CN205997379U - Taper composite material electric pole reducing type tinuous production - Google Patents

Abstract

The utility model discloses a kind of taper composite material electric pole reducing type tinuous production, and the effect of reducing mold is wound for fiber；One group of axial cloth yarn component and ring cloth yarn component is provided with outside reducing mold；Axial cloth yarn component and the ring cloth yarn component left side are provided with the device that is heating and curing, and its effect is heating and curing by fiber herein and resin；Cutter sweep is located at the device left side that is heating and curing, and its effect is will to be cut by the composite material electric pole left part at the cutter sweep.Mould in this production line can make each the position reducing on supporting steel wire axial direction, so that the supporting steel wire part deformation being wrapped in outside revolution steel wire, continuous production so can be achieved with, this mould using when match with cutter sweep, the composite material electric pole most left part of continuous prolongation can be cut, so as to the conical composite material electric pole of next design length, thus production efficiency is greatly improved, effectively reduces production cost.

Description

Taper composite material electric pole reducing type tinuous production

Technical field

The utility model belongs to tapered electric pole production field, and more particularly to a kind of taper composite material electric pole reducing type is continuous Production line.

Background technology

Taper composite material electric pole is a kind of with extensive electric pole, and it is strong that it has structural strength height, resistance to corrosion Advantage.The existing taper composite material electric pole mode of production is using single mould, winds fiber, fiber outside single mould Curing and demolding, so as to form single tapered electric pole.

The shortcoming of the existing mode of production is：Single electric pole can only once be produced, it is impossible to continuous production, low production efficiency, and Production cost is high.

Utility model content

Technical problem to be solved in the utility model is that providing a kind of taper composite material electric pole reducing type continuously gives birth to Producing line, is intended to continuously produce tapered electric pole.

The technical solution of the utility model is as follows：A kind of taper composite material electric pole reducing type tinuous production, its feature It is：Including reducing mold (M) and cutter sweep (Q), wherein reducing mold (M) includes that fixed frame (1) and supporting steel wire are followed Being rotatably assorted on ring mechanism, wherein fixed frame (1) has a rotary frame (2), and rotary frame (2) can be in rotary drive assembly Drive lower rotation；The center of rotary frame (2) is rotatably assorted a main shaft (3), and the main shaft passes through reverse drive group Part is connected with the fixed frame (1), and main shaft (3) is static with respect to rotary frame (2)；Main shaft (3) left end is coaxially solid Surely there is a sleeve pipe (4), pushing block (5) being set with sleeve pipe right part, the pushing block is slidably matched with sleeve pipe (4)；Described pushing block (5) are right The bearing at end is while be rotatably assorted with the card of cam disc (6), the cam disc is fixing with the rotary frame (2), so that pushing away Block (5) can be moved to the left under cam disc (6) effect；Pushing block (5) right-hand member is while by returning pull-spring (7) and link (8) it is connected, the left end of the link and the main shaft (3) is coaxially fixed, and returning pull-spring (7) moves to left can pushing block (5) to put in place Reset to the right afterwards；

M looping pit is evenly distributed on the sleeve pipe (4) on pushing block (5) left side, these looping pits are in same plane On, and a looping pit group is formed, and the annular in the n looping pit group that be axially arranged with along sleeve pipe (4), and each looping pit group Hole site is relative, and is equipped with a push-rod assembly in the looping pit in each described sleeve pipe (4) respectively；Main shaft (3) A camshaft (9) is coaxially equipped with the central hole of sleeve pipe (4), the camshaft is rotated with main shaft (3) and sleeve pipe (4) joins Close, and camshaft (9) right-hand member is fixedly connected with the rotary frame (2) by connector (10), so as to drive camshaft to follow Rotary frame (2) rotates together；Cam on camshaft (9) and end in contact in corresponding push-rod assembly, so that same All push-rod assemblies in individual looping pit group are synchronously moved radially, and the push-rod assembly in all looping pit groups is synchronously moved radially When formed a conical structure；

