CN209880265U - Full-automatic adhesive tape winding machine - Google Patents

Abstract

The utility model provides a full-automatic sticky tape coiler because including moving mechanism and actuating mechanism, and actuating mechanism includes intermeshing's action wheel and follows the driving wheel, installs and has the first cable accommodation portion that holds an arbitrary one in two cables from the epaxial cable chuck of follow driving, and the sticky tape bracing piece is installed on the terminal surface of cable chuck and is located the nearby of first cable accommodation portion, and the one end of the sticky tape that cup joints on the sticky tape bracing piece is pasted on first cable. When the moving mechanism drives the driving mechanism to move along the preset direction and the driven wheel rotates, the cable chuck can move along the preset direction and rotate along the circumferential direction of the cables, so that the adhesive tape supporting rod can move along the preset direction and rotate along the circumferential direction of the two cables, and the adhesive tape is wound on the outer surface of the joint of the two cables.

Description

Full-automatic adhesive tape winding machine

Technical Field

The utility model belongs to the cable processing field, concretely relates to full-automatic sticky tape coiler.

Background

As is well known, a large cable is formed by connecting and fixing numerous small sections of cables through adhesive tapes in a cable plant, and at present, the connection and fixing work of the cables in the cable plant is still in a manual completion stage, namely, an operator manually connects and fixes the adhesive tapes to the joints of two cables connected end to end, and no related automatic equipment can replace the joint.

However, the manual work of fixing the cable connection will undoubtedly increase the labor of the operator, and because there is a certain quality requirement for the tape winding when the cable connection is fixed, the efficiency of the manual work of winding the tape is also low.

SUMMERY OF THE UTILITY MODEL

The utility model relates to a go on to above-mentioned problem, aim at provides one kind can carry out the fixed full-automatic sticky tape coiler of sticky tape winding to the junction surface of two cables of end to end.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides a full-automatic sticky tape coiler has such characteristic, include: a base; the moving mechanism is arranged on the base and comprises a horizontal driving assembly and a mounting rod assembly, and the horizontal driving assembly is used for driving the mounting rod assembly to move along a preset direction; the driving mechanism is arranged at the upper end of the mounting rod assembly and comprises a driving wheel, a driven wheel meshed with the driving wheel and a first driving motor, and the first driving motor is used for driving the driving wheel to rotate so as to drive the driven wheel to rotate; the cable chuck is arranged on the driven wheel and comprises a first cable accommodating part, and the first cable accommodating part is used for accommodating any one of the two cables and used as a first cable; the sticky tape bracing piece, install on cable chuck's terminal surface, and be located the vicinity of first cable accommodation portion, the sticky tape bracing piece is used for cup jointing the sticky tape, the one end of sticky tape is pasted on first cable, when moving mechanism drives actuating mechanism and removes and from the driving wheel rotation along the predetermined direction, cable chuck can rotate along the circumference of cable when removing along the predetermined direction, make the sticky tape bracing piece can remove and rotate along the circumference of two cables along the predetermined direction, thereby twine the sticky tape on the surface of the junction of two cables.

The utility model provides an among the full-automatic sticky tape coiler, can also have such characteristic: the horizontal driving assembly comprises a lead screw unit and a second driving motor, the lead screw unit is installed on the base and is provided with a lead screw arranged in the preset direction and a moving block movably installed on the lead screw, the moving block is installed at the lower end of the installation rod assembly, the second driving motor is installed at one end of the lead screw and is used for driving the lead screw to rotate, and when the second driving motor drives the lead screw to rotate, the moving block can move in the preset direction, so that the installation rod assembly can be driven to move in the preset direction.

