CN112849477A

CN112849477A - Portable cable bundling device for open fire-forbidden environment

Info

Publication number: CN112849477A
Application number: CN202110218333.1A
Authority: CN
Inventors: 任彦茹
Original assignee: Shenzhen Baishunchuang Electronic Products Co ltd
Current assignee: Shenzhen Baishunchuang Electronic Products Co ltd
Priority date: 2021-02-26
Filing date: 2021-02-26
Publication date: 2021-05-28

Abstract

The invention discloses portable cable bundling equipment for an open fire forbidden environment, which comprises bundling equipment, an electric expansion plate, a conveying assembly and a control assembly, wherein the electric expansion plate is arranged on the left outer wall of the bundling equipment and is fixedly provided with a winding assembly for winding and fixing a cable, the electric expansion plate is used for conveying the bundling assembly for packaging the cable, the conveying assembly is arranged in the bundling equipment and is used for conveying the wound cable, and the control assembly is arranged in the bundling equipment and is used for controlling; the technical scheme provides the portable cable bundling equipment which is used for forbidding open fire environment and has the advantages that the cable breaking and repairing efficiency is improved by workers, and the use strength of the cable is improved; adopt electronic telescoping device, will reduce the volume of device for device convenient to carry has avoided carrying a large amount of maintenance tools, has reduced the intensity of labour that the staff repaired, has also improved staff's work efficiency.

Description

Portable cable bundling device for open fire-forbidden environment

Technical Field

The invention relates to the field of cables, in particular to a portable cable bundling device for an open fire forbidden environment.

Background

The cable is an electric energy or signal transmission device, usually comprises several or several groups of wires, for the processing of cable skin breaking, at present, the staff utilizes insulating tape and heat shrinkable tube to handle, but can only use under the environment that does not adopt to use for the heat shrinkable tube to have no hazardous gas usually, for the maintenance of cable skin breaking in the mine opening usually adopt the winding of traditional insulating tape, but for the winding department of sticky tape sometimes because this department has produced corresponding damage, thus make the cable of this department only can be regarded as emergency measures under the effect of sticky tape, can't guarantee the intensity of cable skin breaking department, thus cause the phenomenon of secondary skin breaking, and carry out the processing of cable skin breaking manually, its work efficiency is low.

Therefore, in order to solve the above problems, a novel portable cable bundling apparatus for prohibiting an open fire environment is needed, which can improve the strength of the cable at the cable broken position and also improve the work efficiency of the staff for maintaining the cable.

Disclosure of Invention

In view of the above, the present invention provides a portable cable bundling apparatus for use in an open fire-forbidden environment, which can improve the strength of a cable at a cable-breaking position and improve the working efficiency of a worker for cable maintenance.

The utility model provides a portable cable tie-up equipment for forbidding open fire environment, includes bind the equipment, set up in bind the equipment left side outer wall be fixed with carry out the winding subassembly that twines fixedly with the cable and carry out the electronic expansion plate that the subassembly carried out binding that the cable packed, set up in bind the conveying subassembly that the cable that will twine in the equipment carries, set up in bind still be equipped with the control assembly who carries out the control action in the equipment, the winding subassembly includes cuts out the shearing component that the iron wire was tailor, carries out the assembly of acting as go-between that elongates with the iron wire, the shearing component with the assembly of acting as go-between passes through the control assembly is connected, the winding subassembly with bind the subassembly and pass through the control assembly and connect.

Further, the shearing assembly comprises a wire placing cavity which is arranged in the binding device, an iron wire cover which closes the iron wire placing cavity and is connected with the binding device through a hinge is arranged in the iron wire placing cavity, the front and rear cavity walls of the iron wire placing cavity are also fixed with iron wire rotating shafts, the iron wire rotating shafts are sleeved with iron wires for fixing the broken cables, an extension cavity is also arranged in the electric extension plate, an iron wire conveying channel is arranged on the right inner wall of the extension cavity, the other end of the iron wire conveying channel is connected with the left inner wall of the iron wire placing cavity, a shearing cavity with a downward opening is arranged in the upper cavity wall of the iron wire conveying channel, a shearing cavity with an upward opening is also arranged in the lower cavity wall of the iron wire conveying channel, the cutting cavity is internally provided with a cutting block, the upper end face of the cutting block is fixedly provided with an extension spring of which the other end is fixed with the upper inner wall of the cutting cavity, and the upper end of the cutting block is also fixedly provided with a hemp rope.

