CN109761105A - A kind of construction anchoring for cable disk unwrapping wire - Google Patents
A kind of construction anchoring for cable disk unwrapping wire Download PDFInfo
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- CN109761105A CN109761105A CN201910216116.1A CN201910216116A CN109761105A CN 109761105 A CN109761105 A CN 109761105A CN 201910216116 A CN201910216116 A CN 201910216116A CN 109761105 A CN109761105 A CN 109761105A
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Abstract
The invention belongs to field of electricity construction, more particularly to a kind of construction anchoring for cable disk unwrapping wire, it includes shell, the first transmission shaft, active delivery wheel, driven delivery wheel and hold-down mechanism etc., wherein the transmission axis hole bearing fit in the first transmission shaft and shell side;After motor of the anchoring in electrical drive module in the present invention shuts down, since contact roller and active delivery wheel are to cable extrusion, so that cable is not easy to be pulled, avoids cable and pulled back and cause the influence to ongoing power construction;When active delivery wheel is after stopping rotating, reset spring, which releases energy, can make driven delivery wheel continue to rotate some angles along its former direction of rotation, so that being partially in relaxed state between active delivery wheel and driven delivery wheel on cable;Avoid the damage that exceptionally straight cable occurs when being stretched moment, guarantee cable it is effective be laid with and power construction after cable safe load work.
Description
Technical field
The invention belongs to field of electricity construction more particularly to a kind of construction anchorings for cable disk unwrapping wire.
Background technique
During cable laying construction traditional at present, cable is pulled to convey electricity into cable shaft generally by manpower
Cable, manpower pull the large labor intensity of cable, and the physical strength of people limits the speed for pulling cable, and working efficiency is very low;Cable
After disk broadcasts stopping, on the one hand, cable disk may occur to turn round take-up movement under unintentionally external force, and cause in electricity
The cable being laid in cable well is pulled back, and going on smoothly for cable laying is unfavorable for, to influence the construction speed of cable laying;
On the other hand, the cable disk of revolution is to the exceptionally straight stretching of the moment of cable so that cable is being damaged to a certain degree, influence with
Safe handling and service life afterwards;And the cable that moment is pulled back is exceptionally straight in moment, it may be to the personnel near cable
It damages.The present invention design a kind of construction anchoring for cable disk unwrapping wire solve the problems, such as it is as above.
Summary of the invention
To solve drawbacks described above in the prior art, the present invention discloses a kind of construction bracing wire dress for cable disk unwrapping wire
It sets, it adopts the following technical solutions to realize.
In the description of the present invention it should be noted that the indicating positions such as term "inner", "lower", "upper" or positional relationship
For orientation based on the figure perhaps positional relationship or the invention product using when the orientation or position usually put
Relationship, it is only for convenient for the description present invention and simplify description, rather than the equipment of indication or suggestion meaning or element are necessary
It constructs or operates with specific orientation, with specific orientation, therefore be not considered as limiting the invention.In addition, term
" first ", " second " etc. are only used for distinguishing description, are not understood to indicate or imply relative importance.
A kind of construction anchoring for cable disk unwrapping wire, it is characterised in that: it include shell, the first transmission shaft,
First gear, active delivery wheel, the first swing rod, second driving shaft, second gear, rotary damper, the first leaf spring, fixed block,
Third gear, the first rack gear, transmitting article, the second rack gear, the 4th gear, one-way clutch, third transmission shaft, first trapezoidal are led
Item, reset spring, idler wheel, electrical drive module, firm banking, driven delivery wheel, hold-down mechanism, wherein the first transmission shaft and outer
Transmission axis hole bearing fit on shell-side face is fixedly mounted on the electrical drive module on the face of outer side of shell by firm banking
Output shaft and the first transmission axis connection;Active delivery wheel and first gear are coaxially packed in the first transmission shaft is located in shell one
End, and first gear is between active delivery wheel and transmission axis hole;One end and the first transmission on first swing rod with axis hole
The bearing fit of axis is equipped with rotary damper on the side of the other end;The outer ring of rotary damper and the first swing rod are connected,
Inner ring and second driving shaft one end are interference fitted;One end on second driving shaft with rotary damper cooperation is not fixedly installed with the
Two gears, and second gear is engaged with first gear;First swing rod is by the first leaf spring and is fixedly mounted on outer casing inner wall
Fixed block connection.
