44 and the mounting ring 23 are mounted between the two sleeves; the three telescopic inner plates 46 are slidably mounted on the three telescopic jackets 44, and third screws 45 for locking the telescopic functions of the three telescopic inner plates 46 and the corresponding telescopic jackets 44 are respectively mounted between the three telescopic inner plates 46 and the telescopic jackets 44; three telescopic inner plates 46 cooperate with the three second slide bars 27.

As shown in fig. 2, the first motor 7 is fixedly installed on the lifting plate 6, as shown in fig. 7, the output shaft of the first motor 7 is provided with a square shaft 41, as shown in fig. 4, the square shaft 41 is matched with the square hole on the rotating disc 21; a shaft sleeve 57 is mounted on the output shaft of the first motor 7 by a plurality of bearings 62 which are evenly distributed.

As shown in fig. 1, when the cable is wound, two lengths of the cable connected end to end in the winding are connected by a connection mechanism 60.

After winding is finished, the hook 4 of the tail connecting mechanism 60 of the last cable is hung in the second hook groove 36 on the baffle plate 20; the present invention has the effect of designing the plurality of first hooking grooves 32 on the outer circumferential surface of the rotating disc 21 and the plurality of second hooking grooves 36 on the blocking plate 20 to ensure that the cable can be fixed at both ends to the rotating disc 21 and the blocking plate 20 regardless of the beginning and the end of the cable at any position.

After the first collecting rack 8 is wound, the wound collecting rack 8 is pushed toward the first motor 7 by the distance of one collecting rack 8, and then the sliding plate 63 is fixed by the fifth screw 65; the square hole of the rotating disc 21 in the wound collection frame 8 is separated from the square shaft 41 and slides into the shaft sleeve 57, then the other collection frame 8 is arranged on the square shaft 41 on the output shaft of the first motor 7, and six first sliding rods 25 in the newly-placed collection frame 8 are matched with six limiting grooves 64 on the fixing ring 26 in the collection frame 8 after the winding is finished; after which collection of the cable continues.

As shown in fig. 3, the lifting mechanism 59 further includes a guide rod 61, a first screw 19, a first gear 13, a second gear 14, a third gear 16, a fourth gear 53, and a lifting plate 6, wherein four corners of the upper side of the traveling platform 9 are fixedly provided with four guide rods 61, and the lifting plate 6 is slidably mounted on the upper side of the traveling platform 9 through the four guide rods 61; the two first screw rods 19 are symmetrically and rotatably arranged on the upper side of the walking platform 9 and are in threaded fit with the lifting platform; the second motor 10 is fixedly arranged on the upper side of the lifting platform, a second gear 14 is fixedly arranged on an output shaft of the second motor 10, and two third gears 16 are symmetrically and rotatably arranged on the upper side of the lifting platform and are in fit connection with two first screws 19 through guide blocks 17 and guide grooves 15; one of the two third gears 16, the third gear 16, meshes with the second gear 14; the two second rotating shafts 54 are symmetrically and rotatably arranged on the upper side of the lifting platform, two ends of each of the two second rotating shafts 54 are respectively and fixedly provided with one first gear 13, and two first gears 13 in the four first gears 13 are respectively meshed with the third gear 16 on the same side; the first rotating shaft 52 is rotatably installed on the upper side of the lifting platform, the two fourth gears 53 are symmetrically installed at two ends of the first rotating shaft 52, and the two fourth gears 53 are correspondingly engaged with the other two third gears 16 of the four third gears 16. The convenience of the collecting rack 8 is improved by the designed running gear 58.

In the invention, when the collecting frame 8 is connected with the first motor 7, the second motor 10 is controlled to work, so that the second motor 10 drives the second gear 14 to rotate, the second gear 14 rotates to drive the third gear 16 engaged with the second gear to rotate, the third gear 16 rotates to drive the corresponding first screw 19 to rotate, meanwhile, the third gear 16 rotates to drive the first gear 13 engaged with the third gear to rotate, the first gear 13 rotates to drive the corresponding second rotating shaft 54 to rotate, the second rotating shaft 54 rotates to drive the coaxial first super nylon to rotate, the first gear 13 rotates to drive the fourth gear 53 engaged with the first gear to rotate, the fourth gear 53 rotates to drive the first rotating shaft 52, the first rotating shaft 52 rotates to drive the other fourth gear 53 to rotate, further, the first gear 13 on the other side rotates to drive the other coaxial first gear 13 to rotate, the first gear 13 rotates to drive the other third gear 16 to rotate, so as to drive the other first screw rod 19 to rotate, and the two first screw rods 19 synchronously rotate; the two first screws 19 rotate to drive the lifting plate 6 in threaded fit with the first screws to slide downwards, so that the lifting plate 6 drives the first motor 7 to move downwards to the lowest point, the height of the collection frame 8 required to be lifted when being connected with the output shaft of the first motor 7 is reduced or the collection frame does not need to be lifted, and labor force is reduced.

