CN204528869U - Automatically cable apparatus is put - Google Patents

Abstract

The utility model provides one automatically to put cable apparatus, comprising: base, is arranged on the bracing frame on base, be arranged on the transmission device on bracing frame, what be connected with transmission device puts drum, with the correcting rod put drum and be rotationally connected, and the motor be connected respectively with transmission device and code device; Described transmission device comprises and the rotating spindle put drum and correcting rod and be rotationally connected, and is arranged on the clutch shaft bearing on rotating spindle and code device, and is arranged on the second bearing on rotating spindle; Described code device is gathered information when described cable drives correcting rod to rotate by said structure and is fed back to described motor in synchrony and rotates backward, thus avoid the cable in unwrapping wire cable process to produce distortion, and the swing of correcting rod is stopped by close-fitting clutch shaft bearing and the second bearing, not only compact conformation, control simple and also in unwrapping wire cable process also without the need to buffer structure, and more stiff line, cable or other circle material unwrapping wire cable around formula can also be suitable for, highly versatile.

Description

Automatically cable apparatus is put

Technical field

The utility model is about cable processing device technical field, particularly automatically puts cable apparatus about one.

Background technology

It is a kind of supporting with wire twisting machine for putting cable apparatus, play the electric wire accessory equipment of unwrapping wire cable effect, traditional cable apparatus of putting mainly carries out unwrapping wire cable by the rotation of driven by motor drum, material winds with organize on buffering wheel more, in unwrapping wire cable process, wire rod resistance is little like this, the at the uniform velocity unwrapping wire cable putting cable apparatus cannot be ensured, often there is the phenomenon of length line, and, put the device not existing in cable apparatus and the tension force of wire harness is detected, the tensioning unbracking signal of wire harness cannot be carried out actv. feedback, the too much wire harness of unwrapping wire cable often can be caused to pile up or the phenomenon generation of the very few card machine of wire harness, affect the shearing of later stage wire harness, work efficiency is lower, corresponding damage can be caused to putting cable apparatus itself simultaneously, add maintenance use cost.

In the later stage of cable processing, the needs used according to reality are needed to be cut to shorter cable.When current use machine cuts cable, need the cable pull-out that a special operating personal will be wrapped on bobbin.So not only cause the waste of labour power, add the labor content of workman, reduce the degree of automation of whole production process.

In order to solve the problem that above-mentioned manual operation causes, occur afterwards a kind ofly automatically putting cable apparatus.As Chinese utility model patent numbers 94210497.8 discloses one " wire rod puts cable apparatus automatically ".This wire rod puts the axial clamper of cable apparatus by drum automatically, the composition such as puller system and electric cabinet, drive motor and claming holder is had respectively in the both sides of drum, the frame of top there is track adjusting wheel, middle frame top has travel switch, potential device, the axle of potential device and screw rod one, polished rod installation parallel with screw rod, top between two bars be fixed wheel, below is the driving wheel of band slide block, fixed wheel and driving wheel all have two wire casings at least, the slide block of driving wheel there is a bolt snapped in the screw thread of screw rod, frame outside another there are wire clamp and at least two straightening-wheels.The automatic unwrapping wire cable of this wire rod responds to the tension force around cable inner core thereon by the fixed wheel on polished rod and screw rod and driving wheel.When the tension force of cable inner core is different, the driving wheel on polished rod and screw rod is in different height, thus makes potential device be in different current potentials, is controlled the rotating speed of drive motor by control mechanism.

This wire rod is automatically put cable apparatus and is responded to tension force by cable around can slide up and down driving wheel and fixing fixed wheel, when cable strain becomes large, driving wheel is along polished rod upward sliding, when cable strain diminishes, driving wheel is along polished rod slide downward, the change of driving wheel position makes the current potential of potential device change, thus controls the rotating speed putting cable apparatus.This driving wheel and slide block due to Action of Gravity Field, can increase the tension force of the cable of coiling in induction process, and when adjusting drum rotating speed, also need the impact of the gravity considering driving wheel and slide block, and equipment regulates and comparatively bothers.To be slided up and down at the screw rod that potentiometer shaft forms by driving wheel and change current potential, driving wheel needs larger displacement and potential device just can be made to have react accurately, and therefore this induction mode is insensitive.Meanwhile, this kind of mode is not suitable for more stiff cable or the other materials of coil type, and huge structure, and complicated operation, also easily causes cable distortion in the process of unwrapping wire cable.

