CN114156786A - Temperature sensing cable laying equipment and method thereof - Google Patents

Abstract

The utility model relates to the technical field of cable laying, a temperature sensing cable laying equipment and method is disclosed, including the wiring case of installing in base case upside and set up in the running gear that the wiring case downside is used for driving the base case and remove, wiring incasement portion is provided with the reciprocating mechanism who is used for controlling temperature sensing cable reciprocating motion, reciprocating mechanism is including sliding the wiring straight-bar that sets up to be used for centre gripping temperature sensing cable in wiring incasement portion, install and be used for driving the gliding slip straight-bar of wiring straight-bar in wiring incasement portion, install and be used for driving the rotatory straight-bar that slides the straight-bar and be fixed in wiring incasement bottom surface and be used for driving the rotatory motor of rotatory straight-bar in the wiring incasement portion. This application has the effect that the artifical temperature sensing cable that lays exists inefficiency of improvement.

Description

Temperature sensing cable laying equipment and method thereof

Technical Field

The application relates to the technical field of cable laying, in particular to temperature sensing cable laying equipment and a temperature sensing cable laying method.

Background

The temperature sensing cable, also known as a linear temperature sensing fire detector, has the ability of continuously monitoring the temperature of a protected object. When laying the temperature sensing cable in the cable duct that is located the eminence, the temperature sensing cable need wear whole cable duct and leave sufficient allowance earlier, then the workman spreads the temperature sensing cable just the ripples "S" shape of mysterious and lays wire, and this just needs to pull the temperature sensing cable repeatedly.

If the Chinese utility model with the granted publication number of CN205029252U discloses a cable laying device, which comprises a winching machine and a cable drum, wherein a cable is wound on the cable drum, a central hole of the cable drum passes through a central shaft above a bracket, and the central shaft is connected with a driving motor through a conveyor belt; one end of the cable is connected with a traction rope on the winching machine through a cable net sleeve, the rolling pulley is fixed on the cable through a pulley fixing rope sleeve, a protective pipe is arranged outside the cable, and an anti-bending connector is further arranged on the cable.

The inventor thinks that the cable laying device is provided with the protective pipe and the bending-resistant connector on the cable, the bending-resistant connector and the protective pipe can prevent the cable from being bent, the temperature sensing cable can not be scattered to be distributed in an S shape for wiring, the temperature sensing cable needs to be bent manually to be in the S shape, and therefore the working efficiency of workers is reduced.

Disclosure of Invention

In order to solve the problem that manual laying of temperature sensing cables is low in efficiency, the application provides temperature sensing cable laying equipment and a temperature sensing cable laying method.

In a first aspect, the temperature sensing cable laying device provided by the invention adopts the following technical scheme:

a temperature-sensing cable laying device comprises a base box, a wiring box arranged on the upper side of the base box and a travelling mechanism arranged on the lower side of the wiring box and used for driving the base box to move, the wiring box is internally provided with a reciprocating mechanism for controlling the temperature sensing cable to slide out in a reciprocating way, the reciprocating mechanism comprises a motor fixed on the inner bottom surface of the wiring box, a sliding block arranged in the wiring box in a sliding way, a wiring straight rod fixed on the bottom surface of the sliding block and used for clamping the temperature sensing cable, and a sliding straight rod fixed on the side surface of the sliding block, the sliding straight rod is provided with a sliding through groove along the length direction of the sliding straight rod, the top end of the motor is fixed with a rotating straight rod, the end part, far away from the motor, of the rotating straight rod is fixedly provided with a rotating cylinder, and the top end of the rotating cylinder penetrates through the rotating straight rod through the sliding through groove and is fixedly provided with a limiting circular plate.

Through adopting above-mentioned technical scheme, the motor starts, and the motor drives rotatory straight-bar rotatory, and rotatory straight-bar drives the removal of slip straight-bar, and the slip straight-bar drives the wiring straight-bar along wiring case width direction reciprocating motion to this temperature sensing cable that realizes the wiring straight-bar drive roll-off carries out reciprocating motion work. Meanwhile, the traveling mechanism drives the wiring box to move, the driving mechanism drives the temperature sensing cable to slide out, the temperature sensing cable is spread to be S-shaped, and the problem that the temperature sensing cable is laid manually and low in efficiency is solved.

Optionally, a traction mechanism for driving the temperature sensing cable to slide out is arranged in the wiring box, the traction mechanism comprises a driving straight rod rotatably mounted in the wiring box, a wiring ring fixed at the end of the driving straight rod and used for driving the temperature sensing cable to slide out, and a connecting straight rod rotatably mounted on the inner bottom surface of the wiring box and used for enabling the motor and the driving straight rod to synchronously rotate, and a pressing mechanism for enabling the temperature sensing cable to be tightly attached to the outer peripheral surface of the wiring ring is arranged in the wiring box.

Through adopting above-mentioned technical scheme, the motor starts, and the motor drives and connects the straight-bar and rotate, connects the straight-bar and drives initiative straight-bar rotation, and the initiative straight-bar drives the wiring ring and rotates, and rethread fixture is lived the temperature sensing cable centre gripping and can drive temperature sensing cable roll-off wiring case.