The utility model provides an among the full-automatic sticky tape coiler, can also have such characteristic: wherein, the installation pole subassembly contains the installation pole body and detachably installs the fixing base in the upper end of installation pole body, actuating mechanism still contains the fixed cylinder of installing on the terminal surface from the driving wheel, fixed cylinder has the cable through-hole of packing into, the upper end of installation pole body has semicircular first recess, the fixing base has the second recess corresponding with first recess, first recess and second recess cooperate to form the fixed cylinder portion of packing into that is used for packing into fixed cylinder, second cable accommodating part has from the driving wheel, first cable accommodating part, second cable accommodating part and cable through-hole of packing into communicate formation cable accommodating channel in proper order, cable accommodating channel is used for holding first cable.

The utility model provides an among the full-automatic sticky tape coiler, can also have such characteristic: the horizontal driving assembly further comprises a roller arranged at the lower end of the moving block, the roller is located inside the base and is in rolling contact with the inner surface of the bottom of the base, and when the moving block moves in the preset direction, the roller can be driven to roll in the preset direction on the inner surface of the bottom of the base.

The utility model provides an among the full-automatic sticky tape coiler, can also have such characteristic: the base is provided with two sliding guide rails extending along the preset direction, the two sliding guide rails are respectively located on two side faces of the base, the installation rod assembly further comprises a sliding table, the upper end and the lower end of the sliding table are respectively installed at the lower end of the installation rod body and the upper end of the moving block, the sliding table is provided with two sliding portions matched with the two sliding guide rails respectively, and when the moving block drives the sliding table to move along the preset direction, the two sliding portions can slide along the preset direction simultaneously.

The utility model provides an in the full-automatic sticky tape coiler, can also have such characteristic, still include: a plurality of support assemblies, be located the both sides of base and set gradually along the predetermined direction, support assembly contains the supporting legs, bracing piece and cable clamping unit, the lower extreme of bracing piece is installed on the supporting legs, the highly homoenergetic of a plurality of bracing pieces of a plurality of support assemblies equals, the upper end at the bracing piece is installed to the cable clamping unit, a plurality of cable clamping units of a plurality of support assemblies are used for carrying out the centre gripping to two cables along the predetermined direction, when a plurality of supporting legss of a plurality of support assemblies all place on the coplanar, a plurality of bracing pieces and a plurality of cable clamping unit cooperate and play two cable framves to the predetermined height and make two cables all place along the predetermined direction.

The utility model provides an among the full-automatic sticky tape coiler, can also have such characteristic: the supporting leg is provided with a main supporting part and a plurality of auxiliary supporting parts, and the auxiliary supporting parts are uniformly arranged on the main supporting part along the circumferential direction of the main supporting part.

The utility model provides an among the full-automatic sticky tape coiler, can also have such characteristic: the cable clamping unit comprises a first clamping plate and a second clamping plate, the first clamping plate is detachably mounted at the upper end of the supporting rod, the second clamping plate is movably mounted on the first clamping plate, the first clamping plate and the second clamping plate are semicircular plates, a cable clamping channel with the size of a cross section adjustable is formed between the first clamping plate and the second clamping plate, the axes of a plurality of cable clamping channels of the cable clamping units are parallel to the preset direction, and the cable clamping channels are used for clamping two cables.

The utility model provides an among the full-automatic sticky tape coiler, can also have such characteristic: wherein, the line spacing scope of the axis of cable centre gripping passageway and the axis of first cable receiver all is within 2 mm.

Action and effect of the utility model

According to the utility model relates to a full-automatic sticky tape coiler because including moving mechanism and actuating mechanism, and actuating mechanism includes intermeshing's action wheel and follows the driving wheel, installs and has the first cable accommodation portion that holds an arbitrary one in two cables from the epaxial cable chuck of follow driving, and the sticky tape bracing piece is installed on the terminal surface of cable chuck and is located the vicinity of first cable accommodation portion, and the one end of the sticky tape that cup joints on the sticky tape bracing piece is pasted on first cable.