As shown in fig. 1, the connecting mechanism 60 includes two portions, an end portion and a front portion.

As shown in fig. 1, the connection mechanism 60 of the head part includes a connection ring 1, a locking mechanism 2, a rotary mounting ring 3, and a hook 4, wherein the locking mechanism 2 is fixedly mounted at one end of the connection ring 1, the rotary mounting ring 3 is rotatably mounted at the other end of the connection ring 1, and the hook 4 is swingably mounted on the rotary mounting ring 3.

As shown in fig. 1, the tail connection mechanism 60 includes a connection ring 1, a locking mechanism 2, a rotary mounting ring 3, and a shackle 5, wherein the locking mechanism 2 is fixedly mounted at one end of the connection ring 1, the rotary mounting ring 3 is rotatably mounted at the other end of the connection ring 1, and a suspension ring is mounted on the rotary mounting ring 3 in a swinging manner.

When the cable is connected, the head and the tail of the cable are respectively provided with the head and the tail connecting mechanisms 60 through the corresponding buckle mechanisms, and when the two sections of cables are connected, the hanging ring in the front section tail connecting mechanism 60 is hooked and connected with the hanging hook 4 in the rear section connecting mechanism 60. The locking mechanism 2 used by the invention is the same as the locking mechanism 2 used on the existing safe box, and objects placed in the middle can be compressed at the locking opening.

As shown in fig. 3, the two first screws 19 are provided with two guide slots 15 on the outer circular surfaces thereof facing the cart, two guide blocks 17 are symmetrically mounted on the inner circular surfaces of the two third gears 16, the lower ends of the two third gears 16 are provided with rotating rings 18, the two third gears 16 are rotatably mounted on the lifting platform through the two rotating rings 18, and the guide blocks 17 on the two third gears 16 are in sliding fit with the corresponding guide slots 15 on the first screws 19. Ensuring that the up-and-down sliding of the lifting plate 6 does not affect the transmission of the third gear 16.

As shown in fig. 10, six second sliding grooves 38 are uniformly formed on the annular step 37 of the baffle plate 20, and six second threaded holes 39 are uniformly formed on the outer circumferential surface of the baffle plate 20 in the circumferential direction; the first slide bar 25 is provided with two fourth threaded holes 51, six first slide bars 25 are slidably mounted on the baffle plate 20 through the second sliding grooves 38, six first screws 24 are mounted between the baffle plate 20 and the six first slide bars 25 through matching with the six second threaded holes 39, and the six first screws 24 are correspondingly matched with the four threaded holes 51 formed in the six first slide bars 25.

As shown in fig. 13, the fixing ring 26 is provided with three third sliding grooves 50, and one side of each third sliding groove 50 is provided with a third threaded hole 49; the three second slide bars 27 are mounted on the fixed ring 26 by sliding engagement with the three third runners 50, and the three fourth screws 47 are mounted between the fixed ring 26 and the three second slide bars 27 by threaded fittings with the three third threaded holes 49.

As shown in fig. 11, three first sliding grooves 29 are uniformly formed in the circumferential direction of the mounting ring 23, and one side of each first sliding groove 29 is provided with a first threaded hole 30; three telescopic sleeves 44 are mounted on the mounting ring 23 by sliding engagement with the three first runners 29, and three second screws 28 are mounted between the mounting ring 23 and the three first slide bars 25 by threaded engagement with the three first threaded holes 30.

As shown in fig. 9, two guide ring grooves 33 are formed on both sides of the rotating disc 21, as shown in fig. 10, a second guide ring 40 is fixedly installed on one side of the baffle plate 20, as shown in fig. 8, the baffle plate 20 is installed on one side of the rotating disc 21 through the rotation fit of the second guide ring 40 and one guide ring groove 33 of the two guide ring grooves 33; as shown in fig. 11, a first guide ring 31 is fixedly installed at one side of the installation ring 23, and as shown in fig. 8, the installation ring 23 is installed at the other side of the rotating disk 21 by the rotation cooperation of the first guide ring 31 and the other guide ring groove 33 of the two guide ring grooves 33.