Optionally, the pressing mechanism includes a locking straight plate fixed on the inner side wall of the wiring box, a locking straight rod slidably arranged on the locking straight plate, a wire fixing ring rotatably arranged at the end of the locking straight rod, a locking spring fixed on the bottom surface of the locking straight plate, and a locking circular plate fixed at the bottom end of the locking straight rod, and the top surface of the supporting straight plate is provided with a control mechanism for controlling the opening and closing of the motor.

Through adopting above-mentioned technical scheme, the solid line ring supports the temperature sensing cable through locking spring's deformability and presses in wiring ring surface for temperature sensing cable and wiring ring outer peripheral face closely laminate, in order to avoid the unable drive temperature sensing cable roll-off wiring case of wiring ring.

Optionally, the control mechanism includes a microswitch fixed on the top surface of the locking straight plate and a pressing bump fixed on the periphery of the locking straight rod, and the microswitch is electrically connected with the motor.

By adopting the technical scheme, when the temperature sensing cable is used up, the temperature sensing cable is not arranged between the wiring ring and the wire fixing ring, the locking straight rod slides along the length direction of the locking straight rod through the locking spring until the convex block is pressed to press the microswitch, the microswitch controls the motor to be switched off, and the equipment stops operating at the moment.

Optionally, the traveling mechanism includes a stabilizing straight rod rotatably mounted on the periphery of the bottom of the base box, directional wheels fixed at two ends of the stabilizing straight rod, a limiting sleeve rotatably mounted on the top surface of the base box, a limiting straight rod rotatably mounted on the bottom surface of the wiring box for enabling the limiting sleeve and the motor to synchronously rotate, a first bevel gear coaxially fixed on the periphery of the stabilizing straight rod, and a second bevel gear coaxially fixed at the bottom end of the limiting sleeve, the first bevel gear is engaged with the second bevel gear, and a limiting mechanism for enabling the limiting straight rod to rotate along with the rotation of the limiting sleeve is arranged on the inner circumferential surface of the limiting sleeve.

Through adopting above-mentioned technical scheme, aerify the terminal and aerify for the lift gasbag through direct trachea, the lift gasbag drives the lift straight-bar and slides along lift sleeve length direction, and the lift straight-bar drives the wiring case and slides along lift sleeve length direction to this height that realizes elevating gear regulation wiring case.

Optionally, the traveling mechanism includes a stabilizing straight rod rotatably mounted on the periphery of the bottom of the base box, directional wheels fixed at two ends of the stabilizing straight rod, a limiting sleeve rotatably mounted on the top surface of the base box, a limiting straight rod rotatably mounted on the bottom surface of the wiring box for enabling the limiting sleeve and the motor to synchronously rotate, a first bevel gear coaxially fixed on the periphery of the stabilizing straight rod, and a second bevel gear coaxially fixed at the bottom end of the limiting sleeve, the first bevel gear is engaged with the second bevel gear, and a limiting mechanism for enabling the limiting straight rod to rotate along with the rotation of the limiting sleeve is arranged on the inner circumferential surface of the limiting sleeve.

Through adopting above-mentioned technical scheme, the motor starts, drives spacing straight-bar and rotates, and spacing straight-bar passes through stop gear and drives spacing sleeve and rotate, and spacing sleeve drives second bevel gear and rotates, and second bevel gear drives first bevel gear and rotates, and first bevel gear drives the rotation of stabilizing the straight-bar, and the rotation of directional wheel is driven to stabilizing the straight-bar to this realizes that motor drive base case removes.

Optionally, the limiting straight rod is provided with a limiting groove along the length direction, the limiting mechanism comprises a limiting projection fixed on the inner circumferential surface of the limiting sleeve, and the limiting projection is located on the inner side of the limiting groove.

Through adopting above-mentioned technical scheme, spacing lug is located spacing recess inboard to when this realizes that spacing straight-bar slides along spacing sleeve length direction, spacing sleeve rotates along with the rotation of spacing straight-bar.

Optionally, spacing pipe is worn to be equipped with by wiring case bottom surface, spacing pipe one end is fixed in inside the wiring case, the spacing pipe other end is fixed in wiring straight-bar bottom.

Through adopting above-mentioned technical scheme, spacing pipe leads for the temperature sensing cable, prevents that the temperature sensing cable from at the inside gathering of wiring case, leads to the unable roll-off wiring case of temperature sensing cable.