Further, the stay wire assembly comprises a clamping plate which is positioned in the electric expansion plate and enables cables to be bound more closely, a cavity is formed between the electric expansion plate and the binding equipment, an expansion spring with the other end fixed on the inner wall of the expansion cavity is fixed on the end surface of the clamping plate far away from the cavity, a thick rope is fixed on the end surface of the clamping plate far away from the cavity, a sliding groove is further arranged in the clamping plate, the clamping plate slides close to the end surface of the cavity, the other part of the clamping plate is positioned in the sliding groove, a permanent magnet which absorbs iron wires is fixed on the right end surface of the displacement block, a plastic rope is fixed on the left end surface of the displacement block positioned in the sliding groove, an elastic spring with the other end fixed on the inner wall of the sliding groove is fixed on the right end surface of the displacement block positioned in the sliding groove, and an elastic rope is fixed on the right end surface of the displacement, the elastic rope is an elastic rope.

Furthermore, the binding assembly comprises an adhesive tape placing cavity which is positioned in the binding device and is also provided with a cover which is connected with the binding device in a hinged mode, a driving cavity is also arranged in the adhesive tape placing cavity rear cavity wall, a motor which provides power is further fixed on the driving cavity rear cavity wall, the motor is in power connection with a power shaft, and an adhesive tape which binds a cable with broken skin is fixed on the power shaft which is positioned in the adhesive tape placing cavity.

Further, the conveying assembly comprises a rotating shaft which is positioned on the upper cavity wall and the lower cavity wall of the driving cavity and is rotationally connected with the upper cavity wall and the lower cavity wall, a worm wheel meshed with the power shaft is fixed on the rotating shaft, two expansion plates for performing expansion control distance are fixed on the end surface of the binding equipment close to the cavity, a compression cavity is arranged in the expansion plate, a compression spring is arranged in the compression cavity, a string is also fixed in the compression cavity, a fixed compression bar for pressing the adhesive tape on the cable is fixed on the left upper end surface of the upper expansion plate, so that the adhesive tape can tightly bind the cable, a wheel cavity with a downward opening is also arranged in the expansion plate at the upper side, the upper inner wall of the wheel cavity is rotatably provided with a wheel shaft the other end of which is rotatably connected with the upper end of the expansion plate at the lower side, and wheels for conveying the cables are fixed on the wheel shafts, and the wheel cavities are connected with the rotating shafts through belts.

Further, the control assembly comprises a button cavity which is arranged in the binding equipment, a button block is arranged in the button cavity, the lower end surface of the button block is fixedly connected with a button reset spring of which the other end is fixedly connected with the lower cavity wall of the button cavity, the lower end surface of the button block is also fixedly connected with the other end of the thick rope and the other end of the thin rope, a control cavity is also arranged in the binding equipment, the lower cavity wall of the control cavity is fixedly provided with a control motor, the control motor is in power connection with a driving shaft, the driving shaft is fixedly provided with a ratchet type rope pulley, the driving shaft is in friction connection with a rope winding pulley, the other end of the hemp rope is wound on the rope winding pulley, the other end of the plastic rope is wound on the ratchet type rope pulley, a clamping block cavity which is communicated with the control cavity is also arranged in the left cavity wall of the control cavity, and a clamping block of, the left end face of the clamping block is fixedly provided with a clamping block displacement spring, the other end of the clamping block displacement spring is fixedly connected with the inner wall of the clamping block cavity, the left end face of the clamping block is fixedly connected with the other end of the elastic rope, the binding device is internally provided with a fixing cavity, the other end of the fixing cavity is fixedly connected with a fixing shaft which is arranged at the rear end of the binding device and communicated with the outside, and the fixing shaft which is arranged outside is connected with a threaded sleeve for limiting the total binding length through threads.