Third gear is mounted on outer casing inner wall by the axis of bearing fit therewith, and is cooperated with second gear;Upper surface
The transmitting item level for being equipped with the first rack gear and the second rack gear is slidably mounted in shell, and the first rack gear be located above the
The engagement of three gears;4th gear and driven delivery wheel are installed inside the shell by third transmission shaft, and the 4th gear and under being located at
The second rack gear engagement of side;It is bearing fit between driven delivery wheel and third transmission shaft;Driven delivery wheel and active delivery wheel
In same vertical plane;Two idler wheels pass through the axis installation of bearing fit therewith inside the shell respectively, and are located at driven
The two sides of delivery wheel and active delivery wheel;Two idler wheels and active delivery wheel are located in same vertical plane;Both ends respectively with transmitting
The reset spring that end face is connected with outer casing inner wall resets the movement of transmitting item.
Be fixedly mounted inside the shell and be located at active delivery wheel below hold-down mechanism in two compressions rotated freely
It takes turns to carry out the cable for being wound in active delivery wheel lower edge and compress.
As the further improvement of this technology, above-mentioned hold-down mechanism include U-shaped bottom seat, the second swing rod, contact roller, sliding sleeve,
The lower end of link block, the second trapezoidal conducting bar, pedal, the second leaf spring, the second symmetrical swing rod of two of them is hinged by pin,
And the both ends of pin are connected with two inner walls of U-shaped bottom seat respectively;The upper end of each second swing rod is fitted with rotatable
Idler wheel, and the centerline axis parallel of the central axis of idler wheel and the swivel pin of two the second swing rod lower ends;Two sliding sleeves lead to respectively
Nested mode is crossed to be slidably mounted on two the second swing rods;Two sliding sleeves are symmetrical, and cut with scissors respectively with the both ends of link block
It connects;To thorough installation there are two the second trapezoidal conducting bar on the side of link block, and two the second trapezoidal conducting bars slide on respectively it is U-shaped
On base side wall in two symmetrical the second trapezoidal guide grooves;Be fixedly installed in pedal vertical sliding on link block side in
In second sliding slot on U-shaped base side wall.
As the further improvement of this technology, the first trapezoidal guide groove of horizontal direction is provided on above-mentioned outer casing inner wall.
As the further improvement of this technology, it is fixedly installed with the first trapezoidal conducting bar on the side of above-mentioned transmitting rack gear, passes
Pass item being slidably installed on the inner wall of shell by the first trapezoidal conducting bar and the first trapezoidal guide groove.
As the further improvement of this technology, when above-mentioned third gear is engaged with the end teeth of the first rack gear, the 4th
Gear is still engaged with the second rack gear.
As the further improvement of this technology, above-mentioned reset spring is extension spring.
As the further improvement of this technology, it is provided on the side opposite with the side for being provided with transmission axis hole on above-mentioned shell
First sliding groove.
As the further improvement of this technology, pedal is fixedly installed on the side of above-mentioned link block, pedal sequentially passes through U
First sliding groove in second sliding slot and shell side on type pedestal stretches out shell and in vertical sliding and first sliding groove.
As the further improvement of this technology, above-mentioned two second leaf spring is in confined state always;In original state,
It is close to simultaneously with the cylindrical surface of active delivery wheel on the cylindrical surface of two contact rollers.
As the further improvement of this technology, the cylindrical surface of above-mentioned active delivery wheel, driven delivery wheel, idler wheel and contact roller
On all have annular inner concave arc surface.
Drawing cable line apparatus in the present invention is mainly used for the laying work of large-sized cable.
The one end for the cable being wound on cable disk in the present invention enters bottom from the idler wheel for being located at driven delivery wheel side
Seat shell, cable successively bypass the lower part of the idler wheel positioned at driven delivery wheel side, the top of driven delivery wheel and actively convey
Between wheel and contact roller, further around the top for crossing the idler wheel positioned at active delivery wheel side and enter in cable well.