Utility model content

For the problems referred to above, the purpose of this utility model be to provide one not only compact conformation, control simple, in unwrapping wire cable process without the need to buffering, cable distortion in unwrapping wire cable process can be prevented, and be suitable for more stiff line, cable or other circle around the material unwrapping wire cable of formula, highly versatile automatically put cable apparatus.

The purpose of this utility model is achieved in that one puts cable apparatus automatically, it comprises: base, be arranged on the bracing frame on base, be arranged on the transmission device on bracing frame, what be connected with transmission device puts drum, with the correcting rod put drum and be rotationally connected, the motor be connected respectively with transmission device and code device; Described transmission device comprises and the described rotating spindle put drum and described correcting rod and be rotationally connected, and is arranged on the clutch shaft bearing on described rotating spindle and described code device, and is arranged on the second bearing on described rotating spindle; Described code device is gathered information when described cable drives described correcting rod to rotate by said structure and is fed back to described motor in synchrony and rotates backward.

In an embodiment of the present utility model, aforesaid base is roughly interior empty van body structure, its first connecting panel having four vertical pillar stiffeners, the first stay bearing plate be connected with the upper end of described four pillar stiffeners and be connected with described four pillar stiffener lower ends; Described pillar stiffener, described first stay bearing plate and described first connecting panel surround a receiving space jointly to accommodate described motor and described code device.

In an embodiment of the present utility model, the bottom of aforesaid pillar stiffener is connected with the supporting pad of a circle to increase the whole stability of strutting system automatically putting cable apparatus; On described first stay bearing plate, extendedly there is back-up block the position of corresponding described four pillar stiffeners in order to support support frame as described above respectively to upper, the midway location of described first stay bearing plate offers perforate, and described linkage section stretches out and puts drum with described and described correcting rod is connected from described perforate.

In an embodiment of the present utility model, described in the volume ratio of aforesaid bracing frame, the volume of base is little, it comprises four root posts, connects the second connecting panel of described four root post lower ends, and is connected to described four root post upper ends and the second stay bearing plate be supported on described back-up block; The area of described second stay bearing plate is greater than the area of described first stay bearing plate, the upper end of described four root posts is extended out and is connected by screw with described first stay bearing plate from the perforate of described first stay bearing plate, the position of the corresponding described back-up block of surrounding of described first stay bearing plate is provided with tapped bore, described second stay bearing plate and described column and described first stay bearing plate to be fixed together by screw, on described second stay bearing plate, the position of opening of corresponding described first stay bearing plate is also provided with opening.

In an embodiment of the present utility model, aforesaidly put drum roughly in cylindrical-shaped structure, it comprises the first dish portion, the second dish portion relative with described first dish portion, and is connected to and puts line portion between described first dish portion and described second dish portion; The described radial diameter of putting line portion diameter radially and being less than described first dish portion and described second dish portion, the described axial length put line portion and be greater than described first dish portion and described second dish portion along the length of its axis, described putting in line portion is wound with cable, described in put drum midway location along its be axially provided with from bottom to top run through successively described first dish portion, described in put the center drilling in the center of circle in line portion and described second dish portion.

In an embodiment of the present utility model, aforesaid correcting rod comprises base bar, dwang, foot piece and slide block; Described base bar is arranged along the radial diameter direction being parallel to described first dish portion, described slide block set is connected on described base bar, described dwang one end is connected with described slide block, the other end is connected with described code device through described center drilling and is contained in the receiving space of support frame as described above, one end of described foot piece through described base bar, the other end be wrapped in described in the tail end of cable put in line portion be connected.

In an embodiment of the present utility model, aforesaid code device comprises coder main shaft, coder and turning cylinder bearing; Described coder main shaft is arranged in described turning cylinder bearing, and is connected with described dwang and described connecting panel respectively by described clutch shaft bearing, and described coder is connected to the lower end of described coder main shaft.

In an embodiment of the present utility model, also comprise and be connected to support frame as described above and the described pallet put between drum, aforesaid rotating spindle is roughly in " ten " font structure, the upper part of its axis is placed in described center drilling, and the lower part of its axis is contained in the receiving space of support frame as described above; Described rotating spindle is provided with axial aperture to accommodate described dwang, described coder main shaft and described turning cylinder bearing along the centre of its axis, and the radial part of described rotating spindle is arranged between described second stay bearing plate and described pallet.