In a second aspect, the invention provides a method for laying a temperature sensing cable, which adopts the following technical scheme:

a temperature sensing cable laying method comprises the following steps:

s1: placing the device to a designated location; s2: the lifting straight rod is driven by the lifting air bag to slide along the length direction of the lifting sleeve, so that the lifting straight rod can adjust the wiring box to a proper height; s3: the temperature sensing cable penetrates between the wiring ring and the wire fixing ring, then the motor is started, the motor drives the wiring ring to rotate, the wiring ring drives the temperature sensing cable to move, and the temperature sensing cable penetrates out of the wiring box through the limiting circular pipe; s4: the motor drives the directional wheel to rotate; s5: the motor drives the wiring straight rod to reciprocate, and the wiring straight rod drives the sliding temperature sensing cable to reciprocate; s6: when the temperature sensing cable is used up, the temperature sensing cable is not arranged between the wiring ring and the wire fixing ring, and the locking straight rod slides along the length direction of the locking straight rod through the locking spring until the pressing convex block presses the microswitch; s7: the micro switch controls the motor to be turned off, and the equipment stops running at the moment.

Through adopting above-mentioned technical scheme, the motor starts, this equipment of motor drive moves forward, meanwhile, the motor drives the motor and drives the wiring ring and rotate, the wiring ring drives the temperature sensing cable and removes, the temperature sensing cable wears out the wiring case through spacing pipe, meanwhile, the motor drives wiring straight-bar reciprocating motion, the temperature sensing cable that the wiring straight-bar drove the roll-off carries out reciprocating motion merit, it is just xuan ripples "S" shape to have realized that the temperature sensing cable spreads, this application has improved the problem that manual laying temperature sensing cable exists inefficiency.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the motor starts, and the motor drives rotatory straight-bar and rotates, and rotatory straight-bar drives the removal of slip straight-bar, and the straight-bar that slides drives the wiring straight-bar along wiring case width direction reciprocating motion to this realizes that the wiring straight-bar drives the temperature sensing cable of roll-off and carries out reciprocating motion work. Meanwhile, the traveling mechanism drives the wiring box to move, the driving mechanism drives the temperature sensing cable to slide out, the temperature sensing cable is spread to be S-shaped, and the problem that the temperature sensing cable is laid manually and low in efficiency is solved.

2. When the temperature sensing cable is used up, the temperature sensing cable is not arranged between the wiring ring and the wire fixing ring, the locking straight rod slides along the length direction of the locking straight rod through the locking spring until the pressing convex block presses the microswitch, the microswitch controls the motor to be turned off, and the equipment stops operating at the moment.

3. The inflation terminal inflates the lifting air bag through the through air pipe, the lifting air bag drives the lifting straight rod to slide along the length direction of the lifting sleeve, and the lifting straight rod drives the wiring box to slide along the length direction of the lifting sleeve, so that the height of the wiring box can be adjusted by the lifting device.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present application.

Fig. 2 is a schematic sectional view of a portion a-a in fig. 1.

Fig. 3 is an enlarged schematic view of a portion a in fig. 2.

Fig. 4 is an enlarged schematic view of a portion B in fig. 2.

FIG. 5 is a schematic cross-sectional view of a wiring cabinet in an embodiment of the present application.

Fig. 6 is a partially exploded schematic view of fig. 5.

Fig. 7 is a schematic diagram of a partial explosion of an embodiment of the present application.

Fig. 8 is a partially exploded schematic view of fig. 7.

Description of reference numerals: 11. a base case; 12. a wiring box; 13. a lifting device; 14. a lifting sleeve; 15. a lifting air bag; 16. a straight-through air pipe; 17. an inflation terminal; 18. a lifting straight rod; 19. a first through hole; 20. a first cavity; 21. a mobile device; 22. a second through hole; 23. a rolling bearing; 24. a stabilizing straight rod; 25. orienting the wheel; 26. a straight through hole IV; 27. mounting a first bearing; 28. a limiting sleeve; 29. a first limiting ring; 30. a drive box; 31. a second cavity; 32. a third through hole; 33. a first bevel gear; 34. a fifth through hole; 35. a second bevel gear; 36. a limiting straight rod; 37. a limiting groove; 38. a limiting bump; 39. a third cavity; 40. a motor; 41. a driving straight rod; 42. a first limiting roller; 43. a straight through hole six; 44. mounting a second bearing; 45. a second limiting ring; 46. a second limiting roller; 47. a limiting belt; 48. a wiring through groove; 49. a slider; 50. a straight through hole seventh; 51. a wiring straight rod; 52. a sliding straight rod; 53. a sliding through groove; 54. rotating the straight rod; 55. rotating the cylinder; 56. a limiting circular plate; 57. driving a first roller; 58. a driving circular groove; 59. mounting a bearing III; 60. a connecting straight rod; 61. driving a second roller; 62. a drive belt; 63. a worm; 64. a support straight plate; 65. eight straight-through holes; 66. an active straight rod; 67. a third limiting ring; 68. a worm gear; 69. a wiring ring; 70. locking the straight plate; 71. straight through square groove; 72. locking the straight rod; 73. a driven straight rod; 74. a wire fixing circular ring; 75. a fourth limiting ring; 76. a semicircular through groove; 77. a locking spring; 78. locking the circular plate; 79. a microswitch; 80. pressing the bump; 81. placing a straight plate; 82. placing a round rod; 83. placing a through groove; 85. a limiting circular tube; 86. a slide rail straight rod; 87. a straight-through hole nine; 88. defining a straight plate.

Detailed Description

The present application is described in further detail below with reference to figures 1-8.