Rotary damper in the present invention is the prior art, and the rotary damper in the present invention is preferably based on high viscosity damping
The damper of oil, the rotary damper is with no deterioration, using reliable;The damper of such principle is widely used in
Automobile industry, such as the safety handle on automobile;The effect of rotary damper in the present invention is: during power construction, needing
When wanting bracing wire, power on so that electrical drive module drives first gear rotation by the first transmission shaft;Due to damping due to rotation
The presence of device, second gear will not generate the rotation around second driving shaft, and the rotation of first gear passes through be engaged with second
Gear, second driving shaft and rotary damper drive the first swing rod to be driven axial third gearing around first and make the second tooth
Wheel engages with third gear and establishes drive connection, and the first leaf spring is by compression and energy storage;Electrical drive module output shaft passes through
First gear and second gear pass to third gear, and third gear passes through the first rack drives transmitting item and the second rack gear edge again
First trapezoidal guide groove sliding, reset spring is stretched and energy storage;At the end of bracing wire, Switching power, so that electrical drive module
Output shaft by the first transmission shaft drive first gear reversely rotate very little angle, then cut off the power;It is anti-in first gear
During rotation, due to the presence of rotary damper, the rotation of first gear not will drive second gear around the second transmission
The central axis of axis rotates;First gear drives first by the second gear of not rotation, second driving shaft and rotary damper
Swing rod is swung up around the first transmission shaft;Reset spring makes transmitting item that the first rack gear be driven to start to engage with third gear, the
The rotation of one rack drives third gear;At this point, the direction of rotation of third gear is identical as the reverse rotation direction of first gear, more
Be conducive to second gear and be detached from third gear rapidly;During bracing wire, due to the presence of rotary damper, first gear passes through
Drive connection is established between second gear and third gear;After bracing wire, the common work of rotary damper and the first leaf spring
It is cut off, is avoided in transmitting reseting procedure, the rotation of third gear with the transmission made between first gear and third gear
Turn the interference for the first gear stopped rotating without being capable of resetting.
The coefficient of elasticity of reset spring in the present invention is very big, and reset spring energy stored after deformation occurs is enough to lead to
It crosses transmitting item, the second rack gear, driven delivery wheel and cable and pulls cable disk rotation;Since large-sized cable is located at driven delivery wheel
Top and matched, so the self weight of large-sized cable is so that the frictional force between cable and driven delivery wheel is sufficiently large;When
It is completely stretched and when the reset spring after energy storage starts to release energy, the very big reset spring of coefficient of elasticity is enough to pass through transmitting
Item, the second rack gear, driven delivery wheel and cable pull cable disk to be pivoted, so that being located at active delivery wheel on cable
Part between driven delivery wheel relaxes, and reserves certain cable surplus for cable construction;If temporary in this device
After stopping working, the larger external force generated for various reasons the cable having been pulled out is pullled or it is heavier and
Weight with corner angle is pounded to the hanging part for the cable having been pulled out from above falling;Under the effect of external force, it actively conveys
Cable slack between wheel and driven delivery wheel gradually conveys its surplus length outward, makees to external force or weight to the impact of cable
It is buffered with being formed, reducing external force moment is straightened cable and the destruction caused by cable, avoids the corner angle on the weight to fall to electricity
The damage of cable crust guarantees that effective laying of cable and power construction carry out safely.
Relative to traditional anchoring, motor of the anchoring in electrical drive module in the present invention shuts down
Afterwards, cable does not continue to release from cable disk, and two contact rollers can be pressed against cable;When cable disk is in intentional nothing
Revolution and to when returning winding cable under the external force of meaning, since contact roller and active delivery wheel are to cable extrusion, so that cable
It is not easy to be pulled, and then prevents the revolution of cable disk, avoids the cable in cable shaft and pulled back and caused pair
The influence of ongoing power construction, while also avoiding the moment cable tightened of being pulled back and neighbouring personnel are caused to hurt
Evil;When active delivery wheel is after stopping rotating, reset spring, which releases energy, can be such that driven delivery wheel continues along its former rotation side
To some angles of rotation;Since the larger self weight of cable is so that still remain very big friction between cable and driven delivery wheel
Power, so partial cables are pulled out from cable disk along the driven delivery wheel that small angle rotation is continued to occur in former direction of rotation, from
And to be partially in relaxed state between active delivery wheel and driven delivery wheel on cable.After stopping bracing wire,
Cable disk through stopping rotating turns round under external force consciously or unconsciously;Positioned at active delivery wheel and driven delivery wheel
Between the cable in relaxed state pulled back and be gradually tauted by cable disk, the cable of relaxed state alleviates revolution
Cable reel avoids the damage that exceptionally straight cable occurs when being stretched moment, guarantees having for cable to the tensile impact of cable
The safe load work of cable after effect laying and power construction;The configuration of the present invention is simple has preferable using effect.
Detailed description of the invention
Fig. 1 is construction anchoring schematic diagram.
Fig. 2 is that third gear, the first rack gear, transmitting article, the second rack gear, the 4th gear and one-way clutch cooperation section show
It is intended to.
Fig. 3 is that shell, the first transmission shaft, the first swing rod, rotary damper, second gear and first gear cooperation section show
It is intended to.
Fig. 4 is cable, idler wheel, active delivery wheel, hold-down mechanism and driven delivery wheel cooperation diagrammatic cross-section.