In an embodiment of the present utility model, aforesaid transmission device also comprises bearing mounting base, jam nut, the first gear and the second gear; Described bearing mounting base is placed in the receiving space of support frame as described above, described second bearing is installed on described rotating spindle and described bearing mounting base two ends, described first gear be arranged on described rotating spindle axial lower part and with described second gears meshing, the diameter of described first gear is greater than the diameter of described second gear, described jam nut locking is between described rotating spindle and described first gear, and described second gear is connected with described motor.

In an embodiment of the present utility model, aforesaid rotating spindle radially comprises the first radial part and the second radial part, and the diameter of described first radial part is less than the diameter of described second radial part, described first radial part is contained in the opening of described second stay bearing plate, described second radial part is carried on the upper surface of described second stay bearing plate, one of them clutch shaft bearing is installed between the upper part of described dwang and described rotating spindle, another clutch shaft bearing is installed between described rotating spindle and described coder main shaft, described coder main shaft is placed in the axial aperture of described rotating spindle.

The beneficial effects of the utility model are, what the utility model embodiment provided puts cable apparatus automatically, bearing is adopted to carry out close-fitting correcting rod, rotating spindle and code device by arranging, information when driving correcting rod to rotate cable passes to coder, and by coder by the information feed back collected to motor, thus avoid the twisted phenomena that the cable in unwrapping wire cable process produces, and stopped the swing of correcting rod by close-fitting bearing.Not only compact conformation, control simple and also in unwrapping wire cable process also without the need to buffer structure, more stiff line, cable or other circle material unwrapping wire cable around formula can also be suitable for, highly versatile simultaneously.

Above-mentioned explanation is only the general introduction of technical solutions of the utility model, in order to technological means of the present utility model can be better understood, and can be implemented according to the content of specification sheets, and can become apparent to allow above-mentioned and other objects, features and advantages of the present utility model, below especially exemplified by embodiment, and coordinate accompanying drawing, be described in detail as follows.

Accompanying drawing explanation

Fig. 1 is the structural representation that the utility model puts the first embodiment of cable apparatus automatically.

Fig. 2 is the cross-sectional view of automatically putting cable apparatus in Fig. 1.

Fig. 3 is the unwrapping wire cable schematic diagram that the utility model puts cable apparatus automatically.

Fig. 4 is the structural representation that the utility model puts the second embodiment of cable apparatus automatically.

Fig. 5 is the cross-sectional view of automatically putting cable apparatus in Fig. 4.

Detailed description of the invention

For further setting forth the utility model for the technological means reaching predetermined utility model object and take and effect, below in conjunction with accompanying drawing and better embodiment, to the detailed description of the invention of automatically putting cable apparatus, structure, feature and effect thereof that foundation the utility model proposes, be described in detail as follows:

Relevant aforementioned and other technology contents, Characteristic of the present utility model, can know and present in the detailed description of following cooperation with reference to graphic better embodiment.By the explanation of detailed description of the invention, when can to the utility model for the technological means reaching predetermined object and take and effect be able to more deeply and concrete understanding, but institute's accompanying drawings is only to provide with reference to the use with explanation, is not used for being limited the utility model.

Please refer to shown in Fig. 1 and Fig. 2, what provide for the first embodiment of the present utility model puts cable apparatus automatically, and it comprises base 1, the bracing frame 2 be arranged on described base 1, put drum 3 and put with described correcting rod 4 that drum 3 is rotationally connected, be connected to support frame as described above 2 and put the pallet 5 between drum 3, the motor 6 be connected with support frame as described above 2, transmission device 7 and code device 8 with described.Support frame as described above 2, described in put drum 3, described correcting rod 4, described pallet 5, described motor 6 and described code device 8 and be all connected with described transmission device 7.

Described base 1 is roughly interior empty van body structure, its first connecting panel 12 having four vertical pillar stiffeners 10, the first stay bearing plate 11 be connected with the upper end of described four pillar stiffeners 10 and be connected with described four pillar stiffener 10 lower ends.Described pillar stiffener 10, described first stay bearing plate 11 and described first connecting panel 12 surround a receiving space (non-label) jointly to accommodate described motor 5 and described code device 8.The bottom of described pillar stiffener 10 is connected with the supporting pad 100 of a circle to increase the whole stability of strutting system automatically putting cable apparatus.On described first stay bearing plate 11, extendedly there is back-up block 110 position of corresponding described four pillar stiffeners 10 in order to support support frame as described above 2 respectively to upper.The midway location of described first stay bearing plate 11 offers perforate (non-label), and described transmission device 7 part is stretched out and put drum 3 with described and described correcting rod 4 is connected from described perforate.