Circumferentially arranged with X root revolution steel wire (11) in described sleeve pipe (4), the revolution steel wire is located at two servo-actuated revolutions and props up Between support wheel (12), the two revolving support wheels are on sleeve pipe (4)；Per revolution steel wire (11) described in root also cross sleeve pipe (4) via at left and right end, so that the half of revolution steel wire (11) is drained to outside sleeve pipe (4), and turns round exposing for steel wire (11) Part is supported by corresponding push-rod assembly outer end in the n looping pit group；One is tied with outside X root revolution steel wire (11) Spiral supporting steel wire (13), the supporting steel wire can be moved to the left under the pushing block (5) is promoted, and supporting steel wire (13) is left Pass through the supporting steel wire cycling mechanism return after moving on to sleeve pipe (4) left end, and rewind to the pushing block (5) place；

One group of axial cloth yarn component (Z) and ring cloth yarn component is provided with outside supporting steel wire (13) in described sleeve pipe (4) (H), these axial cloth yarn component (Z) and ring cloth yarn component (H) axially arranged along sleeve pipe (4), its effect be by these Outside the supporting steel wire (13) of axial cloth yarn component (Z) and ring cloth yarn component (H) arrangement be impregnated with resin axial direction fibre and Ring fiber；

Axial cloth yarn component (Z) and ring cloth yarn component (H) left side are provided with the device that is heating and curing, and its effect is heating Solidification makes fiber and resin solidification outside the supporting steel wire (13) by fiber herein and resin, so that heating is solid The supporting steel wire (13) on the gasifying device left side is upper to form the composite material electric pole for constantly extending to the left；Described constantly extend to the left answer Condensation material electric pole is supported on one group of floating support device (ZC), and the floating support device can guarantee that constantly extended to the left is combined Material electric pole axial line level, and the composite material electric pole to constantly extending to the left carries out circumferencial direction and horizontal direction is oriented to；

Cutter sweep (Q) is located at the device left side that is heating and curing, and its effect is to pass through being combined at the cutter sweep Material electric pole left part is cut, so as to cut the taper composite material electric pole of design length.

In technique scheme, rotary frame (2) rotates always, while making main shaft and sleeve pipe (4) with respect to whirler Frame (2) is static, and camshaft (9) is rotated always with respect to rotary frame (2)；Rotary frame (2) follows can supporting steel wire (13) Ring is wrapped in outside revolution steel wire (11), so that the supporting steel wire (13) being wrapped in outside revolution steel wire (11) serves as mould. Also, camshaft (9) can drive each the position reducing on supporting steel wire (13) axial direction, so that being wrapped in revolution steel wire (11) Supporting steel wire (13) the part deformation of outside forms cone, the cone always for left large and right small or left small and right large, and always Continuous switching between these two states, so can be achieved with continuous production.

The effect of axial cloth yarn component (Z) and ring cloth yarn component (H) is to arrange outside supporting steel wire (13) to be impregnated with The axial direction fibre of resin and ring fiber, the device that is heating and curing on axial cloth yarn component (Z) and ring cloth yarn component (H) left side Be heating and curing by fiber herein and resin, fiber and resin solidification is made outside the supporting steel wire (13), so that plus The supporting steel wire (13) on the thermal-curable system left side is upper to form the composite material electric pole for constantly extending to the left；Described constantly extend to the left Composite material electric pole be supported on one group of floating support device, the floating support device can guarantee that constantly extend to the left compound Material electric pole axial line level, and the composite material electric pole to constantly extending to the left carries out circumferencial direction and horizontal direction is oriented to； Cutter sweep (Q) will be cut by the composite material electric pole left part at the cutter sweep, so as to cut the taper of design length Composite material electric pole, and the conical electric pole structure that cuts every time and length identical.

Using above technical scheme, the mould in this production line can make each the position reducing on supporting steel wire axial direction, from And make the supporting steel wire part deformation outside revolution steel wire is wrapped in, and then this part supporting steel wire is made left large and right small or left little Continuously switch between right big cone, continuous production is so can be achieved with, and the continuous composite material electric pole for extending is formed, and This mould using when match with cutter sweep, the composite material electric pole most left part of continuous prolongation can be cut, so as to next The conical composite material electric pole of root design length, and the conical electric pole structure that cuts every time and length identical, thus greatly Width improves production efficiency, effectively reduces production cost；Also, the mould features compact structure, floor space in this production line are little, Space thus significantly can be saved.