The invention has the beneficial effects that: the technical scheme provides the portable cable bundling equipment which is used for forbidding open fire environment and has the advantages that the cable breaking and repairing efficiency is improved by workers, and the use strength of the cable is improved; adopt electronic telescoping device, will reduce the volume of device for device convenient to carry has avoided carrying a large amount of repair tools, has reduced the intensity of labour that the staff repaired, has also improved staff's work efficiency, also utilizes the iron wire to carry out certain reinforcement with damaged department simultaneously, makes the life of cable carry out certain improvement, and indirect reduction staff's intensity of labour has reduced certain loss of property.

Drawings

Fig. 1 is a schematic view of a full-section front view of an initial position of a strapping device.

FIG. 2 is a front elevational view, in full section, of the strapping device of FIG. 1 in an operational state;

FIG. 3 is a schematic view of the structure A-A of FIG. 2;

FIG. 4 is a schematic view of the structure B-B in FIG. 3;

FIG. 5 is an enlarged view of the structure at C in FIG. 2;

fig. 6 is a schematic view of the ratchet type rope pulley in fig. 1;

FIG. 7 is a schematic view of a partially sectioned three-dimensional structure of the electric expansion plate shown in FIG. 1;

fig. 8 is a schematic structural diagram of a view angle D in fig. 1.

Detailed Description

The invention will now be described in detail with reference to fig. 1-8, wherein for ease of description the orientations described below are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The portable cable bundling device for forbidding open fire environment, which is described in conjunction with fig. 1-8, includes a bundling device 10, an electric expansion plate 26 which is arranged on the left outer wall of the bundling device 10 and has a winding assembly 66 for winding and fixing a cable and a bundling assembly 67 for packaging the cable, a conveying assembly 68 which is arranged in the bundling device 10 and conveys the wound cable, and a control assembly 71 which is arranged in the bundling device 10 and has a control function, the winding assembly 66 includes a cutting assembly 69 for cutting a wire and a pulling assembly 70 for lengthening the wire, the cutting assembly 69 is connected with the pulling assembly 70 through the control assembly 71, and the winding assembly 66 and the bundling assembly 67 are connected through the control assembly 71; the technical scheme provides the portable cable bundling equipment which is used for forbidding open fire environment and has the advantages that the cable breaking and repairing efficiency is improved by workers, and the use strength of the cable is improved; adopt electronic telescoping device, will reduce the volume of device for device convenient to carry has avoided carrying a large amount of repair tools, has reduced the intensity of labour that the staff repaired, has also improved staff's work efficiency, also utilizes the iron wire to carry out certain reinforcement with damaged department simultaneously, makes the life of cable carry out certain improvement, and indirect reduction staff's intensity of labour has reduced certain loss of property.

In this embodiment, the shearing assembly 69 includes a wire placing cavity 23 disposed in the binding device 10, a wire cover 22 hinged to the binding device 10 and closing the wire placing cavity 23 is disposed in the wire placing cavity 23, wire rotating shafts 24 are further fixed to front and rear cavity walls of the wire placing cavity 23, a wire 25 for fixing a broken cable is sleeved on the wire rotating shaft 24, a telescopic cavity 32 is further disposed in the electric telescopic plate 26, a wire conveying channel 57 having the other end connected to a left inner wall of the wire placing cavity 23 is disposed on a right inner wall of the telescopic cavity 32, a shearing cavity 56 having a downward opening is disposed in an upper cavity wall of the wire conveying channel 57, a shearing cavity 59 having an upward opening is further disposed on a lower cavity wall of the wire conveying channel 57, a shearing block 58 is disposed in the shearing cavity 59, a tension spring 60 having the other end fixed to an upper inner wall of the shearing cavity 59 is fixed to an upper end face of the shearing block 58, the upper end of the shear block 58 is further fixed with a hemp rope 30, when the shear block 58 is pulled by the hemp rope 30, the shear block 58 moves upwards to the shear cavity 56, and the iron wire 25 in the iron wire conveying channel 57 is sheared at the moment, so that the iron wire 25 is not output unnecessarily, and materials are saved.