When the moving mechanism drives the driving mechanism to move along the preset direction and the driven wheel rotates, the cable chuck can move along the preset direction and rotate along the circumferential direction of the cables, so that the adhesive tape supporting rod can move along the preset direction and rotate along the circumferential direction of the two cables, and the adhesive tape is wound on the outer surface of the joint of the two cables. Therefore, the utility model discloses a full-automatic sticky tape coiler uses the surface that can follow the junction of predetermined direction to two cables automatically and carries out the winding of sticky tape through moving mechanism and actuating mechanism's cooperation to do not need operating personnel's participation just can be in the same place two sticky tape windings for the cable, make operating personnel's the amount of labour greatly reduce, and then improve the operating efficiency by a wide margin.

Drawings

Fig. 1 is a schematic perspective view of a full-automatic tape winding machine according to an embodiment of the present invention;

fig. 2 is a schematic perspective view of a moving mechanism in an embodiment of the present invention;

fig. 3 is a schematic structural diagram of the base and the moving mechanism according to the embodiment of the present invention;

fig. 4 is a schematic perspective view of a driving mechanism of a base according to an embodiment of the present invention;

fig. 5 is a top view of a support foot in an embodiment of the invention; and

fig. 6 is a side view of a support foot in an embodiment of the invention.

Detailed Description

In order to make the utility model realize that the technical means, the creation characteristics, the achievement purpose and the efficacy are easy to understand and understand, the following embodiment is combined with the accompanying drawings to specifically describe the utility model discloses a full-automatic adhesive tape winding machine.

Fig. 1 is a schematic perspective view of a full-automatic tape winding machine according to an embodiment of the present invention.

As shown in fig. 1, a fully automatic tape winding machine 100 of the present embodiment is configured to wind a tape (not shown in the drawings) around an outer surface of a joint of two cables C connected end to end, so as to fix the joint of the two cables C, and includes a base 10, a moving mechanism 20, a driving mechanism 30, a cable chuck 40, a tape supporting rod 50, and a plurality of supporting frame assemblies 60.

Fig. 2 is a schematic perspective view of a moving mechanism in an embodiment of the present invention; fig. 3 is a schematic structural diagram of the base and the moving mechanism according to the embodiment of the present invention.

As shown in fig. 1 to 3, the base 10 is a cylinder having an opening at an upper end surface, and an inner surface of a bottom of the base 10 is a horizontal surface. In the present embodiment, the base 10 is a rectangular cylinder, and a rectangular parallelepiped space is formed inside the cylinder.

The base 10 has two slide rails 11.

Two slide rails 11 are respectively installed on both side surfaces of the base 10 and extend in a predetermined direction. In this embodiment, two sliding rails 11 are integrally formed with the base 10 and disposed at the upper end of the side surface, the sliding rails 11 are located on both sides of the side surface of the base 10, and both sliding rails 11 are arc-shaped protrusions and have the same structure.

The moving mechanism 20 is disposed on the base 10 and includes a horizontal driving assembly 21 and a mounting bar assembly 22.

The horizontal driving assembly 21 is used for driving the mounting rod assembly 22 to move along a predetermined direction (D shown in FIG. 1); the horizontal driving assembly 21 includes a lead screw unit 211, a second driving motor 212, and a roller 213.

The screw unit 211 has a screw 2111 and a moving block 2112.

The screw 2111 is disposed in a predetermined direction, and one end of the screw 2111 is rotatably mounted on the base 10 and the other end passes through the base 10 and is located outside the base 10.

A moving block 2112 is movably mounted on the lead screw 2111 and fixedly mounted at the lower end of the mounting bar assembly 22.

The second driving motor 212 is installed at one end of the screw 2111, and is used for driving the screw 2111 to rotate. When the second driving motor 212 drives the lead screw 211 to rotate, the moving block 212 can move along a predetermined direction, so as to drive the mounting rod assembly 22 to move along the predetermined direction. In this embodiment, the second driving motor 212 is located outside the base 10, and is mounted on one end of the screw 2111 protruding out of the base 10.

The roller 213 is installed at the lower end of the moving block 2112, and the roller 213 is located inside the base 10 and is in rolling contact with the inner surface of the bottom of the base 10.