Used as preferred design of the present utility model, the push-rod assembly includes push rod (15) and steel wire support wheel (17), wherein push rod (15) is slidably matched with the via in described sleeve pipe (4), on the inner and camshaft (9) of the push rod Cam contact；Push rod (15) inner end is set with one and holds out against spring (16), and this holds out against the inner of spring and push rod (15) the step surface contact of inner end, holds out against the outer end of spring and the contact internal walls of described sleeve pipe (4)；

The rotating shaft of steel wire support wheel (17) is installed on the outer end of push rod (15), the steel wire support wheel and the revolution steel The exposed portion contact of silk (11).

Using above structure design, camshaft (9) radially moves reliably push rod (15) when rotating, and by pushing away The steel wire support wheel (17) of bar (15) outer end withstands revolution steel wire (11), so that the corresponding site of revolution steel wire (11) does radially Mobile, and then realize reducing.Also, it is that the steel wire support wheel (17) for making push rod (15) outer end is pushed up always to hold out against spring (16) effect Firmly revolution steel wire (11), so as to prevent the exposed portion that turns round steel wire (11) with turn round steel wire (11) from disengaging.In this enforcement In example, the simple structure of push-rod assembly, compact, reliability height, it is easy to manufacture.

Important optimization as this case is designed, and the supporting steel wire cycling mechanism includes arc tensioning plate (18) and directive wheel (20), the arc top of wherein arc tensioning plate (18) is towards the right side, and the arc tensioning plate is located on the right of connector (10), and by many Individual guide rod spring assembly is connected with connector (10), and arc tensioning plate (18) can be moved to right in guide rod spring assembly effect bottom left Dynamic；After supporting steel wire (13) move left to sleeve pipe (4) left end, then pass through the centre bore of the camshaft (9), and with described The right panel face contact of arc tensioning plate (18), secondly through the endoporus of curved pipe (19), and by curved pipe (19) endoporus side by side The directive wheel (20) clamping for arranging and guiding, finally rewind at the pushing block (5) place.

Using above structure design, supporting steel wire cycling mechanism can reliably make supporting steel wire realize circulation, so as to more preferable Ground supports supporting steel wire (13), so as to be impregnated with the fiber of resin uniformly, be effectively wrapped around outside supporting steel wire (13), and then Taper composite material electric pole is produced by subsequent handling.Certainly, in concrete manufacture process, other structures form can also be adopted Supporting steel wire cycling mechanism, it is not limited to the preferred structure described in the present embodiment.

In the present case, the rotary drive assembly includes motor (21) and external toothing (22), wherein motor (21) it is fixed on the fixed frame (1), the gear in the driving motor output shaft is often engaged with the external toothing (22), should External toothing is coaxial with the rotary frame (2) fixing.

Using drive component is rotated above, simple structure, part are few, and reliable transmission.

Preferably, the reverse drive component includes ring gear (23) and the 4th swing pinion, wherein ring gear (23) Coaxially be fixed on the fixed frame (1), the ring gear is often engaged with the first swing pinion (24), first swing pinion with Second swing pinion (25) coaxial package is in the first rotary shaft (26)；Second swing pinion (25) and the 3rd swing pinion (27) often engage, the 3rd swing pinion is solidly set in the second rotary shaft (28), and first and second rotary shaft respectively rotational support On the rotary frame (2)；4th swing pinion (29) is often engaged with the 3rd swing pinion (27), the 4th rotary teeth Wheel is solidly set on the main shaft (3).

Using above structure, it is not only simple in structure, reliable transmission, and compact conformation, it is easy to arrangement and manufacture.Certainly, In concrete manufacture process, the present embodiment can also be not limited only to using the reverse drive component of other structures form Described structure.