The embodiment of the application discloses temperature sensing cable laying equipment and a temperature sensing cable laying method. Referring to fig. 1 and 2, the temperature sensitive cable laying apparatus and method thereof includes a base box 11 and a wiring box 12 installed above the base box 11, and a lifting device 13 for adjusting a height of the wiring box 12 is provided on a top surface of the base box 11. The lifting device 13 comprises a lifting sleeve 14 vertically fixed on the top surface of the base box 11, a lifting air bag 15 fixed on the inner bottom surface of the lifting sleeve 14, a straight-through air pipe 16 fixed on the peripheral side of the lifting air bag 15, a lifting straight rod 18 fixed on the bottom surface of the wiring box 12 and an inflation terminal 17 fixed on the top surface of the base box 11. The lifting straight rod 18 penetrates through the inner side of the lifting sleeve 14, the bottom end of the lifting straight rod 18 is fixedly connected with the top end of the lifting air bag 15, a first through hole 19 is formed in the periphery of the bottom of the lifting sleeve 14, and the first through hole 19 is communicated with the inner side of the lifting sleeve 14. The inner side of the through air pipe 16 is communicated with the inner side of the lifting air bag 15, the end part of the through air pipe 16 far away from the lifting air bag 15 penetrates through the lifting sleeve 14 through a first through hole 19, and the end part of the through air pipe 16 far away from the lifting air bag 15 is communicated with an inflation opening of an inflation terminal 17. The air inflation terminal 17 inflates the lifting air bag 15 through the through air pipe 16, the lifting air bag 15 drives the lifting straight rod 18 to slide along the length direction of the lifting sleeve 14, the lifting straight rod 18 drives the wiring box 12 to slide along the length direction of the lifting sleeve 14, and therefore the lifting device 13 can adjust the height of the wiring box 12.

Referring to fig. 1 and 2, a first cavity 20 is formed in the base box 11, two sets of moving devices 21 for driving the base box 11 to move are arranged below the wiring box 12, and two sets of moving devices 21 are arranged below the wiring box 12. The moving device 21 comprises a second through hole 22 formed in the side surface of the base box 11, the second through hole 22 is formed along the width direction of the base box 11 and penetrates through the front side surface and the rear side surface of the base box 11, and the second through hole 22 is communicated with the first cavity 20. The movement device 21 also comprises a rolling bearing 23, a stabilizing rod 24 and a orienting wheel 25. One rolling bearing 23 is arranged on the front side and the rear side of the base box 11 through the second through hole 22, and the outer ring of the rolling bearing 23 is fixed on the side of the base box 11. The stabilizing straight rod 24 penetrates through the second through hole 22 and is arranged inside the base box 11. The end part of the stabilizing straight rod 24 penetrates through the inner side of the rolling bearing 23, and the peripheral side of the stabilizing straight rod 24 is fixedly connected with the inner ring of the rolling bearing 23. Both ends of the stabilizing straight rod 24 are positioned outside the base box 11, and both ends of the stabilizing straight rod 24 are coaxially fixed with directional wheels 25.

Referring to fig. 3 and 4, a through hole four 26 is formed in the top surface of the base box 11, a first mounting bearing 27 is mounted on the base box 11 through the through hole four 26, and an outer ring of the first mounting bearing 27 is fixed to the top surface of the base box 11. The base box 11 is provided with a limiting sleeve 28 through the fourth through hole 26, the bottom end of the limiting sleeve 28 penetrates through the first mounting bearing 27, and the peripheral side of the limiting sleeve 28 is fixedly connected with the inner ring of the first mounting bearing 27. The top surfaces of the inner side and the outer side of the base box 11 are respectively abutted with a first limiting ring 29, the bottom end of the limiting sleeve 28 penetrates through the first limiting rings 29, and the first limiting rings 29 are fixed on the peripheral side of the limiting sleeve 28, so that the limiting sleeve 28 is rotatably mounted on the base box 11. The side wall in the base box 11 is fixed with a driving box 30, a cavity II 31 is arranged in the driving box 30, a through hole III 32 penetrating through the left side surface and the right side surface of the driving box 30 is arranged in the width direction of the driving box 30, and the through hole III 32 is communicated with the cavity II 31. One of the straight stabilizing rods 24 passes through the driving box 30 through the third through hole 32, and a first bevel gear 33 is coaxially fixed on the straight stabilizing rod 24, and the first bevel gear 33 is positioned on the inner side of the driving box 30. The top surface of the driving box 30 is provided with a fifth through hole 34, the fifth through hole 34 is communicated with the second cavity 31, the bottom end of the limiting sleeve 28 penetrates through the driving box 30 through the fifth through hole 34 and is coaxially fixed with a second bevel gear 35, and the first bevel gear 33 is meshed with the second bevel gear 35. The top end of the limiting sleeve 28 is provided with a limiting straight rod 36 in a penetrating manner, the limiting straight rod 36 is provided with a limiting groove 37 penetrating through the outer peripheral surface of the limiting straight rod 36 along the length direction of the limiting straight rod, a limiting bump 38 is fixed on the inner peripheral surface of the limiting sleeve 28, and the limiting bump 38 is located on the inner side of the limiting groove 37, so that the limiting sleeve 28 rotates along with the rotation of the limiting straight rod 36 when the limiting straight rod 36 slides along the length direction of the limiting sleeve 28.