Support frame as described above 2 is integrated long-pending less than the volume of described base 1 small box structure, the similar of its structure and described base 1, comprise four root posts 20, connect the second connecting panel 21 of described four root post 20 lower ends, and be connected to described four root post 20 upper ends and be supported on the second stay bearing plate 22 on described back-up block 110.The area of described second stay bearing plate 22 is greater than the area of described first stay bearing plate 11.The upper end of described four root posts 20 is extended out and is connected by screw (non-label) with described first stay bearing plate 11 from the perforate of described first stay bearing plate 11.The position of the corresponding described back-up block 110 of surrounding of described first stay bearing plate 11 is provided with tapped bore (non-label), to be fixed together with described column 20 and described first stay bearing plate 11 by described second stay bearing plate 22 by screw.On described second stay bearing plate 22, the position of opening of corresponding described first stay bearing plate 11 is also provided with opening (non-label), so that described transmission device 7 passes and is placed in the receiving space (non-label) of support frame as described above 2 from described opening and described perforate.

Describedly put drum 3 roughly in cylindrical-shaped structure, it comprises the first dish portion 30, the second dish portion 31 relative with described first dish portion 30, and is connected to and puts line portion 32 between described first dish portion 30 and described second dish portion 31.The described radial diameter of putting line portion 32 diameter radially and being less than described first dish portion 30 and described second dish portion 31, described in put line portion 32 is greater than described first dish portion 30 and described second dish portion 31 axial length along the length of its axis.Described putting in line portion 32 is wound with cable 9.The described midway location putting drum 3 along its be axially provided with from bottom to top run through successively described first dish portion 30, described in put the center drilling 300 in the center of circle in line portion 32 and described second dish portion 31.Described correcting rod 4 and described transmission device 7 all pass from described center drilling 300.

Put drum 3 described in described correcting rod 4 passes to be rotationally connected with described transmission device 7.Described correcting rod 4 comprises base bar 40, dwang 41, foot piece 42 and slide block 43.Described base bar 40 is arranged along the radial diameter direction of putting the first dish portion 30 of drum 3 described in being parallel to, described slide block 43 is socketed on described base bar 40, described dwang 41 one end is connected with described slide block 43, and the other end is connected with described code device 8 through described center drilling 300 and is contained in the receiving space of support frame as described above 2.One end of described foot piece 42 through described base bar 40, the other end be wrapped in described in the tail end of cable 9 put in line portion 32 be connected.

Described transmission device 7 is for passing to described code device 8 by described rotation of putting drum 3, and the relevant information collected is passed to described motor 6 by described code device 8 again, rotates to drive described motor 6.Described transmission device 7 comprises rotating spindle 70, a pair clutch shaft bearing 71, bearing mounting base 72, a pair second bearings 73, jam nut 74, first gear 75 and the second gears 76.Described rotating spindle 70 is roughly in " ten " font structure, and the upper part of its axis is placed in described center drilling 300, and the lower part of its axis is contained in the receiving space of support frame as described above 2.Described rotating spindle 70 is provided with axial aperture (non-label) with the turning cylinder bearing 82 of accommodating described dwang 41 and described code device 8 in wherein along the centre of its axis.The radial part 700 of described rotating spindle 70 is arranged between described second stay bearing plate 22 and described pallet 5.Described a pair clutch shaft bearing 71 is arranged between described dwang 41 and the coder main shaft 80 of described code device 8, described bearing mounting base 72 is placed in the receiving space of support frame as described above 2, and described a pair second bearings 73 are installed on described rotating spindle 70 and described bearing mounting base 72 two ends.Described first gear 75 is arranged on the axial lower part of described rotating spindle 70 and engages with described second gear 76, and the diameter of described first gear 75 is greater than the diameter of described second gear 76.Described jam nut 74 locks between described rotating spindle 70 and described first gear 75.Described second gear 76 is connected with described motor 6.

Described code device 8 is connected with support frame as described above 2 and described transmission device 7, and it comprises coder main shaft 80, coder 81 and turning cylinder bearing 82.Described coder main shaft 80 is arranged in described turning cylinder bearing 82, and be connected with described dwang 41 and described connecting panel 21 respectively by described a pair clutch shaft bearing 71, described coder main shaft 80 is contained in the axial aperture of described rotating spindle 70 with the assembly set of described turning cylinder bearing 82, and described coder 81 is connected to the lower end of described coder main shaft 80.Described coder 80 is for gathering the described shift position of correcting rod 4, the signal of moving velocity, and give described motor 6 by the signal feedback that collects, described motor 6 rotates according to the signal synchronous backward collected, thus make described correcting rod 4 energy balance rotating in the process of unwrapping wire cable, guarantee that cable 9 also makes described cable 9 in unwrapping wire cable process without the need to buffered while non-warping in the process of unwrapping wire cable.