Fig. 5 is the first swing rod, rotary damper, second driving shaft and second gear cooperation schematic diagram.
Fig. 6 is the first swing rod, rotary damper, second driving shaft and second gear cooperation diagrammatic cross-section.
Fig. 7 is that the first transmission shaft, the first swing rod, rotary damper, second driving shaft, the first leaf spring and fixed block cooperation are cutd open
Face schematic diagram.
Fig. 8 is third gear, the first rack gear, transmitting article, the second rack gear, the 4th gear and one-way clutch cooperation signal
Figure.
Fig. 9 is housing perspectives schematic diagram.
Figure 10 is shell section schematic diagram.
Figure 11 is hold-down mechanism schematic diagram.
Figure 12 is hold-down mechanism diagrammatic cross-section.
Figure 13 is sliding sleeve, the second swing rod, link block, pedal and U-shaped base engagement diagrammatic cross-section.
Figure 14 is U-shaped base schematic diagram.
Figure 15 is hold-down mechanism internal drive schematic diagram.
Figure label title: 1, shell;2, first sliding groove;3, the first trapezoidal guide groove;4, transmission axis hole;5, the first transmission
Axis;6, first gear;7, active delivery wheel;8, the first swing rod;9, second driving shaft;10, second gear;11, rotary damper;
12, the first leaf spring;13, fixed block;14, third gear;15, the first rack gear;16, item is transmitted;17, the second rack gear;18, the 4th tooth
Wheel;19, one-way clutch;20, third transmission shaft;21, the first trapezoidal conducting bar;22, reset spring;23, idler wheel;24, electronic drive
Dynamic model block;25, firm banking;26, driven delivery wheel;27, hold-down mechanism;28, U-shaped bottom seat;29, the second trapezoidal guide groove;30,
Two sliding slots;31, the second swing rod;32, contact roller;33, sliding sleeve;34, link block;35, the second trapezoidal conducting bar;36, pedal;37,
Two leaf springs;38, cable disk;39, cable.
Specific embodiment
Attached drawing is the schematic diagram that the present invention is implemented, in order to understand structure operation logic.Specific product structure and ratio
Size is determined according to use environment combination routine techniques.
As shown in Figure 1, 2, it include shell 1, the first transmission shaft 5, first gear 6, active delivery wheel 7, the first swing rod 8,
Second driving shaft 9, second gear 10, rotary damper 11, the first leaf spring 12, fixed block 13, third gear 14, the first rack gear
15, it transmits article the 16, second rack gear 17, the 4th gear 18, one-way clutch 19, third transmission shaft 20, the first trapezoidal conducting bar 21, answer
Position spring 22, idler wheel 23, electrical drive module 24, firm banking 25, driven delivery wheel 26, hold-down mechanism 27, wherein such as Fig. 3 institute
Show, the first transmission shaft 5 and 4 bearing fit of transmission axis hole on 1 side of shell are fixedly mounted on shell 1 by firm banking 25
The output shaft of electrical drive module 24 on lateral surface is connect with the first transmission shaft 5;As shown in Figure 1, 2, 3, active delivery wheel 7 with
First gear 6 is coaxially packed in one end that the first transmission shaft 5 is located in shell 1, and first gear 6 is located at 7 He of active delivery wheel
Between transmission axis hole 4;As shown in Fig. 5,7, one end and 5 bearing fit of the first transmission shaft on the first swing rod 8 with axis hole are another
Rotary damper 11 is installed on the side at end;As shown in fig. 6, the outer ring of rotary damper 11 and the first swing rod 8 are connected, in
Circle is interference fitted with 9 one end of second driving shaft;As shown in Fig. 3,5,6, do not cooperate with rotary damper 11 on second driving shaft 9
One end is fixedly installed with second gear 10, and second gear 10 is engaged with first gear 6;As shown in fig. 7, the first swing rod 8 passes through
First leaf spring 12 is connect with the fixed block 13 being fixedly mounted on 1 inner wall of shell.