Referring to fig. 5 and 6, a third cavity 39 is formed inside the wiring box 12, an opening is formed in the top surface of the wiring box 12, a motor 40 is fixedly connected to the bottom surface inside the wiring box 12, a driving straight rod 41 is coaxially fixed to an output shaft of the motor 40, and a first limiting roller 42 is coaxially fixed to the peripheral side of the driving straight rod 41. The bottom surface of the wiring box 12 is provided with a through hole six 43, the through hole six 43 is communicated with the cavity three 39, the wiring box 12 is provided with a mounting bearing two 44 through a through hole five 34, and the outer ring of the mounting bearing two 44 is fixed on the bottom surface of the wiring box 12. The top end of the limiting straight rod 36 penetrates through the wiring box 12 through the through hole five 34 and penetrates through the second mounting bearing 44, and the peripheral side of the limiting straight rod 36 is fixedly connected with the inner ring of the second mounting bearing 44. The top surfaces of the inner side and the outer side of the wiring box 12 are respectively abutted to a second limiting ring 45, the bottom end of the second limiting rod 36 penetrates through the second limiting rings 45, and the second limiting rings 45 are fixed on the periphery of the second limiting rod 36, so that the second limiting rod 36 is rotatably mounted on the wiring box 12. The top end of the limiting straight rod 36 is coaxially fixed with a limiting roller II 46, and a limiting belt 47 is sleeved on the outer peripheral surfaces of the limiting roller I42 and the limiting roller II 46. The driving motor 40 rotates, the motor 40 drives the driving straight rod 41 to rotate, the driving straight rod 41 drives the first limiting roller 42 to rotate, the first limiting roller 42 drives the second limiting roller 46 to rotate through the limiting belt 47, and the second limiting roller 46 drives the straight limiting rod 36 to rotate.

Referring to fig. 5 and 6, a wiring through groove 48 is formed in the bottom surface of the wiring box 12, the wiring through groove 48 has a through groove structure with a long cross section along the wiring box 12, and the wiring through groove 48 is communicated with the cavity iii 39. The wiring box 12 is internally provided with a sliding block 49 in a sliding manner, the sliding block 49 is provided with seven through holes 50 penetrating through the front side and the rear side of the sliding block 49, the seven through holes 50 are provided with two sliding rail straight rods 86, the sliding block 49 penetrates through the seven through holes 50, and the end parts of the sliding rail straight rods 86 are fixedly connected to the inner side of the wiring box 12, so that the sliding block 49 slides along the length direction of the sliding rail straight rods 86. A wiring straight rod 51 is vertically fixed on the bottom surface of the sliding block 49, the bottom end of the wiring straight rod 51 passes through the wiring box 12 through the wiring through groove 48, and the bottom end of the wiring straight rod 51 is positioned outside the wiring box 12. A sliding straight rod 52 is fixed on the side surface of the sliding block 49, and a sliding through groove 53 is formed in the top surface of the sliding straight rod 52 along the length direction of the sliding straight rod. The top end of the motor 40 is vertically fixed with a rotating straight rod 54, the end part of the rotating straight rod 54 far away from the motor 40 is vertically fixed with a rotating cylinder 55, the top end of the rotating cylinder 55 penetrates through the rotating straight rod 54 through a sliding circular groove and is fixed with a limiting circular plate 56, and the limiting circular plate 56 is abutted against the top surface of the rotating straight rod 54. The driving motor 40 rotates, the motor 40 drives the rotating straight rod 54 to rotate, the rotating straight rod 54 drives the sliding straight rod 52 to move, the sliding straight rod 52 drives the sliding block 49 to slide along the length direction of the sliding rail straight rod 86, and the sliding block 49 drives the wiring straight rod 51 to reciprocate along the width direction of the wiring box 12.

Referring to fig. 6 and 7, a first driving roller 57 is coaxially fixed on the peripheral side of the straight driving rod 41. The inside bottom surface of wiring case 12 has been seted up drive circular slot 58, and wiring case 12 installs installation bearing three 59 through drive circular slot 58, and the installation bearing three 59 outer lane is fixed in drive circular slot 58 inside wall, and the coaxial connection straight-bar 60 that is fixed with of installation bearing three 59 inner circle to this realizes connecting straight-bar 60 and rotates the bottom surface of installing in wiring case 12. A second driving roller 61 is coaxially fixed on the periphery of the straight connecting rod 60, and a driving belt 62 is sleeved on the outer peripheral surfaces of the first driving roller 57 and the second driving roller 61.