In this embodiment, the wire pulling assembly 70 includes a clamping plate 61 disposed in the electric expansion plate 26 for binding cables more closely, a cavity 33 is further formed between the electric expansion plate 26 and the binding device 10, an expansion spring 31 having the other end fixed to the inner wall of the expansion cavity 32 is fixed to the end surface of the clamping plate 61 away from the cavity 33, a thick rope 15 is further fixed to the end surface of the clamping plate 61 away from the cavity 33, a sliding groove 65 is further disposed in the clamping plate 61, the clamping plate 61 slides close to the end surface of the cavity 33, and the other part of the clamping plate 61 is located in the sliding groove 65, a permanent magnet 55 for absorbing iron wires is fixed to the right end surface of the displacement block 54, a plastic rope 64 is fixed to the left end surface of the displacement block 54 located in the sliding groove 65, an elastic spring 62 having the other end fixed to the inner wall of the sliding groove 65 is fixed to the right end surface of the displacement block 54 located in the sliding groove 65, an elastic rope 28 is further fixed to the right end face of the displacement block 54 located in the sliding groove 65, the elastic rope 28 is an elastic rope, the iron wire 25 firstly penetrates through the iron wire conveying channel 57, so that the iron wire 25 is attracted by the permanent magnet 55, when the displacement block 54 is pulled by the plastic rope 64, the displacement block 54 moves along the direction of the sliding groove 65, and when the displacement block 54 is at the final end of the sliding groove 65 along the direction of the sliding groove 65, the elastic rope 28 is tensioned, so that the iron wire 25 can completely fix the damaged part of the cable, the strength of the cable is guaranteed, and the service life of the cable is prolonged.

In this embodiment, the binding assembly 67 includes a tape placing cavity 42 that is located inside the binding device 10, a cover 41 that is connected to the binding device 10 through a hinge is provided inside the tape placing cavity 42, a driving cavity 39 is also provided inside a rear cavity wall of the tape placing cavity 42, a motor 38 that provides power is further fixed on the rear cavity wall of the driving cavity 39, the motor 38 is in power connection with a power shaft 50, the power shaft 50 that is located inside the tape placing cavity 42 is fixed with a tape 40 that binds a broken cable, the driving cavity 39 is started, at this time, the power shaft 50 is driven to rotate, and then the tape wheel is driven to rotate, and then the tape 40 on the tape wheel is conveyed, so that the phenomenon of electric leakage of the cable is prevented, and meanwhile, the phenomenon of short circuit of the cable is also prevented, and personal safety of a worker is indirectly ensured.

In this embodiment, the conveying assembly 68 includes a rotating shaft 52 rotatably connected to the upper and lower cavity walls of the driving cavity 39, a worm wheel 51 engaged with the power shaft 50 is fixed to the rotating shaft 52, two expansion plates 44 for controlling the distance of expansion and contraction are fixed to the end surface of the binding device 10 close to the cavity 33, a compression cavity 49 is provided in the expansion plate 44, a compression spring 53 is provided in the compression cavity 49, a string 16 is further fixed in the compression cavity 49, a fixing press rod 43 for pressing the adhesive tape 40 against a cable is fixed to the upper left end surface of the upper expansion plate 44, so that the adhesive tape 40 can tightly bind the cable, a wheel cavity 47 with a downward opening is further provided in the upper expansion plate 44, a wheel axle 45 rotatably connected to the upper end of the lower expansion plate 44 at the other end is rotated to the upper inner wall of the wheel cavity 47, and a wheel 46 for conveying the cable is fixed to the wheel axle 45, the wheel cavity 47 is connected with the rotating shaft 52 through a belt 48, when the power shaft 50 rotates, the worm wheel 51 rotates, the rotating shaft 52 is driven to rotate, the wheel shaft 45 is driven to rotate, the wheel 46 is driven to rotate, the cable is conveyed, the continuity of cable binding is guaranteed, the cable can be smoothly bound, and the working strength of workers is reduced.