As shown in Fig. 2, third gear 14 is mounted on 1 inner wall of shell by the axis of bearing fit therewith, and with the second tooth
10 cooperation of wheel;As shown in Figure 7,8, upper surface is equipped with the first rack gear 15 and 16 level of transmitting item of the second rack gear 17 is slidably installed
In in shell 1, and the first rack gear 15 is engaged with the third gear 14 being located above;As shown in Figure 1, 2, the 4th gear 18 and driven
Delivery wheel 26 is mounted in shell 1 by third transmission shaft 20, and the 4th gear 18 is engaged with underlying second rack gear 17;
As shown in Fig. 2, being bearing fit between driven delivery wheel 26 and third transmission shaft 20;As shown in Figure 1, driven delivery wheel 26 and master
Dynamic delivery wheel 7 is located in same vertical plane;Two idler wheels 23 are mounted in shell 1 by the axis of bearing fit therewith respectively, and
It is located at the two sides of driven delivery wheel 26 and active delivery wheel 7;Two idler wheels 23 and active delivery wheel 7 are located at same vertical plane
It is interior;As shown in Fig. 2, the fortune for 22 pairs of the reset spring transmitting items 16 that both ends are connect with transmitting 16 end face of item and 1 inner wall of shell respectively
It is dynamic to be resetted.
As shown in figure 4, being fixedly mounted in shell 1 and being located at two in the hold-down mechanism 27 of 7 lower section of active delivery wheel
The contact roller 32 rotated freely is carried out the cable 39 for being wound in 7 lower edge of active delivery wheel and is compressed.
As shown in Figure 11,12, above-mentioned hold-down mechanism 27 include U-shaped bottom seat 28, the second swing rod 31, contact roller 32, sliding sleeve 33,
Link block 34, the second trapezoidal conducting bar 35, pedal 36, the second leaf spring 37, wherein as shown in figure 12, two the second symmetrical pendulum
The lower end of bar 31 is hinged by pin, and the both ends sold are connected with two inner walls of U-shaped bottom seat 28 respectively;As shown in figure 15, each
The upper end of second swing rod 31 is fitted with rotatable idler wheel 23, and the central axis of idler wheel 23 and two the second swing rods 31
The centerline axis parallel of the swivel pin of lower end;As shown in Figure 12,13, two sliding sleeves 33 are slidably installed by way of nested respectively
In on two the second swing rods 31;As shown in Figure 13,15, two sliding sleeves 33 are symmetrical, and cut with scissors respectively with the both ends of link block 34
It connects;To thorough installation, there are two the second trapezoidal conducting bars 35 on the side of link block 34, and two the second trapezoidal conducting bars 35 are slided respectively
It moves in two the second trapezoidal guide grooves 29 symmetrical on 28 side wall of U-shaped bottom seat;As shown in figure 11, it is fixedly installed in link block
36 vertical sliding of pedal on 34 sides is in the second sliding slot 30 on 28 side wall of U-shaped bottom seat.
As shown in Figures 9 and 10, the first trapezoidal guide groove 3 of horizontal direction is provided on above-mentioned 1 inner wall of shell.
As shown in figure 8, be fixedly installed with the first trapezoidal conducting bar 21 on the side of above-mentioned transmitting rack gear, transmitting article 16 passes through the
One trapezoidal conducting bar 21 and the first trapezoidal guide groove 3 are slidably installed on the inner wall of shell 1.
As shown in Fig. 2, the 4th gear 18 is still when above-mentioned third gear 14 is engaged with the end teeth of the first rack gear 15
It is engaged with the second rack gear 17.
As shown in Fig. 2, above-mentioned reset spring 22 is extension spring.
As shown in Figures 9 and 10, first sliding groove is provided on side opposite with the side for being provided with transmission axis hole 4 on above-mentioned shell 1
2。
As shown in figure 3, being fixedly installed with pedal 36 on the side of above-mentioned link block 34, pedal 36 sequentially passes through U-shaped bottom seat
First sliding groove 2 on 1 side of second sliding slot 30 and shell on 28 stretches out shell 1 and in vertical sliding and first sliding groove 2.
As shown in figure 12, above-mentioned two second leaf spring 37 is in confined state always;In original state, two contact rollers
It is close to simultaneously with the cylindrical surface of active delivery wheel 7 on 32 cylindrical surface.
As shown in Figure 1, above-mentioned active delivery wheel 7, driven delivery wheel 26, idler wheel 23 and contact roller 32 cylindrical surface on all have
There is the inner concave arc surface of annular.
Drawing 39 line apparatus of cable in the present invention is mainly used for the laying work of large-sized cable 39.
As shown in figure 4, the one end for the cable 39 being wound on cable disk 38 in the present invention is from positioned at driven delivery wheel 26
The idler wheel 23 of side enters base shell 1, cable 39 successively around positioned at the lower part of the idler wheel 23 of driven 26 side of delivery wheel, from
Between the top and active delivery wheel 7 and contact roller 32 of dynamic delivery wheel 26, further around the idler wheel 23 crossed positioned at 7 side of active delivery wheel
Top and enter cable well in.