When the moving block 2112 moves in a predetermined direction, the roller 213 can be driven to roll in the predetermined direction on the inner surface of the bottom of the base 10.

The mounting bar assembly 22 includes a mounting bar body 221, a fixing base 222, and a sliding table 223.

The mounting rod body 221 is disposed in a vertical direction, and the upper end of the mounting rod body has a semicircular first groove 2211.

The fixing seat 222 is detachably mounted on the upper end surface of the mounting rod body 221, and the fixing seat 222 has a second groove 2221 corresponding to the first groove 2211. In this embodiment, the fixing base 222 is attached to the upper end surface of the mounting rod body 221 by a screw, and the fixing base 222 can be removed from the mounting rod body 221 by removing the screw.

The first and second grooves 2211 and 2221 cooperate to form a fixed cylinder fitting portion.

The upper end of the slide table 223 is mounted on the lower end of the mounting rod body 221, and the lower end is mounted on the upper end of the moving block 2112.

The slide table has a flat plate portion 2231 and two slide portions 2232.

The flat plate section 2231 is a rectangular plate body having a longitudinal direction perpendicular to the predetermined direction and a width direction extending in the predetermined direction. In this embodiment, the upper end of the flat plate portion 2231 is welded to the lower end of the mounting rod body 221, and the lower end is welded to the upper end of the moving block 2112.

The two sliding portions 2232 are respectively located at the lower end surface of the flat plate portion 2231 and correspondingly installed at the two ends of the flat plate portion 2231 in the length direction, and the two sliding portions 2232 are respectively engaged with the two sliding guide rails 11. In this embodiment, the two sliding portions 2232 are rectangular solid bodies integrally formed with the flat plate portion 2231, and the facing end surfaces of the two sliding portions 2232 are provided with corresponding sliding grooves extending in the predetermined direction, and the sliding grooves are matched with the arc-shaped convex surfaces of the sliding guide rail 11, so that when the moving block 2112 drives the sliding table 223 to move in the predetermined direction, the two sliding portions 2232 can slide in the predetermined direction at the same time.

Fig. 4 is a schematic perspective view of a driving mechanism of a base according to an embodiment of the present invention;

as shown in fig. 1 and 4, the driving mechanism 30 is disposed at the upper end of the mounting rod assembly 22, and includes a driving wheel 31, a driven wheel 32, a first driving motor 33, and a fixed cylinder 34;

the capstan 31 is mounted on the surface of the mounting lever body 221 at the lower portion of the fixed cylinder mounting portion. In this embodiment, the axle of the driving pulley 31 passes through the mounting lever body 221.

The driven pulley 32 is engaged with the driving pulley 31, and has a second cable housing. In the present embodiment, the driven pulley 32 is engaged with the upper side of the driving pulley 31. In the present embodiment, the second cable housing portion is a circular through hole coaxial with the fixed barrel fitting portion.

The first driving motor 33 is mounted on one end of the axle of the driving pulley 31 for driving the driving pulley 31 to rotate and thus the driven pulley 32 to rotate. In this embodiment, the first driving motor 33 is mounted on one end of the driving pulley 31 at which the axle passes through the mounting lever body 221.

The fixed cylinder 34 is mounted on the end face of the driven wheel 32, placed in the fixed cylinder loading part and capable of rotating in the fixed cylinder loading part, the fixed cylinder 34 is provided with a cable loading through hole 341, and when the driving wheel 31 drives the driven wheel 32 to rotate, the driven wheel 32 drives the fixed cylinder 34 to rotate in the fixed cylinder loading part. In this embodiment, the fixed cylinder 34 and the driven wheel 32 are formed as a single body, and the cable-insertion through-hole 341 communicates with the second cable-receiving portion to form a straight passage.