In this embodiment, the control assembly 71 includes a button cavity 13 disposed in the binding apparatus 10, a button block 14 disposed in the button cavity 13, a button return spring 17 fixedly connected to a lower end surface of the button block 14 and having another end fixedly connected to a lower cavity wall of the button cavity 13, a lower end surface of the button block 14 further fixedly connected to another end of the thick rope 15 and another end of the thin rope 16, a control cavity 20 disposed in the binding apparatus 10, a control motor 21 fixed to a lower cavity wall of the control cavity 20, a driving shaft 18 connected to the control motor 21, a ratchet-type rope pulley 19 fixed to the driving shaft 18, a rope winding pulley 11 connected to the driving shaft 18 through friction, another end of the hemp rope 30 wound on the rope winding pulley 11, another end of the plastic rope 64 wound on the ratchet-type rope pulley 19, and a clamping block cavity 29 communicated with the control cavity 20 disposed in a left cavity wall of the control cavity 20, a clamping block 35 with the other end located in the control cavity 20 is arranged in the clamping block cavity 29, a clamping block displacement spring 27 with the other end fixedly connected with the inner wall of the clamping block cavity 29 is further fixed on the left end face of the clamping block 35, the other end of the elastic rope 28 is further fixedly connected on the left end face of the clamping block 35, a fixing cavity 34 is further arranged in the binding device 10, a fixing shaft 36 with the other end located at the rear end of the binding device 10 and communicated with the outside is fixedly connected in the fixing cavity 34, the fixing shaft 36 located outside is connected with a threaded sleeve 37 for limiting the total binding length through threads, firstly, a worker pushes the button block 14, at the moment, loosens the thick rope 15 and the thin rope 16, at the moment, moves the clamping plate 61 to the periphery of the cable, meanwhile, the wheel 46 is attached to the outer skin of the cable to prepare for later conveying, and the control motor 21 is, at this moment, the driving shaft 18 rotates to further drive the ratchet wheel type rope wheel 19 to rotate, at this moment, the plastic rope 64 is pulled, when the displacement block 54 moves to the final end of the sliding groove 65, at this moment, the elastic rope 28 is pulled, at this moment, the limit of the rope winding wheel 11 is removed through the fixture block 35, at this moment, the rope winding wheel 11 rotates, at this moment, the hemp rope 30 is pulled, further the iron wire 25 is cut off, the binding of the iron wire is completed, the binding tightness during the binding of the cable is ensured, the binding quality is ensured, the labor intensity of workers is reduced, the labor efficiency of the workers is improved, and the whole binding process is simple.

Claims

1. A portable cable tie apparatus for inhibiting open flame environments, comprising a tie apparatus, characterized in that: the binding device comprises a binding device, a winding assembly and a control assembly, wherein the winding assembly is fixedly arranged on the left outer wall of the binding device and is used for winding and fixing a cable, the binding assembly is used for conveying the cable, the electric expansion plate is used for conveying the cable, the conveying assembly is arranged in the binding device and is used for conveying the wound cable, the control assembly is also arranged in the binding device and is used for controlling the winding assembly, the winding assembly comprises a shearing assembly and a pull wire assembly, the shearing assembly is used for shearing the iron wire, the pull wire assembly is used for lengthening the iron wire, the shearing assembly is connected with the pull wire assembly through the control assembly, and the winding assembly and the binding assembly are connected through the.

2. A portable cable tie apparatus for inhibiting open flame environments according to claim 1, wherein: the shearing assembly comprises an iron wire placing cavity which is arranged in the binding equipment, an iron wire cover which closes the iron wire placing cavity and is connected with the binding equipment through hinge joint is arranged in the iron wire placing cavity, the front and rear cavity walls of the iron wire placing cavity are also fixed with iron wire rotating shafts, the iron wire rotating shafts are sleeved with iron wires for fixing the broken cables, an extension cavity is also arranged in the electric extension plate, an iron wire conveying channel is arranged on the right inner wall of the extension cavity, the other end of the iron wire conveying channel is connected with the left inner wall of the iron wire placing cavity, a shearing cavity with a downward opening is arranged in the upper cavity wall of the iron wire conveying channel, a shearing cavity with an upward opening is also arranged in the lower cavity wall of the iron wire conveying channel, the cutting cavity is internally provided with a cutting block, the upper end face of the cutting block is fixedly provided with an extension spring of which the other end is fixed with the upper inner wall of the cutting cavity, and the upper end of the cutting block is also fixedly provided with a hemp rope.