Preferably, being equipped with axial cloth yarn component (Z) and ring cloth yarn component (H) on each pedestal (30)；Described Axial cloth yarn component (Z) includes mounting seat (31) and motor (33), and wherein mounting seat (31) is arranged on pedestal (30) On, being rotatably assorted in the center in the hole of mounting seat has a rotation seat (32), and the rotation seat is by transmission component and the driving Motor (33) is connected, and the motor is on pedestal (30)；The centre bore of rotation seat (32) is worn for mould shaft Cross, have on the rotation seat and servo-actuated yarn guiding wheel (40) is installed on radial direction yarn passing hole, and the mounting seat (31)；

The ring cloth yarn component (H) includes that annular rotation seat (34) and ring cotton yarn tape install wheel (36), and wherein annular turns Dynamic seat (34) bottom is rotatably assorted with one group of support wheel on the pedestal (30), and the annular rotation seat can be in the band for driving combination Dynamic lower rotation；Circumferentially arranged with one group of trunnion axis (35), the trunnion axis axial line and the mould on annular rotation seat (34) The axis parallel of tool axle, trunnion axis (35) right part are rotatably assorted with annular rotation seat (34)；The ring cotton yarn tape installs wheel (36) trunnion axis (35) left part is sleeved on, and the trunnion axis left end is set with one axially to be determined for installing wheel (36) to ring cotton yarn tape The positioning disk of position.

Using above structure design, the outer surface that axial cloth yarn component (Z) can be by axial direction fibre along mould shaft is arranged, And ring cloth yarn component (H) is then twist arranged in ring fiber on mould shaft, and each fibrage is for individually axially Fibrage or ring fibrage, are not arranged crosswise, and axial direction fibre layer and the fibrolaminar number of plies of ring are according to axial cloth yarn The logarithm of component (Z) and ring cloth yarn component (H) determines.Also, the composite material electric pole produced using said structure has been contained Holoaxial to fiber, thus can improve the tensile property of composite material electric pole further.

Beneficial effect：Mould in this production line can make each the position reducing on supporting steel wire axial direction, so that winding Supporting steel wire part deformation outside revolution steel wire, and then this part supporting steel wire is made in circle left large and right small or left small and right large Continuously switch between taper, continuous production is so can be achieved with, and the continuous composite material electric pole for extending is formed, and this mould makes Used time is matched with cutter sweep, can cut the composite material electric pole most left part of continuous prolongation, is grown so as to next design The conical composite material electric pole of degree, and the conical electric pole structure that cuts every time and length identical, be thus greatly improved Production efficiency, effectively reduces production cost；Also, the mould features compact structure, floor space in this production line are little, thus can Space is significantly saved.

Description of the drawings

Fig. 1 is structural representation of the present utility model.

Fig. 2 is the schematic diagram of reducing mold in Fig. 1.

Fig. 3 is the scheme of installation for turning round steel wire in Fig. 2.

Fig. 4 is the scheme of installation of axial cloth yarn component in Fig. 1.

Fig. 5 is the scheme of installation of ring cloth yarn component in Fig. 1.

Specific embodiment

The utility model is described in further detail with reference to the accompanying drawings and examples：

As Fig. 1 -- shown in 5, a kind of taper composite material electric pole reducing type tinuous production, mainly by fixed frame 1, rotation Favourable turn frame 2, main shaft 3, sleeve pipe 4, pushing block 5, cam disc 6, returning pull-spring 7, link 8, camshaft 9, connector 10, revolution steel wire 11st, revolving support wheel 12, supporting steel wire 13, push-rod assembly, supporting steel wire cycling mechanism and reverse drive component are constituted.Wherein, A rotary frame 2 is coaxially provided with fixed frame 1, and the rotary frame 2 is rotatably assorted with fixed frame 1 by bearing.Rotation Frame 2 is connected with rotary drive assembly, and can be rotated under the drive of rotary drive assembly.In the present case, rotary drive assembly Including motor 21 and external toothing 22, wherein motor 21 is fixed on fixed frame 1, on 21 output shaft of motor Gear often engage with external toothing 22, the external toothing 22 is coaxially fixed with rotary frame 2.When motor 21 works, drive Rotary frame 2 is rotated.