The cable chuck 40 is attached to the driven wheel 32, and includes a first cable housing portion for housing one of the two cables C as a first cable C1 and the other cable as a second cable C2. In this embodiment, two threaded holes are uniformly formed in the end surface of the cable chuck 40 along the circumferential direction, and the first cable accommodating portion is a circular through hole and is communicated with the second cable accommodating portion.

The first cable housing portion, the second cable housing portion, and the cable fitting through-hole 341 are sequentially communicated to form a cable housing passage for housing the first cable C1. In this embodiment, the cable-receiving passage is a straight passage having a circular cross-section.

The tape support bar 50 is installed on the end surface of the cable chuck 40 and located near the first cable receiving portion, the tape support bar 50 is used for sleeving a tape, and one end of the tape is adhered to the first cable C1. In this embodiment, the number of the adhesive support rods 50 is two, the adhesive support rods are uniformly distributed on the end surface of the cable chuck 40, the length directions of the two adhesive support rods 50 extend along a predetermined direction, one end surface of the adhesive tape support rod 50 is provided with a threaded rod, the threaded rod is matched with the threaded hole of the cable chuck 40, so that the adhesive tape support rod 50 is installed on the cable chuck 40, and when the adhesive tape on one adhesive tape support rod 50 of the two adhesive tape support rods 50 is used up, the adhesive tape on the other adhesive tape support rod can be used continuously in real time.

Fig. 5 is a top view of a support foot in an embodiment of the invention; fig. 6 is a side view of a support foot in an embodiment of the invention.

As shown in fig. 1 and 5 to 6, a plurality of support frame assemblies 60 are positioned at both sides of the base 10 and are sequentially arranged in a predetermined direction. In this embodiment, the number of support frame assemblies 60 is 4, with 2 being provided on each side of the base.

The supporting frame assembly 60 includes supporting legs 61, a supporting bar 62 and a cable clamping unit 63.

The support foot 61 has a main support portion 611 and a plurality of auxiliary support portions 612.

In this embodiment, the main supporting part 611 is a square cylinder, and the bottom is fixed on the ground by bolts.

The plurality of auxiliary supports 612 are uniformly mounted on the main support 611 in the circumferential direction of the main support 611. In this embodiment, the auxiliary support 612 is an angle iron structure welded to four sides of the main support 611.

The lower ends of the support rods 62 are mounted on the support feet 61, and the heights of the support rods 62 of the support frame assemblies 60 are all equal.

The cable clamping unit 63 is installed at the upper end of the support bar 62, and the plurality of cable clamping units 63 of the plurality of holder assemblies 60 are used to clamp the first cable C1 and the second cable C2 in a predetermined direction.

When the plurality of support legs 61 of the plurality of support bracket assemblies 60 are all placed on the same plane, the plurality of support bars 62 and the plurality of cable clamping units 63 cooperate to raise the first cable C1 and the second cable C2 to a predetermined height and to place both cables C in a predetermined direction.

The cable clamping unit 63 includes a first clamping plate 631 detachably mounted on the upper end of the support bar 62 and a second clamping plate 632 movably mounted on the first clamping plate 631.

The first and second clamping plates 631 and 632 are both semicircular plates.

A cable clamping passage with an adjustable cross-sectional size is formed between the first clamping plate 631 and the second clamping plate 632, axes of the cable clamping passages of the cable clamping units 63 are all parallel to a predetermined direction, and the cable clamping passages are all used for clamping the first cable C1 and the second cable C2.

The range of the line spacing between the axis of the cable clamping channel and the axis of the first cable accommodating part is within 2 mm.

When the moving mechanism 20 moves the driving mechanism 30 in the predetermined direction and the driven wheel 32 rotates, the cable chuck 40 can rotate in the circumferential direction of the two cables C while moving in the predetermined direction, so that the tape support rod 50 can move in the predetermined direction and rotate in the circumferential direction of the two cables C, thereby winding the tape on the outer surface of the joint of the first cable C1 and the second cable C2 to fixedly connect the first cable C1 and the second cable C2.