Rotary damper 11 in the present invention is the prior art, and the rotary damper 11 in the present invention is preferably based on high viscosity
The damper of damping oil, the rotary damper 11 is with no deterioration, using reliable;The damper of such principle is extensive
Applied to automobile industry, such as the safety handle on automobile;The effect of rotary damper 11 in the present invention is: when power construction mistake
Cheng Zhong when needing bracing wire, powers on so that electrical drive module 24 drives first gear 6 to rotate by the first transmission shaft 5;By
In the presence of rotary damper 11, second gear 10 will not generate the rotation around second driving shaft 9, and the rotation of first gear 6 is logical
Cross the second gear 10 being engaged with, second driving shaft 9 and rotary damper 11 drive the first swing rod 8 around the first transmission shaft 5 to
Third gear 14 swings and second gear 10 is engaged with third gear 14 and establishes drive connection, and the first leaf spring 12 is compressed
And energy storage;24 output shaft of electrical drive module passes to third gear 14, third tooth by first gear 6 and second gear 10
Wheel 14 drives transmitting item 16 and the second rack gear 17 to slide along the first trapezoidal guide groove 3 by the first rack gear 15 again, 22 quilt of reset spring
Stretch simultaneously energy storage;At the end of bracing wire, Switching power, so that the output shaft of electrical drive module 24 passes through 5 band of the first transmission shaft
Dynamic first gear 6 reversely rotates very little angle, then cuts off the power;During first gear 6 reversely rotates, due to rotation
The presence of damper 11, the rotation of first gear 6 not will drive second gear 10 and rotate around the central axis of second driving shaft 9;
First gear 6 drives the first swing rod 8 around first by the second gear 10 of not rotation, second driving shaft 9 and rotary damper 11
Transmission shaft 5 is swung up;Reset spring 22 makes transmitting item 16 that the beginning of the first rack gear 15 be driven to engage with third gear 14, and first
Rack gear 15 drives third gear 14 to rotate;At this point, the reverse rotation direction phase of the direction of rotation of third gear 14 and first gear 6
Together, it is more advantageous to second gear 10 and is detached from third gear 14 rapidly;During bracing wire, due to the presence of rotary damper 11,
First gear 6 is by establishing drive connection between second gear 10 and third gear 14;After bracing wire, rotary damper 11
With the collective effect of the first leaf spring 12 transmission between first gear 6 and third gear 14 is cut off, avoids in transmitting item
In 16 reseting procedures, the interference for the first gear 6 that the rotation of third gear 14 has been stopped rotating is without being capable of resetting.
The coefficient of elasticity of reset spring 22 in the present invention is very big, the energy foot stored after deformation occurs of reset spring 22
To pull cable disk 38 to rotate by transmitting item 16, the second rack gear 17, driven delivery wheel 26 and cable 39;Due to large-sized cable
39 are located at the top of driven delivery wheel 26 and matched, so the self weight of large-sized cable 39 is so that cable 39 and driven delivery wheel
Frictional force between 26 is sufficiently large;When the reset spring 22 being completely stretched and after energy storage starts to release energy, coefficient of elasticity is very
Big reset spring 22 is enough to pull cable disk 38 by transmitting item 16, the second rack gear 17, driven delivery wheel 26 and cable 39
It is pivoted, so that the part on cable 39 between active delivery wheel 7 and driven delivery wheel 26 relaxes, for electricity
The construction of cable 39 reserves certain 39 surplus of cable;If after this device temporarily ceases work, generate for various reasons compared with
Big external force the cable having been pulled out is pullled or heavier and weight with corner angle from above fall pound to by
The hanging part of the cable of pull-out;Under the effect of external force, the cable slack 39 between active delivery wheel 7 and driven delivery wheel 26
Its surplus length is gradually conveyed outward, and buffering is formed to the percussion of cable 39 to external force or weight, reduces the drawing of external force moment
Straight cable 39 and to being destroyed caused by cable 39, avoid damage of the corner angle to 39 crust of cable on the weight to fall, guarantee electricity
Effective laying of cable 39 and power construction carry out safely.
Workflow of the invention: in the initial state, two the second leaf springs 37 in hold-down mechanism 27, which are in, to be compressed
State, so that the active delivery wheel 7 being located above is close in two 32 top edges of contact roller in hold-down mechanism 27 simultaneously
Lower edge;Deformation occurs for reset spring 22.
Under original state, second gear 10 does not engage with third gear 14, is conducive to mitigate electricity in electrical drive module 24
Machine starts born load, so that the motor quick start in electrical drive module 24 and reaching certain revolving speed.