Referring to fig. 6 and 8, a supporting straight plate 64 is fixedly connected to the bottom surface inside the wiring box 12, a straight through hole eight 65 penetrating through the front side and the rear side of the supporting straight plate 64 is formed in the supporting straight plate 64, an active straight rod 66 penetrates through the straight through hole eight 65 through the supporting straight plate 64, a limiting circular ring three 67 is abutted to the front side and the rear side of the supporting straight plate 64, and the two limiting circular rings three 67 are coaxially fixed on the periphery of the active straight rod 66, so that the active straight rod 66 is rotatably mounted on the supporting straight plate 64. A worm wheel 68 is coaxially fixed at the end part of the driving straight rod 66 close to the connecting straight rod 60, a worm 63 is coaxially fixed at the top end of the connecting straight rod 60, the worm wheel 68 is meshed with the worm 63, and a wiring ring 69 is coaxially fixed at the end part of the driving straight rod 66 far away from the connecting straight rod 60. The driving motor 40 rotates, the first motor 40 drives the first roller 57 to rotate, the first driving roller 57 drives the second driving roller 61 to rotate through the driving belt 62, the second driving roller 61 drives the connecting straight rod 60 to rotate, the connecting straight rod 60 drives the worm 63 to rotate, the worm 63 drives the worm wheel 68 to rotate, the worm wheel 68 drives the wiring ring 69 to rotate, and therefore the motor 40 drives the wiring ring 69 to rotate.

Referring to fig. 8, a locking straight plate 70 is fixed on the side surface inside the wiring box 12, a through square groove 71 is formed in the top surface of the locking straight plate 70, and the through square groove 71 is a through groove structure with a rectangular cross section. The locking straight plate 70 is provided with a locking straight rod 72 in a penetrating manner through the straight through square groove 71, and the locking straight rod 72 is of a rod-shaped structure in a cuboid shape, so that the locking straight rod 72 slides along the vertical direction, and meanwhile, the locking straight rod 72 is not easy to rotate relative to the locking straight plate 70. The periphery of the top of the locking straight rod 72 is vertically fixed with a driven straight rod 73, the end part of the driven straight rod 73 far away from the locking straight rod 72 is provided with a wire fixing circular ring 74 in a penetrating manner, the front side and the rear side of the wire fixing circular ring 74 are respectively abutted with a four limiting circular ring 75, and the four limiting circular rings 75 are coaxially fixed on the periphery of the locking straight rod 72, so that the wire fixing circular ring 74 is rotatably mounted on the locking straight rod 72. The wire fixing ring 74 is located right above the wire distribution ring 69, the wire distribution ring 69 and the wire fixing ring 74 are both provided with a semicircular through groove 76 penetrating through the outer peripheral surface of the wire distribution ring 69 along the axis of the wire distribution ring 69 as the center of a circle in the circumferential direction, and the semicircular through groove 76 is of a through groove structure with a semicircular longitudinal section. The bottom surface of the locking straight plate 70 is fixedly connected with a locking spring 77, the bottom end of the locking straight rod 72 penetrates through the locking spring 77 and is fixedly connected with a locking circular plate 78, and the locking spring 77 is fixedly connected with the top surface of the locking circular plate 78. The top surface of the locking straight plate 70 is fixedly connected with a microswitch 79, the microswitch 79 is electrically connected with the motor 40, the circumferential side of the locking straight rod 72 is fixedly connected with a pressing lug 80, and the pressing lug 80 is positioned right above the microswitch 79.

Referring to fig. 6 and 8, a placing straight plate 81 is fixed on the outer side of the wiring box 12, a placing round bar 82 is vertically fixed on the top surface of the placing straight plate 81, a placing through groove 83 is formed in the side of the wiring box 12 close to the placing straight plate 81, and the temperature sensing cable is arranged around the placing round bar 82 through the placing straight plate 81. The end of the temperature sensing cable penetrates through the wiring box 12 through the placing through groove 83, then the temperature sensing cable penetrates between the wiring ring 69 and the wire fixing ring 74, the driving motor 40 rotates, the motor 40 drives the wiring ring 69 to rotate, and the wiring ring 69 drives the temperature sensing cable to move. Nine 87 through holes are seted up to wiring case 12 bottom surface, and wiring case 12 wears to be equipped with spacing pipe 85 through nine 87 through holes, and the straight board 88 is injectd to the inside side fixedly connected with of wiring case 12, and just 85 one ends of spacing pipe are fixed in injects the straight board 88 tip, and the other end of spacing pipe 85 is fixed in wiring straight-bar 51 bottom.