As shown in fig. 3, the traveling mechanism 58 is composed of a traveling platform 9 and four universal wheels 12 mounted at four corners of the lower side of the traveling platform 9.

As shown in fig. 10, the baffle 20 is provided with six escape square grooves 35 for the six first sliding bars 25 to slide.

As shown in fig. 7, the output shaft of the first motor 7 is provided with a second screw 42, and after the collecting rack 8 is mounted on the first square shaft 41 of the first motor 7, the collecting rack 8 and the output shaft of the first motor 7 are fixed by the thread fit of the limiting disc 22 and the second screw 42.

As shown in fig. 12, one end of the second sliding rod 27 has a locking slot 48, and the inner telescopic plate 46 is matched with the locking slot 48 formed on the corresponding second sliding rod 27.

The upper end of the lifting platform is symmetrically provided with two trapezoidal sliding grooves 55, the lower end of the sliding plate 63 is symmetrically provided with two trapezoidal sliding blocks 56, and the sliding plate 63 is arranged on the upper side of the lifting platform through the sliding fit of the two trapezoidal sliding blocks 56 and the two trapezoidal sliding grooves 55.

The collecting rack 8 designed by the invention can properly adjust which section of cable is wound according to the remaining winding space and the length of the cable during the final winding in the collecting process; the cable is wound layer by layer without transverse overlapping parts, so that the utilization rate is high, the cable is convenient to take down, and the cable is taken down without considering the influence of transverse overlapping of the cable.

The specific working process is as follows: when the collecting frame 8 designed by the invention is used, in an initial state, the six first screws 24 lock the first sliding rod 25; the clamping grooves 48 on the three second sliding rods 27 are matched with the three telescopic inner plates 46, the three telescopic inner plates 46 are in a retraction state, and the three third screws 45 are used for locking the corresponding telescopic inner plates 46 and the telescopic outer sleeve 44 in a telescopic manner; three fourth screws 47 lock the three second slide bars 27; the three second screws 28 lock the three telescoping outer sleeves 44.

When the collecting rack is used, the collecting rack 8 is arranged on an output shaft of the first motor 7, so that the three limit blocks 34 on the baffle plate 20 in the collecting rack 8 are nested in the three limit square grooves 11 on the lifting plate 6, the baffle plate 20 is limited in rotation through the matching of the three limit blocks 34 and the three limit square grooves 11, and the first square shaft 41 on the output shaft of the first motor 7 is matched with the square hole on the rotating disc 21; then, the collection frame 8 is fixed with the output shaft of the first motor 7 through the matching of the first limiting disc 22 and the second screw 42 on the output shaft of the first motor 7, so that the collection frame 8 can be prevented from being separated from the output shaft of the first motor 7 in the working process to a certain extent. After the collection frame 8 is installed, the mobile phone frame is lifted a small distance upwards relative to the ground through the lifting mechanism 59, so that the collection frame 8 is prevented from rubbing the ground in the cable collection process; then, the six first screws 24 and the three fourth screws 47 are loosened manually, the three second slide bars 27 are slid manually towards the side far away from the rotating disc 21, after one ends of the three second slide bars 27 close to the rotating disc 21 pass through the annular steps 37 on the baffle 20, the sliding of the second slide bars 27 is stopped, then the three fourth screws 47 lock the second slide bars 27, and then the fixing ring 26 is pulled manually, so that the fixing ring 26 drives the three second slide bars 27 and the six first slide bars 25 to slide towards the side of the baffle 20, the fixing ring 26 slides to the annular steps 37 to be overlapped with the annular steps 37, and the fixing ring 26 is lower than the end face of the baffle 20 close to the rotating disc 21; the six first slide bars 25 are then locked by six first screws 24; after the six first sliding rods 25 are locked, manually loosening the three third screws 45 to elongate the three telescopic inner plates 46, and when the three telescopic inner plates 46 are elongated to the limit state and are not separated from the corresponding telescopic outer sleeves 44, locking the three telescopic inner plates 46 through the three third screws 45, wherein one ends of the three telescopic inner plates 46, far away from the telescopic outer sleeves 44, are basically flush with the outer circular surface of the baffle plate 20; after the three telescopic inner plates 46 are locked, the heads and the tails of the cables to be collected and wound are fixedly provided with corresponding connecting mechanisms 60, the segmented cables are connected with each other through the head-tail connecting mechanisms 60, and the tail part of the cable at the tail part is provided with one connecting mechanism 60 with a hook 4; then the hook 4 at the head part of the first cable is hung in a first hook groove 32 formed on the rotating disc 21; then control first motor 7 work, first motor 7 drives the rotary disk 21 through the first square shaft 41 on the output shaft and rotates, and rotary disk 21 is rotatory to the cable winding, and at this in-process, baffle 20 is spacing by lifter plate 6 can not be rotatory, and the extending structure that three flexible inner panel 46 and three flexible overcoat 44 are constituteed plays the check to the opposite side of rotary disk 21 and keeps off the effect, and the cable can not follow the landing of extending structure one side in the winding process, influences the winding.