When needing to pull cable 39 using the device of the invention during power construction, trampled downwards with foot positioned at shell
Pedal 36 on 1 side, the link block 34 that pedal 36 drives both ends to be all hinged with sliding sleeve 33 are moved downward along second sliding slot 30, are pacified
Two sliding sleeves 33 mounted in 34 both ends of link block are simultaneously along corresponding second swing rod, 31 slide downward;Due between two sliding sleeves 33
Constant distance, so two sliding sleeves 33 moved downward drive two upper ends to be equipped with the second swing rod 31 of contact roller 32 respectively
It swings sideward respectively around hinge joint between the two dynamic, two contact rollers 32 are detached from the active delivery wheel 7 being located above and phase
It is mutually separated by a distance, two the second leaf springs 37 are compressed and store energy;Then, the cable being wrapped on cable disk 38
It is defeated that 39 one end successively bypasses the lower part of idler wheel 23 positioned at driven 26 side of delivery wheel, the top of driven delivery wheel 26 and active
Position between wheel 7 and two contact rollers 32 is sent, enters cable 39 positioned at the top of the idler wheel 23 of 7 side of active delivery wheel further around crossing
In well, the part that cable 39 is contacted with active delivery wheel 7, driven delivery wheel 26 and idler wheel 23 be located at active delivery wheel 7, from
In annular inner concave arc surface on dynamic 23 cylindrical surface of delivery wheel 26 and idler wheel;Then the pressure being applied on pedal 36 is removed again,
Under the action of two the second leaf springs 37, inner concave arc surface on two 32 cylindrical surfaces of contact roller is to being wrapped in 7 lower section of active delivery wheel
Cable 39 compressed, make the force of sliding friction between cable 39 and active delivery wheel 7 enough to provide enough pressure
Greatly.
Then power on, the output shaft in electrical drive module 24 drives the first coaxial tooth by the first transmission shaft 5
Wheel 6 and 7 synchronous rotary of active delivery wheel, the rotary damper 11 being nested on second driving shaft 9 play damping action, rotation resistance
Buddhist nun's device 11 prevents first gear 6 from driving second gear 10 that rotation occurs by second driving shaft 9;Due to pair of rotary damper 11
The rotation of second gear 10 plays damping action, so first gear 6 not will drive second gear 10 and occur around second driving shaft 9
The rotation of central axis;First gear 6 drives the first swing rod 8 by second gear 10, second driving shaft 9 and rotary damper 11
It is swung around the first transmission shaft 5 to third gear 14, the first leaf spring 12 is by compression and energy storage;When second gear 10 is in the first swing rod 8
Drive under when meeting and engage with third gear 14, the deformation quantity of the first leaf spring 12 reaches maximum.
Under the collective effect of the first leaf spring 12 and third gear 14, the first swing rod 8 does not continue to swing, second gear 10
Position be fixed, first gear 6 starts to overcome the damping action of rotary damper 11 to drive second gear 10 and the second transmission
9 synchronous rotary of axis;Second gear 10 drives third gear 14 to rotate, and third gear 14 passes through the first rack gear 15, transmitting 16 and of item
Second rack gear 17 drives the rotation of the 4th gear 18, and reset spring 22 is stretched and energy storage;The direction of rotation of 4th gear 18 and the
The direction of rotation of one gear 6 is opposite;At this point, one-way clutch 19 does not play driving effect, the 4th gear 18 will not be by unidirectional
Clutch 19 and third transmission shaft 20 drive driven 26 synchronous rotary of delivery wheel;When the end of the first rack gear 15 and third gear 14
When engagement, third gear 14 continues rotation and can persistently stir the last one teeth of 15 end of the first rack gear, to make first
Rack gear 15 maintains the state, and the second rack gear 17 is still engaged with the 4th gear 18, and the deformation quantity of reset spring 22 reaches maximum.
At the same time, the electricity that active delivery wheel 7 drives winding to squeeze on it and by two contact rollers 32 by frictional force
Cable 39 conveys outward from cable disk 38, and cable 39 drives driven delivery wheel 26 to rotate and direction of rotation and active by frictional force
Delivery wheel 7 is on the contrary, driven delivery wheel 26 is opposite with coaxial 18 direction of rotation of the 4th gear;Due to one-way clutch 19 at this time
Driving effect is not played, so the rotation of driven delivery wheel 26 is not affected by the interference of the 4th coaxial gear 18, so that resetting bullet
The movement of the auxiliary conveying cable of the energy storage movement and driven delivery wheel 26 of spring 22 carries out simultaneously.