The center of rotary frame 2 is rotatably assorted by bearing a main shaft 3, and the main shaft 3 is by being driven reverse component It is connected with fixed frame 1, and main shaft 3 is static with respect to rotary frame 2.In the present case, being driven reverse component includes ring gear 23 With the 4th swing pinion, wherein ring gear 23 is coaxially fixed on fixed frame 1, and the ring gear 23 is normal with the first swing pinion 24 Engagement, first swing pinion 24 and 25 coaxial package of the second swing pinion are in the first rotary shaft 26.Second swing pinion 25 Often engage with the 3rd swing pinion 27, the 3rd swing pinion 27 is solidly set in the second rotary shaft 28, and 26 He of the first rotary shaft Second rotary shaft 28 is respectively rotatably supported on rotary frame 2 by bearing.4th swing pinion 29 and the 3rd swing pinion 27 normal engagements, the 4th swing pinion 29 are solidly set on main shaft 3.

As shown in Figure 1, 2, the left end of main shaft 3 is coaxially fixed with a sleeve pipe 4, is set with pushing block 5 in 4 right part of sleeve pipe, should Pushing block 5 is slidably matched with sleeve pipe 4 by plane bearing, and pushing block 5 can be moved left and right.The bearing of 5 right-hand member of pushing block at the same with convex The card of wheel disc 6 is rotatably assorted, and the cam disc 6 is fixed with rotary frame 2, so that pushing block 5 can be under cam disc 6 be acted on to the left Mobile.5 right-hand member of pushing block is connected with link 8 by returning pull-spring 7 simultaneously, and the left end of the link 8 and main shaft 3 is coaxially fixed. The effect of returning pull-spring 7 is so that pushing block 5 is resetted, and is resetted to the right after pushing block 5 is moved to left and put in place under the effect of returning pull-spring 7.

M looping pit is evenly distributed on the sleeve pipe 4 on 5 left side of pushing block, these looping pits at grade, and are formed One looping pit group.In the present case, m is positive integer, and the number of m is more, may be selected to be 10,20 and 30 etc..Along sleeve pipe 4 The annular hole site being axially arranged with n looping pit group, and each looping pit group is relative, and the looping pit on each sleeve pipe 4 Middle it is equipped with a push-rod assembly respectively.In the present case, n is positive integer, and the number of n is more, may be selected to be 10,20 and 30 Deng.

In the present case, push-rod assembly includes push rod 15 and steel wire support wheel 17, and wherein push rod 15 is slided with the via on sleeve pipe 4 Dynamic cooperation, the cam contact on the inner of the push rod and camshaft 9.15 inner end of push rod is set with one and holds out against spring 16, should The inner for holding out against spring 16 is contacted with the step surface of 15 inner end of push rod, holds out against the outer end of spring 16 and the contact internal walls of sleeve pipe 4. The rotating shaft of steel wire support wheel 17 is installed on the outer end of push rod 15, and the steel wire support wheel is contacted with the exposed portion of revolution steel wire 11.

The central hole of main shaft 3 and sleeve pipe 4 is coaxially equipped with a camshaft 9, and the camshaft 9 is while by bearing and master Axle 3 and sleeve pipe 4 are rotatably assorted, and 9 right-hand member of camshaft is fixedly connected with rotary frame 2 by connector 10, so as to band moving cam Axle 9 follows the Integral synchronous rotation together of rotary frame 2.Cam on camshaft 9 and end in contact in corresponding push-rod assembly, so as to The all push-rod assemblies in same looping pit group are made synchronously to move radially, and the push-rod assembly synchronization footpath in all looping pit groups To one conical structure of formation during movement.

It should be noted that the cam on camshaft and end in contact in corresponding push-rod assembly, so that same annular All push-rod assemblies of Kong Zuzhong are synchronously moved radially, and are formed when the push-rod assembly in all looping pit groups is synchronously moved radially One conical structure, prior art can be realized forming a circle when push-rod assembly in all looping pit groups is synchronously moved radially Pyramidal structure.

Can be seen that from Fig. 1,2, supporting steel wire cycling mechanism includes arc tensioning plate 18 and directive wheel 20, wherein arc tensioning Towards the right side, the arc tensioning plate 18 is located at 10 the right of connector on the arc top of plate 18, and by multiple guide rod spring assemblies and connector 10 are connected, and arc tensioning plate 18 can be moved left and right under the effect of guide rod spring assembly.Supporting steel wire 13 moves left to 4 left end of sleeve pipe Afterwards, the centre bore of camshaft 9 is then passed through, and is contacted with the right panel face of arc tensioning plate 18, secondly through the interior of curved pipe 19 Hole, and clamped and be oriented to by the directive wheel 20 being arranged side by side in 19 endoporus of curved pipe, finally rewind at pushing block 5.