Please engage and consult shown in Fig. 3, when described automatically put cable apparatus at unwrapping wire cable time, pull described cable 9, now described correcting rod 4 can swing around direction together along with circle, when described correcting rod 4 forwards B point to from the A point Fig. 3, the rotational angle of described correcting rod 4 is Δ a.Described correcting rod 4 will drive described coder main shaft 80 synchronous axial system be connected by described clutch shaft bearing 71 and described second bearing 73 with described dwang 41, the information of the rotational angle Δ a of described correcting rod 4 is passed to described coder 81 simultaneously, the rotational angle information collected is fed back to described motor 6 by intermeshing first gear 75 and the second gear 76 and drives described motor 6 synchronous backward to rotate corresponding angle variable quantity Δ a by described coder 81, the swing of the generation of described correcting rod 4 in unwrapping wire cable process and the twisted phenomena of described cable 9 generation can be revised in time, thus realize the distortionless steady unwrapping wire cable of cable 9.

Please refer to shown in Fig. 4 and Fig. 5, what provide for the second embodiment of the present utility model puts cable apparatus automatically, the structure of automatically putting cable apparatus in present embodiment and the similar of automatically putting cable apparatus in the first embodiment, its difference is: in the present embodiment, and described cable apparatus of automatically putting does not have pallet and rolling bearing holder structure.Described rotating spindle 70 is " ten " font structure roughly, and the radial part of described rotating spindle 70 comprises the first radial part 700 and the second radial part 701, and the diameter of described first radial part 700 is less than the diameter of described second radial part 701.The function of described second radial part 701 is equivalent to the function of the pallet in the first embodiment, and described first radial part 700 is contained in the opening of described second stay bearing plate 22, and described second radial part 701 is carried on the upper surface of described second stay bearing plate 22.One of them clutch shaft bearing 71 is installed between described dwang 41 and the upper part of described rotating spindle 70, and another clutch shaft bearing 71 is installed between described rotating spindle 70 and described coder main shaft 80.Described coder main shaft 80 is directly placed in the axial aperture of described rotating spindle 70.Except said structure, other structures of automatically putting cable apparatus of present embodiment and function identical with other structures of automatically putting cable apparatus in the first embodiment and function, do not repeat them here.

What the utility model embodiment provided puts cable apparatus automatically, bearing is adopted to carry out close-fitting correcting rod, rotating spindle and code device by arranging, information when driving correcting rod to rotate cable passes to coder, and by coder by the information feed back collected to motor, thus avoid the twisted phenomena that the cable in unwrapping wire cable process produces, and stopped the swing of correcting rod by close-fitting bearing.Not only compact conformation, control simple and also in unwrapping wire cable process also without the need to buffer structure, more stiff line, cable or other circle material unwrapping wire cable around formula can also be suitable for, highly versatile simultaneously.

The above, it is only embodiment of the present utility model, not any pro forma restriction is done to the utility model, although the utility model discloses as above with embodiment, but and be not used to limit the utility model, any those skilled in the art, do not departing within the scope of technical solutions of the utility model, make a little change when the technology contents of above-mentioned announcement can be utilized or be modified to the equivalent implementations of equivalent variations, in every case be do not depart from technical solutions of the utility model content, according to any simple modification that technical spirit of the present utility model is done above embodiment, equivalent variations and modification, all still belong in the scope of technical solutions of the utility model.

Claims (10)

1. automatically put cable apparatus for one kind, it is characterized in that, it comprises: base, be arranged on the bracing frame on described base, be arranged on the transmission device on support frame as described above, what be connected with described transmission device puts drum, with the described correcting rod put drum and be rotationally connected, and the motor be connected respectively with described transmission device and code device; Described transmission device comprises and the described rotating spindle put drum and described correcting rod and be rotationally connected, and is arranged on the clutch shaft bearing on described rotating spindle and described code device, and is arranged on the second bearing on described rotating spindle; Described code device is gathered information when described cable drives correcting rod to rotate by said structure and is fed back to described motor in synchrony and rotates backward.