After winding is finished, hanging the hook 4 of the tail cable tail connecting mechanism 60 at the tail end in the second hook groove 36 on the baffle plate 20; then the six first screws 24 are loosened manually, the fixed ring 26 is pulled, so that the fixed ring 26 drives the six first slide bars 25 and the three second slide bars 27 to slide towards one side of the wound cable, after the first slide bars 25 and the second slide bars 27 slide to the limit state, the clamping grooves 48 on the second slide bars 27 are matched with the corresponding telescopic inner plates 46, the six first slide bars 25 are locked manually through the six first screws 24, then the three fourth screws 47 are loosened manually, the clamping grooves 48 on the three second slide bars 27 are inserted into the three telescopic inner plates 46, then the three third screws 45 are loosened, the three second slide bars 27 are driven to slide towards one side of the rotating disc 21, the three second slide bars 27 push the three telescopic inner plates 46 to slide towards the inner sides of the corresponding telescopic outer sleeves 44, and after the three second slide bars 27 slide to the limit state, the three second slide bars 27 are locked through the three fourth screws 47, the telescoping inner plate 46 is locked by three third screws 45. After one collecting rack 8 finishes collecting, the collecting rack 8 after winding is pushed to the side of the first motor 7 by the distance of one collecting rack 8, and then the sliding plate 63 is fixed by a fifth screw 65; the square hole of the rotating disc 21 in the wound collection frame 8 is separated from the square shaft 41 and slides into the shaft sleeve 57, and the first limiting disc 22 is taken down; then, another collecting frame 8 is arranged on the square shaft 41 on the output shaft of the first motor 7, and six first sliding rods 25 in the newly-placed collecting frame 8 are matched with six limiting grooves 64 on the fixing ring 26 in the collecting frame 8 after winding is completed; then continuing to collect the cable; the collected collecting rack 8 does not need to be detached, so that the use is convenient; after all the collection is finished, the collection frame 8 is finally detached and stored uniformly.

When the cable is taken down, the position of the cable to be taken down is determined firstly, then the corresponding second screw 28 or fourth screw 47 is loosened according to the specific requirement, the telescopic outer sleeve 44 and the second slide bar 27 are slid, the cable to be taken down is exposed, the other cables are still in a blocked state, then the second screw 28 and the fourth screw 47 are locked, the connecting mechanism 60 which needs to remove the head end and the tail end of the cable is released, the cable is removed, after being taken off, the two sections of the cables which are left on the collection frame 8 and are cut off at the taken position are connected end to end through the corresponding connecting mechanisms 60, then the collecting frame 8 is arranged on the output shaft of the first motor 7, the rotating disc 21 is driven by the first motor 7 to rotate, in the rotating process, the cables on the outer layer of the blank area left after the cables are taken away are pulled to be tightly wound on the inner layer, and after the final winding is finished, the tail ends of the cables on the outermost sides can be straightened.