Steel wire 11 is turned round circumferentially arranged with X root on sleeve pipe 4, the revolution steel wire 11 is located at two servo-actuated revolving support wheels 12 Between, the two revolving support wheels 12 are on sleeve pipe 4.Per root, revolution steel wire 11 is also cross 4 left end of sleeve pipe and right-hand member Via, so that the half of revolution steel wire 11 drains to 4 outside of sleeve pipe, and turns round the exposed portion of steel wire 11 by n looping pit group In corresponding push-rod assembly outer end support.11 outside of X root revolution steel wire is tied with a spiral supporting steel wire 13, the supporting steel Silk 13 can be moved to the left under pushing block 5 is promoted, and supporting steel wire 13 passes through supporting steel wire cycling mechanism after moving left to 4 left end of sleeve pipe Return, and 11 outside of revolution steel wire at pushing block 5 is rewinded to, and 13 outside of supporting steel wire is impregnated with resin for winding Fiber.

As can be seen from Figure 1,13 outside of supporting steel wire on sleeve pipe 4 is provided with one group of axial direction cloth yarn component Z and ring cloth yarn group Part H, these axial cloth yarn component Z and ring cloth yarn component H are axially arranged along sleeve pipe 4, and its effect is to pass through these axial cloth The 13 outside arrangement of supporting steel wire of yarn component Z and ring cloth yarn component H is impregnated with axial direction fibre and the ring fiber of resin.Axially Cloth yarn component Z and the ring cloth yarn component H left side are provided with the device that is heating and curing, its effect be heating and curing by fiber herein and Resin, makes fiber and resin solidification in 13 outside of supporting steel wire, so that shape on the supporting steel wire 13 on the device left side that is heating and curing Become the composite material electric pole for constantly extending to the left.The composite material electric pole for constantly extending to the left is supported on one group of floating support device On ZC, floating support device ZC can guarantee that the composite material electric pole axial line level for constantly extending to the left, and to constantly to the left The composite material electric pole of prolongation carries out circumferencial direction and horizontal direction is oriented to.Cutter sweep Q is located at the device left side that is heating and curing, its Effect is will to be cut by the composite material electric pole left part at the cutter sweep, so as to cut the taper composite wood of design length Material electric pole.It should be noted that the structure of floating support device ZC and cutter sweep Q adopts prior art.

Can be seen that from Fig. 1,4 and 5, on each pedestal 30, be equipped with axial cloth yarn component Z and ring cloth yarn component H.Axle Include mounting seat 31 and motor 33 to cloth yarn component Z, wherein mounting seat 31 is arranged on pedestal 30, at the center of mounting seat In the hole is rotatably assorted a rotation seat 32, and the rotation seat is connected with motor 33 by transmission component, the motor peace It is mounted on pedestal 30；The centre bore of rotation seat 32 is passed through for mould shaft, has radial direction yarn passing hole, and mounting seat 31 on the rotation seat On servo-actuated yarn guiding wheel 40 is installed.

Ring cloth yarn component H includes that annular rotation seat 34 and ring cotton yarn tape install wheel 36, wherein annular 34 bottom of rotation seat It is rotatably assorted with one group of support wheel on pedestal 30, the annular rotation seat can be rotated under the drive for driving combination.Annular is rotated Circumferentially arranged with one group of trunnion axis 35 on seat 34, the axis parallel of the trunnion axis axial line and mould shaft, 35 right part of trunnion axis It is rotatably assorted with annular rotation seat 34.Ring cotton yarn tape is installed wheel 36 and is sleeved on 35 left part of trunnion axis, and the trunnion axis left end is set with One positioning disk for being used for installing ring cotton yarn tape 36 axially positions of wheel.

Preferred embodiment of the present utility model is the foregoing is only, not with the utility model as limiting, all at this Any modification, equivalent and improvement that is made within the spirit and principle of utility model etc., should be included in the utility model Protection domain within.