Before the full-automatic tape winding machine 100 of this embodiment is used, it is necessary to first respectively sleeve two tapes on two tape supporting rods 50, start the second driving motor 212 to rotate reversely so that the sliding table 223 slides to one end of the base 10, then erect two cables C to a predetermined height through the plurality of supporting frame assemblies 60 located at both sides of the base 10, the predetermined height is the height of the cable accommodating channel, and then pass one end of the first cable C1 through the cable accommodating channel, so that one end of the first cable C1 passing through the cable accommodating channel is connected with one end of the second cable C2, the connection position is above the base 10, and one end of the tape is adhered to the outer surface of the first cable C1.

The operation of the fully automatic tape winding machine 100 of the present embodiment is described below with reference to fig. 1, specifically as follows: first, the operator holds the first cable C1 and the second cable C2 with both hands, respectively, so that the joint of the two cables C is in a temporary stable state, and then starts the first driving motor 33 to rotate forward and the second driving motor 212 to rotate forward simultaneously, at which time the driving mechanism 30 will move in a predetermined direction while the tape supporting rod 50 rotates in the circumferential direction of the first cable C1. When the sliding table 223 moves to the other end of the base 10, the driving mechanism 30 completes the tape winding on the outer surface of the joint of the two cables C through the tape supporting rod 50 to fix the joint of the two cables C connected end to end.

Effects and effects of the embodiments

According to the full-automatic tape winding machine related to the embodiment, because the horizontal driving assembly in the driving mechanism is used for driving the installation rod assembly to move along the preset direction, the driving wheel installed at the upper end of the installation rod assembly can drive the driven wheel to rotate under the driving of the first driving motor, the cable chuck installed on the driven wheel is provided with the first cable accommodating part for accommodating any one of the two cables, and the tape supporting rod is installed on the end face of the cable chuck and is positioned near the first cable accommodating part. One end of the adhesive tape sleeved on the adhesive tape supporting rod is pasted on the first cable, when the moving mechanism drives the driving mechanism to move along the preset direction and rotate from the driving wheel, the cable chuck can rotate along the circumferential direction of the cable while moving along the preset direction, so that the adhesive tape supporting rod can move along the preset direction and rotate along the circumferential direction of the two cables, and the adhesive tape is wound on the outer surface of the joint of the two cables. Therefore, the full-automatic tape winding machine of this embodiment uses the surface that can automatically carry out the sticky tape to the junction of two cables along the predetermined direction through moving mechanism and actuating mechanism's cooperation to do not need operating personnel's participation just can be in the same place two cable sticky tape winding fixings, make operating personnel's the amount of labour greatly reduce, and then improve the operating efficiency by a wide margin.

Because the lead screw in the horizontal driving assembly in this embodiment sets up along the predetermined direction, thereby the second driving motor drive lead screw is rotatory to drive the movable block and move along the predetermined direction, and then drives the installation pole subassembly and move along the predetermined direction, so, the horizontal driving assembly can realize that the function of driving the movable block along the predetermined direction and moving makes actuating mechanism carry out the sticky tape winding to the surface of cable junction.

Further, since the upper end of the mounting rod assembly has the fixed cylinder receiving portion and the fixed cylinder is mounted on the end surface of the driven wheel, the driven wheel can be rotatably mounted on the upper end of the mounting rod assembly by the fixed cylinder received in the fixed cylinder receiving portion.

Because the cable loading through hole on the fixed cylinder, the second cable containing part on the driven wheel and the first cable containing part are communicated in sequence to form a cable containing channel. Therefore, the first cable can pass through the driving mechanism through the cable receiving passage to facilitate tape wrapping of the outer surface.

Because the roller at the lower end of the moving block in the embodiment is in rolling contact with the inner surface of the bottom of the base, when the moving block moves along the preset direction, the roller can be driven to roll on the inner surface of the bottom of the base along the preset direction, so that part of the weight of the moving block falls on the inner surface of the bottom of the base through the roller, the weight of the moving block received by the lead screw is reduced, and the phenomenon that the lead screw is deformed due to overweight load is avoided.