Claims (10)

1. The utility model provides a pile cable equipment temporarily for construction is built in room which characterized in that: the collecting device comprises a travelling mechanism, a lifting mechanism and a collecting frame, wherein the lifting mechanism is arranged on the upper side of the travelling mechanism and comprises a U-shaped lifting plate and a second motor, and the second motor works to control the lifting plate to lift relative to the travelling mechanism; the sliding plate is slidably arranged on the lifting plate, and one side of the sliding plate is provided with three limiting square grooves which are uniformly distributed in the circumferential direction; a fifth screw capable of locking the sliding plate and the lifting plate is arranged between the sliding plate and the lifting plate; the collecting rack is detachably arranged on one side of the sliding plate;

the collecting frame comprises a baffle plate, a rotating disk, a mounting ring, a first sliding rod, a fixing ring and a second sliding rod, wherein a square hole is formed in the middle of the rotating disk, and a plurality of first hook grooves are uniformly formed in the circumferential direction on the outer circular surface of the rotating disk; the baffle is of a disc-shaped structure, an annular step is arranged at one side of the baffle close to the edge, and three limiting blocks are uniformly arranged at one side of the baffle in the circumferential direction; the baffle is rotatably arranged on one side of the rotating disc, and a plurality of second hook grooves are uniformly formed in the side face, facing the rotating disc, of the baffle; the three limiting blocks are matched with the three limiting square grooves; the six first sliding rods are slidably mounted on the baffle and are close to the edge of the baffle; first screws which can lock the six first sliding rods and the baffle in a relative sliding mode are arranged between the six first sliding rods and the baffle; the fixing ring is fixedly arranged at one ends of the six first sliding rods, and six limiting grooves are formed in the fixing ring; the three second sliding rods are slidably mounted on the fixing ring along the radial direction of the fixing ring; fourth screws capable of locking the three second sliding rods in a relative sliding mode are arranged between the three second sliding rods and the fixing ring; the mounting ring is rotatably mounted on the other side of the rotating disc, the three telescopic outer sleeves are slidably mounted on the mounting ring along the radial direction of the mounting ring, and second screws for locking the three telescopic outer sleeves and the mounting ring in a relative sliding manner are mounted between the three telescopic outer sleeves and the mounting ring; the three telescopic inner plates are slidably arranged on the three telescopic outer sleeves, and third screws for locking the telescopic functions of the three telescopic inner plates and the corresponding telescopic outer sleeves are respectively arranged between the three telescopic inner plates and the corresponding telescopic outer sleeves; the three telescopic inner plates are matched with the three second sliding rods;

the first motor is fixedly arranged on the lifting plate, a square shaft is arranged on an output shaft of the first motor, and the square shaft is matched with the square hole in the rotating disc; the output shaft of the first motor is provided with a shaft sleeve through a plurality of bearings which are uniformly distributed;

when the cable is wound, two sections of cables connected end to end in the winding process are connected through a connecting mechanism;

after the first collecting frame is wound, pushing the wound collecting frame to one side of the first motor for the distance of one collecting frame, and fixing the sliding plate through a fifth screw; the square hole of the rotating disc in the wound collection frame is separated from the square shaft and slides into the shaft sleeve, then the other collection frame is arranged on the square shaft on the output shaft of the first motor, and six first sliding rods in the newly-placed collection frame are matched with six limiting grooves in a fixing ring in the winding-completed collection frame; after which collection of the cable continues.

2. The temporary cable stacking apparatus for building construction according to claim 1, wherein: the lifting mechanism further comprises guide rods, a first screw, a first gear, a second gear, a third gear, a fourth gear and a lifting plate, wherein the four corners of the upper side of the walking platform are fixedly provided with the four guide rods, and the lifting plate is slidably arranged on the upper side of the walking platform through the four guide rods; the two first screw rods are symmetrically and rotatably arranged on the upper side of the walking platform and are in threaded fit with the lifting platform; the second motor is fixedly arranged on the upper side of the lifting platform, a second gear is fixedly arranged on an output shaft of the second motor, and the two third gears are symmetrically and rotatably arranged on the upper side of the lifting platform and are in matched connection with the two first screw rods through the guide blocks and the guide grooves; one of the two third gears is meshed with the second gear; two second rotating shafts are symmetrically and rotatably arranged on the upper side of the lifting platform, two ends of each second rotating shaft are respectively and fixedly provided with a first gear, and two first gears in the four first gears are respectively meshed with third gears on the same side; the first rotating shaft is rotatably arranged on the upper side of the lifting platform, the two fourth gears are symmetrically arranged at two ends of the first rotating shaft, and the two fourth gears are meshed with the other two third gears in the four third gears in a one-to-one correspondence manner.