2. automatically put cable apparatus as claimed in claim 1, it is characterized in that, described base is roughly interior empty van body structure, its first connecting panel having four vertical pillar stiffeners, the first stay bearing plate be connected with the upper end of described four pillar stiffeners and be connected with described four pillar stiffener lower ends; Described pillar stiffener, described first stay bearing plate and described first connecting panel surround a receiving space jointly to accommodate described motor and described code device.

3. automatically put cable apparatus as claimed in claim 2, it is characterized in that, the bottom of described pillar stiffener is connected with the supporting pad of a circle to increase the whole stability of strutting system automatically putting cable apparatus; On described first stay bearing plate, extendedly there is back-up block the position of corresponding described four pillar stiffeners in order to support support frame as described above respectively to upper, the midway location of described first stay bearing plate offers perforate, and described linkage section stretches out and puts drum with described and described correcting rod is connected from described perforate.

4. automatically put cable apparatus as claimed in claim 3, it is characterized in that, described in the volume ratio of support frame as described above, the volume of base is little, it comprises four root posts, connects the second connecting panel of described four root post lower ends, and is connected to described four root post upper ends and the second stay bearing plate be supported on described back-up block; The area of described second stay bearing plate is greater than the area of described first stay bearing plate, the upper end of described four root posts is extended out and is connected by screw with described first stay bearing plate from the perforate of described first stay bearing plate, the position of the corresponding described back-up block of surrounding of described first stay bearing plate is provided with tapped bore, described second stay bearing plate and described column and described first stay bearing plate to be fixed together by screw, on described second stay bearing plate, the position of opening of corresponding described first stay bearing plate is also provided with opening.

5. automatically put cable apparatus as claimed in claim 4, it is characterized in that, describedly put drum roughly in cylindrical-shaped structure, it comprises the first dish portion, the second dish portion relative with described first dish portion, and is connected to and puts line portion between described first dish portion and described second dish portion; The described radial diameter of putting line portion diameter radially and being less than described first dish portion and described second dish portion, the described axial length put line portion and be greater than described first dish portion and described second dish portion along the length of its axis, described putting in line portion is wound with cable, described in put drum midway location along its be axially provided with from bottom to top run through successively described first dish portion, described in put the center drilling in the center of circle in line portion and described second dish portion.

6. automatically put cable apparatus as claimed in claim 5, it is characterized in that, described correcting rod comprises base bar, dwang, foot piece and slide block; Described base bar is arranged along the radial diameter direction being parallel to described first dish portion, described slide block set is connected on described base bar, described dwang one end is connected with described slide block, the other end is connected with described code device through described center drilling and is contained in the receiving space of support frame as described above, one end of described foot piece through described base bar, the other end be wrapped in described in the tail end of cable put in line portion be connected.

7. automatically put cable apparatus as claimed in claim 6, it is characterized in that, described code device comprises coder main shaft, coder and turning cylinder bearing; Described coder main shaft is arranged in described turning cylinder bearing, and is connected with described dwang and described second connecting panel respectively by described clutch shaft bearing, and described coder is connected to the lower end of described coder main shaft.

8. automatically put cable apparatus as claimed in claim 7, it is characterized in that, also comprise and be connected to support frame as described above and the described pallet put between drum, described rotating spindle is roughly in " ten " font structure, the upper part of its axis is placed in described center drilling, and the lower part of its axis is contained in the receiving space of support frame as described above; Described rotating spindle is provided with axial aperture to accommodate described dwang and described code device along the centre of its axis, and the radial part of described rotating spindle is arranged between described second stay bearing plate and described pallet.

9. automatically put cable apparatus as claimed in claim 8, it is characterized in that, described transmission device also comprises bearing mounting base, jam nut, the first gear and the second gear; Described bearing mounting base is placed in the receiving space of support frame as described above, described second bearing is installed on described rotating spindle and described bearing mounting base two ends, described first gear be arranged on described rotating spindle axial lower part and with described second gears meshing, the diameter of described first gear is greater than the diameter of described second gear, described jam nut locking is between described rotating spindle and described first gear, and described second gear is connected with described motor.

10. automatically put cable apparatus as claimed in claim 7, it is characterized in that, described rotating spindle radially comprises the first radial part and the second radial part, the diameter of described first radial part is less than the diameter of described second radial part, described first radial part is contained in the opening of described second stay bearing plate, described second radial part is carried on the upper surface of described second stay bearing plate, one of them clutch shaft bearing is installed between the upper part of described dwang and described rotating spindle, another clutch shaft bearing is installed between described rotating spindle and described coder main shaft, described coder main shaft is placed in the axial aperture of described rotating spindle.