The implementation principle of the temperature sensing cable laying equipment and the method thereof in the embodiment of the application is as follows: firstly, the equipment is moved to a designated position, the air inflation terminal 17 inflates the lifting air bag 15 through the through air pipe 16, the lifting air bag 15 drives the lifting straight rod 18 to slide along the length direction of the lifting sleeve 14, the lifting straight rod 18 drives the wiring box 12 to slide along the length direction of the lifting sleeve 14, and therefore the wiring box 12 is adjusted to be at a proper height. The end of the temperature sensing cable is inserted into the wiring box 12 through the placing through groove 83, the temperature sensing cable is inserted between the wiring ring 69 and the wire fixing ring 74, and the temperature sensing cable is inserted into the inner side of the limiting circular tube 85 until penetrating out of the wiring box 12 through the limiting circular tube 85. The driving motor 40 rotates, the motor 40 drives the wiring ring 69 to rotate, the wiring ring 69 drives the temperature sensing cable to move, and the temperature sensing cable penetrates out of the wiring box 12 through the limiting circular tube 85. Meanwhile, the motor 40 drives the rotating straight rod 54 to rotate, the rotating straight rod 54 drives the sliding straight rod 52 to move, the sliding straight rod 52 drives the sliding block 49 to slide along the length direction of the sliding rail straight rod 86, the sliding block 49 drives the wiring straight rod 51 to reciprocate along the width direction of the wiring box 12, and the wiring straight rod 51 drives the sliding temperature sensing cable to reciprocate, so that the temperature sensing cable is spread to be in a positive sine wave S shape. Meanwhile, the motor 40 drives the driving straight rod 41 to rotate, the driving straight rod 41 drives the first limiting roller 42 to rotate, the first limiting roller 42 drives the second limiting roller 46 to rotate through the limiting belt 47, and the second limiting roller 46 drives the limiting straight rod 36 to rotate, so that the motor 40 drives the directional wheel 25 to rotate. When the temperature sensing cable is used up, the temperature sensing cable is not arranged between the wiring ring 69 and the wire fixing ring 74, the locking straight rod 72 slides along the length direction of the locking straight rod through the locking spring 77 until the pressing bump 80 presses the micro switch 79, the micro switch 79 controls the motor 40 to be turned off, and at the moment, the device stops operating.

A temperature sensing cable laying method comprises the following steps:

s1, moving the equipment to a designated position, inflating the lifting air bag 15 through the through air pipe 16 by the inflating terminal 17, driving the lifting straight rod 18 to slide along the length direction of the lifting sleeve 14 by the lifting air bag 15, and driving the wiring box 12 to slide along the length direction of the lifting sleeve 14 by the lifting straight rod 18, so as to adjust the wiring box 12 to a proper height;

s2, the end of the temperature sensing cable is arranged inside the wiring box 12 in a penetrating way through the placing through groove 83, the temperature sensing cable is arranged between the wiring ring 69 and the wire fixing ring 74 in a penetrating way, and the temperature sensing cable is arranged inside the limiting circular tube 85 in a penetrating way until penetrating out of the wiring box 12 through the limiting circular tube 85;

s3, starting the motor 40, driving the wiring ring 69 to rotate by the motor 40, driving the temperature sensing cable to move by the wiring ring 69, and enabling the temperature sensing cable to penetrate out of the wiring box 12 through the limiting circular tube 85;

s4, the motor 40 drives the rotating straight rod 54 to rotate, the rotating straight rod 54 drives the sliding straight rod 52 to move, the sliding straight rod 52 drives the sliding block 49 to slide along the length direction of the sliding rail straight rod 86, the sliding block 49 drives the wiring straight rod 51 to reciprocate along the width direction of the wiring box 12, and the wiring straight rod 51 drives the sliding temperature sensing cable to reciprocate, so that the temperature sensing cable is spread to be in a positive sine wave S shape;

s5, the motor 40 drives the driving straight rod 41 to rotate, the driving straight rod 41 drives the first limiting roller 42 to rotate, the first limiting roller 42 drives the second limiting roller 46 to rotate through the limiting belt 47, and the second limiting roller 46 drives the limiting straight rod 36 to rotate, so that the motor 40 drives the directional wheel 25 to rotate;

s6, when the temperature sensing cable is used up, the temperature sensing cable is not arranged between the wiring ring 69 and the wire fixing ring 74, and the locking straight rod 72 slides along the length direction of the locking straight rod through the locking spring 77 until the pressing bump 80 presses the micro switch 79;

s7, the micro switch 79 controls the motor 40 to turn off, at which time the apparatus stops operating.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (9)

1. The utility model provides a temperature sensing cable laying equipment, includes base case (11), install in wiring case (12) of base case (11) upside and set up in wiring case (12) downside is used for the drive the running gear that base case (11) removed, its characterized in that: a reciprocating mechanism for controlling the temperature sensing cable to slide out in a reciprocating way is arranged in the wiring box (12), the reciprocating mechanism comprises a motor (40) fixed on the inner bottom surface of the wiring box (12), a sliding block (49) arranged in the wiring box (12) in a sliding way, a wiring straight rod (51) fixed on the bottom surface of the sliding block (49) and used for clamping a temperature sensing cable, and a sliding straight rod (25) fixed on the side surface of the sliding block (49), the sliding straight rod (52) is provided with a sliding through groove (53) along the length direction thereof, a rotating straight rod (54) is fixed at the top end of the motor (40), a rotating cylinder (55) is fixed at the end part of the rotating straight rod (54) far away from the motor (40), the top end of the rotating cylinder (55) penetrates through the rotating straight rod (54) through the sliding through groove (53) and is fixed with a limiting circular plate (56).