3. The temporary cable stacking apparatus for building construction according to claim 1, wherein: the connecting mechanism comprises a head part and a tail part;

the connecting mechanism at the head part comprises a connecting ring, a locking mechanism, a rotary mounting ring and a hook, wherein the locking mechanism is fixedly mounted at one end of the connecting ring, the rotary mounting ring is rotatably mounted at the other end of the connecting ring, and the hook is arranged on the rotary mounting ring in a swinging manner;

the tail connecting mechanism comprises a connecting ring, a locking mechanism, a rotary mounting ring and a shackle, wherein the locking mechanism is fixedly mounted at one end of the connecting ring, the rotary mounting ring is rotatably mounted at the other end of the connecting ring, and a hanging ring is arranged on the rotary mounting ring in a swinging mode;

when the cable is connected, the head and the tail of the cable are respectively provided with the head and the tail connecting mechanisms through the corresponding buckle mechanisms, and when the two sections of cables are connected, the hanging ring in the front section tail connecting mechanism is connected with the hanging hook in the rear section connecting mechanism.

4. The temporary cable stacking apparatus for building construction according to claim 1, wherein: the outer circular surfaces of the two first screws are provided with two guide grooves, the inner circular surfaces of the two third gears are symmetrically provided with two guide blocks, the lower ends of the two third gears are provided with rotating rings, the two third gears are rotatably arranged on the lifting platform through the two rotating rings, and the guide blocks on the two third gears are in sliding fit with the guide grooves on the corresponding first screws.

5. The temporary cable stacking apparatus for building construction according to claim 1, wherein: six second sliding grooves are uniformly formed in the annular step on the baffle plate, and six second threaded holes are uniformly formed in the circumferential direction on the outer circular surface of the baffle plate; the first slide bar is provided with two fourth threaded holes, six first slide bars are slidably mounted on the baffle through second sliding grooves, six first screws are mounted between the baffle and the six first slide bars through matching with the six second threaded holes, and the six first screws are correspondingly matched with the fourth threaded holes formed in the six first slide bars;

the fixing ring is provided with three third sliding grooves, and one side of each third sliding groove is provided with a third threaded hole; the three second sliding rods are arranged on the fixing ring through sliding fit with the three third sliding grooves, and the three fourth screws are arranged between the fixing ring and the three second sliding rods through threaded accessories of the three third threaded holes;

three first sliding grooves are uniformly formed in the circumferential direction of the mounting ring, and a first threaded hole is formed in one side of each first sliding groove; the three telescopic outer sleeves are arranged on the mounting ring through sliding fit with the three first sliding grooves, and the three second screws are arranged between the mounting ring and the three first sliding rods through threaded accessories of the three first threaded holes;

two guide ring grooves are formed in two sides of the rotating disc, a second guide ring is fixedly installed on one side of the baffle, and the baffle is installed on one side of the rotating disc in a rotating fit mode through the second guide ring and one of the two guide ring grooves; one side of the mounting ring is fixedly provided with a first guide ring, and the mounting ring is arranged on the other side of the rotating disk in a rotating fit manner through the first guide ring and the other guide ring groove in the two guide ring grooves.

6. The temporary cable stacking apparatus for building construction according to claim 1, wherein: the walking mechanism consists of a walking platform and four universal wheels arranged at four corners of the lower side of the walking platform.

7. The temporary cable stacking apparatus for building construction according to claim 1, wherein: six avoidance square grooves for six first sliding rods to slide are formed in the baffle.

8. The temporary cable stacking apparatus for building construction according to claim 1, wherein: the output shaft of the first motor is provided with a second screw, and after the collecting frame is arranged on the first square shaft of the first motor, the collecting frame is fixed with the output shaft of the first motor through the thread matching of the limiting disc and the second screw.

9. The temporary cable stacking apparatus for building construction according to claim 1, wherein: one end of the second sliding rod is provided with a clamping groove, and the telescopic inner plate is matched with the clamping groove formed in the corresponding second sliding rod.

10. The temporary cable stacking apparatus for building construction according to claim 1, wherein: the upper end of the lifting platform is symmetrically provided with two trapezoidal sliding grooves, the lower end of the sliding plate is symmetrically provided with two trapezoidal sliding blocks, and the sliding plate is arranged on the upper side of the lifting platform through the sliding fit of the two trapezoidal sliding blocks and the two trapezoidal sliding grooves.

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