Claims (6)

1. a kind of taper composite material electric pole reducing type tinuous production, it is characterised in that：Including reducing mold (M) and cutting dress Put (Q), wherein reducing mold (M) includes fixed frame (1) and supporting steel wire cycling mechanism, wherein fixed frame (1) is upper rotates A rotary frame (2) is combined with, rotary frame (2) can be rotated under rotary drive assembly drives；Rotary frame (2) Center is rotatably assorted a main shaft (3), and the main shaft is connected with the fixed frame (1) by being driven reverse component, and main Axle (3) is static with respect to rotary frame (2)；Main shaft (3) left end is coaxially fixed with a sleeve pipe (4), in sleeve pipe right part set Equipped with pushing block (5), the pushing block is slidably matched with sleeve pipe (4)；The bearing of pushing block (5) right-hand member disk simultaneously with cam disc (6) Face is rotatably assorted, and the cam disc is fixing with the rotary frame (2), so that pushing block (5) can be under cam disc (6) effect to the left Mobile；Pushing block (5) right-hand member is connected with link (8) by returning pull-spring (7) simultaneously, the link and the main shaft (3) Left end coaxially fix, and returning pull-spring (7) can make pushing block (5) move to left the right reset backward that puts in place；

M looping pit has been evenly distributed on the sleeve pipe (4) on pushing block (5) left side, these looping pits at grade, and One looping pit group of formation, and the annular hole position in the n looping pit group that be axially arranged with along sleeve pipe (4), and each looping pit group Put relatively, and in the looping pit in each described sleeve pipe (4), be equipped with a push-rod assembly respectively；Main shaft (3) and set The central hole of pipe (4) is coaxially equipped with a camshaft (9), and the camshaft is rotatably assorted with main shaft (3) and sleeve pipe (4), and Camshaft (9) right-hand member is fixedly connected with the rotary frame (2) by connector (10), so as to drive camshaft to follow whirler Frame (2) rotates together；Cam on camshaft (9) and end in contact in corresponding push-rod assembly, so that same annular All push-rod assemblies of Kong Zuzhong are synchronously moved radially, and are formed when the push-rod assembly in all looping pit groups is synchronously moved radially One conical structure；

Circumferentially arranged with X root revolution steel wire (11) in described sleeve pipe (4), the revolution steel wire is located at two servo-actuated revolving support wheels (12), between, the two revolving support wheels are on sleeve pipe (4)；Per revolution steel wire (11) described in root also cross sleeve pipe (4) The via at left and right end, so that the half of revolution steel wire (11) is drained to outside sleeve pipe (4), and turns round the exposed division of steel wire (11) Divide and supported by corresponding push-rod assembly outer end in the n looping pit group；A spiral shell is tied with outside X root revolution steel wire (11) The supporting steel wire (13) of rotation shape, the supporting steel wire can be moved to the left under the pushing block (5) is promoted, and supporting steel wire (13) is moved to left Pass through the supporting steel wire cycling mechanism return to after sleeve pipe (4) left end, and rewind to the pushing block (5) place；

One group of axial cloth yarn component (Z) and ring cloth yarn component (H) is provided with outside supporting steel wire (13) in described sleeve pipe (4), These axial cloth yarn component (Z) and ring cloth yarn component (H) are axially arranged along sleeve pipe (4), and its effect is to pass through these axial directions Outside the supporting steel wire (13) of cloth yarn component (Z) and ring cloth yarn component (H), arrangement is impregnated with axial direction fibre and the ring of resin Fiber；

Axial cloth yarn component (Z) and ring cloth yarn component (H) left side are provided with the device that is heating and curing, and its effect is to be heating and curing By fiber herein and resin, fiber and resin solidification is made outside the supporting steel wire (13), so that the dress that is heating and curing The supporting steel wire (13) for putting the left side above forms the composite material electric pole for constantly extending to the left；The composite wood for constantly extending to the left Material electric pole is supported on one group of floating support device (ZC), and the floating support device can guarantee that the composite for constantly extending to the left Electric pole axial line level, and the composite material electric pole to constantly extending to the left carries out circumferencial direction and horizontal direction is oriented to；

Cutter sweep (Q) is located at the device left side that is heating and curing, and its effect is to pass through the composite at the cutter sweep Electric pole left part is cut, so as to cut the taper composite material electric pole of design length.