2. A temperature-sensitive cabling apparatus according to claim 1, wherein: the wiring box (12) is internally provided with a traction mechanism for driving the temperature sensing cable to slide out, the traction mechanism comprises an active straight rod (66) rotatably mounted inside the wiring box (12), a wiring ring (69) fixed at the end part of the active straight rod (66) and used for driving the temperature sensing cable to slide out, and a pressing mechanism rotatably mounted on the inner bottom surface of the wiring box (12) and used for enabling the motor (40) and the active straight rod (66) to synchronously rotate and connect the straight rod (60), and the wiring box (12) is internally provided with a pressing mechanism used for enabling the temperature sensing cable to be tightly attached to the outer peripheral surface of the wiring ring (69).

3. A temperature-sensitive cabling apparatus according to claim 2, wherein: the pressing mechanism comprises a locking straight plate (70) fixed on the inner side wall of the wiring box (12), a locking straight rod (72) arranged on the locking straight plate (70) in a sliding mode, a wire fixing circular ring (74) rotatably installed at the end part of the locking straight rod (72), a locking spring (77) fixed on the bottom surface of the locking straight plate (70) and a locking circular plate (78) fixed at the bottom end of the locking straight rod (72), and a control mechanism used for controlling the opening and closing of the motor (40) is arranged on the top surface of the locking straight plate (70).

4. A temperature-sensitive cabling apparatus according to claim 3, wherein: the control mechanism comprises a microswitch (79) fixed on the top surface of the locking straight plate (70) and a pressing bump (80) fixed on the peripheral side of the locking straight rod (72), and the microswitch (79) is electrically connected with the motor (40).

5. A temperature-sensitive cabling apparatus according to claim 1, wherein: base case (11) top surface is provided with and is used for adjusting wiring case (12) height's elevating system, elevating system is including being fixed in lifting sleeve (14) of base case (11) top surface, being fixed in lifting gasbag (15) of bottom surface in lifting sleeve (14), being fixed in wiring case (12) bottom surface lift straight-bar (18) and being fixed in base case (11) top surface is used for supplying lift gasbag (15) inflatable terminal (17), lift straight-bar (18) slide set up in lifting sleeve (14) are inboard.

6. The temperature-sensitive cabling apparatus and method according to claim 1, wherein: the travelling mechanism comprises a stabilizing straight rod (24) rotatably arranged on the peripheral side of the bottom of the base box (11), directional wheels (25) fixed at two ends of the stabilizing straight rod (24), a limiting sleeve (28) rotatably arranged on the top surface of the base box (11), a limiting straight rod (36) rotatably arranged on the bottom surface of the wiring box (12) and used for enabling the limiting sleeve (28) and the motor (40) to synchronously rotate, a first bevel gear (33) coaxially fixed on the peripheral side of the stabilizing straight rod (24) and a second bevel gear (35) coaxially fixed at the bottom end of the limiting sleeve (28), the first bevel gear (33) is meshed with the second bevel gear (35), the inner circumferential surface of the limiting sleeve (28) is provided with a limiting mechanism used for enabling the limiting straight rod (36) to rotate along with the rotation of the limiting sleeve (28).

7. A temperature-sensitive cabling apparatus according to claim 6, wherein: the limiting straight rod (36) is provided with a limiting groove (37) along the length direction, the limiting mechanism comprises a limiting bump (38) fixed on the inner circumferential surface of the limiting sleeve (28), and the limiting bump (38) is located on the inner side of the limiting groove (37).

8. A temperature-sensitive cabling apparatus according to claim 1, wherein: spacing pipe (85) are worn to be equipped with by wiring case (12) bottom surface, spacing pipe (85) one end is fixed in inside wiring case (12), spacing pipe (85) other end is fixed in wiring straight-bar (51) bottom.

9. A temperature sensing cable laying method is characterized by comprising the following steps:

s1: placing the device to a designated location;

s2: the air inflation terminal (17) inflates the lifting air bag (15), and the lifting air bag (15) drives the lifting straight rod (18) to slide along the length direction of the lifting sleeve (14), so that the lifting straight rod (18) can adjust the wiring box (12) to a proper height;

s3: the temperature sensing cable is arranged between the wiring ring (69) and the wire fixing ring (74) in a penetrating mode, then the motor (40) is started, the motor (40) drives the wiring ring (69) to rotate, the wiring ring (69) drives the temperature sensing cable to move, and the temperature sensing cable penetrates out of the wiring box (12) through the limiting circular tube (85);

s4: the motor (40) drives the directional wheel (25) to rotate;

s5: the motor (40) drives the wiring straight rod (51) to reciprocate, and the wiring straight rod (51) drives the slipped temperature sensing cable to reciprocate;

s6: when the temperature sensing cable is used up, the temperature sensing cable is not arranged between the wiring circular ring (69) and the wire fixing circular ring (74), and the locking straight rod (72) slides along the length direction of the locking straight rod through the locking spring (77) until the pressing convex block (80) presses the microswitch (79);

s7: the microswitch (79) controls the motor (40) to be turned off, and the equipment stops running.

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