Because the base in this embodiment has two sliding rails extending in the predetermined direction on both sides, and the sliding table has two sliding portions connected to the two sliding rails, when the moving block drives the sliding table to move in the predetermined direction, the two sliding portions can slide in the predetermined direction at the same time. Therefore, the sliding table can slide smoothly and stably on the base by the matching of the sliding part and the sliding guide rail.

Because the full-automatic tape winding machine in this embodiment still includes the multiple support frame subassembly that is located the both sides of base and sets up along the predetermined direction, and the support frame subassembly contains the supporting legs that connect gradually, with high bracing piece and cable clamping unit, and when a plurality of supporting legs were all placed on the coplanar, a plurality of bracing pieces with cable clamping unit cooperateed and has been risen two cable framves to predetermined height and made two cables all place along the predetermined direction. Therefore, the support frame assemblies can be used for erecting two cables to a preset height and placing the cables along the preset direction, and the full-automatic adhesive tape winding machine is further convenient to wind and fix the two cables at the preset height by using the adhesive tape.

Further, since the plurality of auxiliary supporting parts of the supporting leg are uniformly installed on the main supporting part in the circumferential direction of the main supporting part, a more uniform and firm supporting force can be obtained when the supporting leg is supported on the ground.

Furthermore, because the semicircular first clamping plate of the cable clamping unit is arranged at the upper end of the supporting rod, and the semicircular second clamping plate is movably arranged on the first clamping plate, a cable clamping channel with the adjustable cross section size is formed between the first clamping plate and the second clamping plate, and the cable clamping channel is used for clamping two cables. Therefore, cables with different specifications can be clamped by adjusting the size of the cable clamping channel.

Because the cable chuck in this embodiment is provided with two sticky tape bracing pieces, so, when carrying out the sticky tape winding, can also use the sticky tape on the other one to continue to wind after the sticky tape on a sticky tape bracing piece uses up, so can prolong full-automatic sticky tape coiler's continuous operating time and then further improve the operating efficiency.

The above embodiments are preferred embodiments of the present invention, and are not intended to limit the scope of the present invention, and various modifications and changes that can be made by those skilled in the art without inventive work within the scope of the appended claims will still fall within the scope of the present invention.

For example, the number of the tape supporting rods in the embodiment is 2, and in practical use, more than two tape supporting rods can be arranged under the condition that the area of the end face of the cable chuck allows, so that the full-automatic tape winding machine can have longer continuous working time.

Claims (9)

1. A full-automatic tape winding machine for winding a tape on an outer surface of a joint of two cables connected end to fix the joint of the two cables, comprising:

a base;

the moving mechanism is arranged on the base and comprises a horizontal driving assembly and a mounting rod assembly, and the horizontal driving assembly is used for driving the mounting rod assembly to move along a preset direction;

the driving mechanism is arranged at the upper end of the mounting rod assembly and comprises a driving wheel, a driven wheel meshed with the driving wheel and a first driving motor, and the first driving motor is used for driving the driving wheel to rotate so as to drive the driven wheel to rotate;

a cable chuck mounted on the driven wheel and including a first cable accommodating part for accommodating any one of the two cables as a first cable;

a tape support bar mounted on the end surface of the cable chuck and located near the first cable accommodating part, the tape support bar being adapted to receive the tape, one end of the tape being adhered to the first cable,

when the moving mechanism drives the driving mechanism to move along the preset direction and the driven wheel rotates, the cable chuck can rotate along the circumferential direction of the cables while moving along the preset direction, so that the adhesive tape supporting rod can move along the preset direction and rotate along the circumferential direction of the two cables, and the adhesive tape is wound on the outer surface of the joint of the two cables.