2. taper composite material electric pole reducing type tinuous production according to claim 1, it is characterised in that：The push rod Component includes push rod (15) and steel wire support wheel (17), and wherein push rod (15) is slidably matched with the via in described sleeve pipe (4), Cam contact on the inner and camshaft (9) of the push rod；Push rod (15) inner end is set with one and holds out against spring (16), the inner for holding out against spring is contacted with the step surface of push rod (15) inner end, holds out against outer end and the described sleeve pipe (4) of spring Contact internal walls；

The rotating shaft of steel wire support wheel (17) is installed on the outer end of push rod (15), the steel wire support wheel and the revolution steel wire (11) exposed portion contact.

3. taper composite material electric pole reducing type tinuous production according to claim 1, it is characterised in that：The support Steel wire cycling mechanism includes arc tensioning plate (18) and directive wheel (20), the wherein arc top of arc tensioning plate (18) towards the right side, the arc Shape tensioning plate is located on the right of connector (10), and is connected with connector (10) by multiple guide rod spring assemblies, and arc Tensioning plate (18) can be moved left and right under the effect of guide rod spring assembly；After supporting steel wire (13) move left to sleeve pipe (4) left end, The centre bore of the camshaft (9) is then passed through, and is contacted with the right panel face of arc tensioning plate (18), secondly pass through arc The endoporus of pipe (19), and by the directive wheel (20) clamping being arranged side by side in curved pipe (19) endoporus and be oriented to, again finally It is wrapped in the pushing block (5) place.

4. taper composite material electric pole reducing type tinuous production according to claim 1, it is characterised in that：The rotation Drive component includes motor (21) and external toothing (22), and wherein motor (21) is fixed on the fixed frame (1), Gear in the driving motor output shaft is often engaged with the external toothing (22), and the external toothing is coaxial with the rotary frame (2) Fixing.

5. taper composite material electric pole reducing type tinuous production according to claim 1, it is characterised in that：The reversion Drive component includes ring gear (23) and the 4th swing pinion, and wherein ring gear (23) is coaxially fixed on the fixed frame (1) On, the ring gear is often engaged with the first swing pinion (24), first swing pinion and the second swing pinion (25) coaxial package In the first rotary shaft (26)；Second swing pinion (25) are often engaged with the 3rd swing pinion (27), the 3rd rotary teeth Wheel is solidly set in the second rotary shaft (28), and first and second rotary shaft is respectively rotatably supported on the rotary frame (2)；Institute State the 4th swing pinion (29) often to engage with the 3rd swing pinion (27), the 4th swing pinion is solidly set on the main shaft (3).

6. taper composite material electric pole reducing type tinuous production according to claim 1, it is characterised in that：Each base Axial cloth yarn component (Z) and ring cloth yarn component (H) is equipped with seat (30)；Described axial cloth yarn component (Z) includes mounting seat (31) and motor (33), wherein mounting seat (31) is rotated in the center in the hole of mounting seat on pedestal (30) A rotation seat (32) is combined with, the rotation seat is connected with the motor (33) by transmission component, the motor peace It is mounted on the pedestal (30)；The centre bore of rotation seat (32) is passed through for mould shaft, has radially and cross yarn on the rotation seat Servo-actuated yarn guiding wheel (40) is installed on hole, and the mounting seat (31)；

The ring cloth yarn component (H) includes that annular rotation seat (34) and ring cotton yarn tape install wheel (36), wherein annular rotation seat (34) bottom is rotatably assorted with one group of support wheel on the pedestal (30), and the annular rotation seat can be under the drive for driving combination Rotate；Circumferentially arranged with one group of trunnion axis (35), the trunnion axis axial line and the mould shaft on annular rotation seat (34) Axis parallel, trunnion axis (35) right part is rotatably assorted with annular rotation seat (34)；The ring cotton yarn tape installs wheel (36) set Trunnion axis (35) left part is mounted in, and the trunnion axis left end is set with one to be determined for wheel (36) axially position is installed to ring cotton yarn tape Position disk.