3. A portable cable tie apparatus for inhibiting open flame environments according to claim 2, wherein: the stay wire assembly comprises a clamping plate which is positioned in the electric expansion plate and is used for binding cables more closely, a cavity is formed between the electric expansion plate and the binding equipment, an expansion spring with the other end fixed with the inner wall of the expansion cavity is fixed on the end surface of the clamping plate far away from the cavity, a thick rope is fixed on the end surface of the clamping plate far away from the cavity, a sliding groove is also arranged in the clamping plate, the clamping plate slides close to the end surface of the cavity, the other part of the clamping plate is positioned in the sliding groove, a permanent magnet for absorbing iron wires is fixed on the right end surface of the displacement block, a plastic rope is fixed on the left end surface of the displacement block positioned in the sliding groove, an elastic spring with the other end fixed with the inner wall of the sliding groove is fixed on the right end surface of the displacement block positioned in the sliding groove, and an elastic rope is fixed on the right end surface of the, the elastic rope is an elastic rope.

4. A portable cable tie apparatus for inhibiting open flame environments according to claim 1, wherein: the binding assembly comprises an adhesive tape placing cavity which is positioned in the binding device and is also provided with a cover which is connected with the binding device in a hinged mode, a driving cavity is also arranged in the rear cavity wall of the adhesive tape placing cavity, a motor which provides power is further fixed on the rear cavity wall of the driving cavity, the motor is in power connection with a power shaft, and an adhesive tape which is used for binding a broken cable is fixed on the power shaft which is positioned in the adhesive tape placing cavity.

5. A portable cable tie apparatus for inhibiting open flame environments according to claim 1, wherein: the conveying component comprises a rotating shaft which is positioned on the upper cavity wall and the lower cavity wall of the driving cavity and is rotationally connected with the upper cavity wall and the lower cavity wall of the driving cavity, a worm wheel meshed with the power shaft is fixed on the rotating shaft, two expansion plates for expansion control distance are fixed on the end surface of the binding equipment close to the cavity, a compression cavity is arranged in the expansion plate, a compression spring is arranged in the compression cavity, a string is also fixed in the compression cavity, a fixed compression bar for pressing the adhesive tape on the cable is fixed on the left upper end surface of the upper expansion plate, so that the adhesive tape can tightly bind the cable, a wheel cavity with a downward opening is also arranged in the expansion plate at the upper side, the upper inner wall of the wheel cavity is rotatably provided with a wheel shaft the other end of which is rotatably connected with the upper end of the expansion plate at the lower side, and wheels for conveying the cables are fixed on the wheel shafts, and the wheel cavities are connected with the rotating shafts through belts.

6. A portable cable tie apparatus for inhibiting open flame environments according to claim 1, wherein: the control assembly comprises a button cavity which is positioned in the binding equipment, a button block is arranged in the button cavity, the lower end surface of the button block is fixedly connected with a button reset spring of which the other end is fixedly connected with the lower cavity wall of the button cavity, the lower end surface of the button block is also fixedly connected with the other end of the thick rope and the other end of the thin rope, a control cavity is also arranged in the binding equipment, the lower cavity wall of the control cavity is fixedly provided with a control motor, the control motor is in power connection with a driving shaft, the driving shaft is fixedly provided with a ratchet type rope pulley, the driving shaft is in friction connection with a rope winding pulley, the other end of the hemp rope is wound on the rope winding pulley, the other end of the plastic rope is wound on the ratchet type rope pulley, a fixture block cavity communicated with the control cavity is also arranged in the left cavity wall of the control cavity, and a fixture block of which, the left end face of the clamping block is fixedly provided with a clamping block displacement spring, the other end of the clamping block displacement spring is fixedly connected with the inner wall of the clamping block cavity, the left end face of the clamping block is fixedly connected with the other end of the elastic rope, the binding device is internally provided with a fixing cavity, the other end of the fixing cavity is fixedly connected with a fixing shaft which is arranged at the rear end of the binding device and communicated with the outside, and the fixing shaft which is arranged outside is connected with a threaded sleeve for limiting the total binding length through threads.