2. The fully automatic tape winding machine of claim 1, wherein:

wherein the horizontal driving assembly comprises a lead screw unit and a second driving motor,

the lead screw unit is mounted on the base, and has a lead screw arranged in the predetermined direction and a moving block movably mounted on the lead screw, the moving block being mounted at a lower end of the mounting rod assembly,

the second driving motor is arranged at one end of the screw rod and is used for driving the screw rod to rotate,

when the second driving motor drives the lead screw to rotate, the moving block can move along the preset direction, so that the mounting rod assembly is driven to move along the preset direction.

3. The fully automatic tape winding machine of claim 2, wherein:

wherein the mounting rod component comprises a mounting rod body and a fixed seat detachably mounted at the upper end of the mounting rod body,

the driving mechanism also comprises a fixed cylinder arranged on the end surface of the driven wheel, the fixed cylinder is provided with a cable loading through hole,

the upper end of the mounting rod body is provided with a semicircular first groove, the fixed seat is provided with a second groove corresponding to the first groove, the first groove and the second groove are matched to form a fixed cylinder loading part used for loading the fixed cylinder,

the driven wheel is provided with a second cable accommodating part,

the first cable accommodating part, the second cable accommodating part and the cable loading through hole are communicated in sequence to form a cable accommodating channel, and the cable accommodating channel is used for accommodating the first cable.

4. The fully automatic tape winding machine of claim 2, wherein:

wherein the upper end surface of the base is provided with an opening,

the inner surface of the bottom of the base is a horizontal plane,

the horizontal driving assembly further comprises a roller mounted at the lower end of the moving block, the roller being located inside the base and being in rolling contact with the inner surface of the bottom of the base,

when the moving block moves along the preset direction, the roller can be driven to roll on the inner surface of the bottom of the base along the preset direction.

5. The fully automatic tape winding machine of claim 2, wherein:

wherein the base further has two slide rails extending in the predetermined direction,

the two sliding guide rails are respectively positioned on the two side surfaces of the base,

the mounting rod component also comprises a sliding table, the upper end and the lower end of the sliding table are respectively arranged at the lower end of the mounting rod body and the upper end of the moving block,

the sliding table is provided with two sliding parts which are respectively matched with the two sliding guide rails,

when the moving block drives the sliding table to move along the preset direction, the two sliding parts can slide along the preset direction at the same time.

6. The fully automatic tape winding machine of claim 1, further comprising:

a plurality of support frame assemblies positioned at both sides of the base and sequentially arranged along the predetermined direction,

the support frame component comprises support legs, a support rod and a cable clamping unit,

the lower ends of the supporting rods are arranged on the supporting legs, the heights of the supporting rods of the supporting frame assemblies are equal,

the cable clamping units are arranged at the upper ends of the support rods, the cable clamping units of the support frame assemblies are used for clamping the two cables along the preset direction,

when the supporting legs of the supporting frame assemblies are all placed on the same plane, the supporting rods and the cable clamping units are matched to enable the two cables to be erected to the preset height and enable the two cables to be placed along the preset direction.

7. The fully automatic tape winding machine of claim 6, wherein:

wherein the supporting foot is provided with a main supporting part and a plurality of auxiliary supporting parts,

the plurality of auxiliary supports are uniformly mounted on the main support along a circumferential direction of the main support.

8. The fully automatic tape winding machine of claim 6, wherein:

wherein the cable clamping unit comprises a first clamping plate detachably arranged at the upper end of the supporting rod and a second clamping plate movably arranged on the first clamping plate,

the first clamping plate and the second clamping plate are both semicircular plates,

a cable clamping channel with an adjustable cross section is formed between the first clamping plate and the second clamping plate, the axial lines of the cable clamping channels of the cable clamping units are parallel to the preset direction, and the cable clamping channels are used for clamping the two cables.

9. The fully automatic tape winding machine of claim 8, wherein:

wherein the range of the line spacing of the axis of the cable clamping channel and the axis of the first cable receiving part are both within 2 mm.