At the end of the cable 39 in 39 well of cable is laid with, Switching power, so that the output shaft of electrical drive module 24 is logical
Crossing the first transmission shaft 5 drives the slightly direction of first gear 6 to rotate very little angle, the active delivery wheel 7 of the first transmission shaft 5 it is reversed
Rotation can be ignored, and pulled 39 amplitude of cable of the reversion of active delivery wheel 7 is very small under this state, hardly to
The cable 39 of pull-out impacts;During 6 low-angle of first gear reversely rotates, first gear 6 passes through second gear
10, second driving shaft 9 and rotary damper 11 drive the first swing rod 8 to be swung up around the first transmission shaft 5;Reset spring 22 makes
Transmitting item 16 drives the beginning of the first rack gear 15 to engage with third gear 14, and the first rack gear 15 drives third gear 14 to rotate;At this point,
The direction of rotation of third gear 14 is identical as the reverse rotation direction of first gear 6, and second gear 10 is detached from rapidly third gear
14;Then it cuts off the power, the first gear 6 and active delivery wheel 7 being mounted on the first transmission shaft 5 are stopped rotating, and are actively conveyed
Wheel 7 no longer pulls the cable 39 on cable disk 38 to convey into 39 well of cable, and driven delivery wheel 26 stops rotating;In the first plate
Under the action of spring 12, the first swing rod 8 by rotary damper 11 and second driving shaft 9 drives second gear 10, and gently backswing is extremely
Initial position, under the action of first gear 6 rotation occurs for second gear 10 in the process.
Under the action of reset spring 22, the mobile transmission item resetted drives third gear 14 to continue instead through the first rack gear 15
To rotation, the second rack gear 17 drives the 4th gear 18 to reversely rotate;Since one-way clutch 19 at this time starts to play driving work
With so the 4th gear 18 reversely rotated drives driven delivery wheel 26 synchronous by one-way clutch 19 with third transmission shaft 20
Rotation;Since cable 39 is wrapped in the top of driven delivery wheel 26, so existing between cable 39 and driven delivery wheel 26 very big
Frictional force;The driven delivery wheel 26 of rotation continues to pull cable 39 from cable disk 38, so that being located on cable 39 actively defeated
Send the part between wheel 7 and driven delivery wheel 26 that relaxation takes place.
When reset spring 22 releases energy and restores to the original state completely, item 16 is transmitted together with the first rack gear 15 and the second rack gear
17 return to initial position together;Driven delivery wheel 26 pulls 39 certain length of cable, so that being located at active delivery wheel 7 on cable 39
Part between driven delivery wheel 26 generates relaxation to greatest extent, avoids the cable disk 38 turned round under external force right
The tensile impact of cable 39 and the damage for making paired cable 39, and then extend the service life of cable 39 and guarantee to make after installation
With safety.
In conclusion beneficial effects of the present invention: motor of the anchoring in electrical drive module 24 in the present invention
After shutting down, cable 39 does not continue to release from cable disk 38, and two contact rollers 32 can be pressed against cable 39;When
Cable disk 38 turned round under external force consciously or unconsciously and to return winding cable 39 when, due to contact roller 32 and actively convey
It takes turns 7 pairs of cables 39 to squeeze, so that cable 39 is not easy to be pulled, and then prevents the revolution of cable disk 38, avoids and be located at
Cable 39 in 39 well of cable is pulled back and causes the influence to ongoing power construction, while also avoiding being returned by moment
The cable 39 tightened is drawn to damage neighbouring personnel;When active delivery wheel 7 is after stopping rotating, reset spring 22 discharges energy
Amount can make driven delivery wheel 26 continue to rotate some angles along its former direction of rotation;Since the larger self weight of cable 39 is so that electricity
Very big frictional force is still remained between cable 39 and driven delivery wheel 26, so continuing that small angle rotation occurs along former direction of rotation
Driven delivery wheel 26 partial cables 39 are pulled out from cable disk 38 so that on cable 39 be located at active delivery wheel 7 with
Relaxed state is partially between driven delivery wheel 26.After stopping bracing wire, the cable disk 38 to have stopped rotating is having
It is turned round under unintentionally external force of anticipating;Between active delivery wheel 7 and driven delivery wheel 26 in relaxed state
Cable 39 is pulled back and be gradually tauted by cable disk 38, and the cable 39 of relaxed state alleviates 39 disk of cable of revolution to cable
39 tensile impact avoids the damage that exceptionally straight cable 39 occurs when being stretched moment, guarantees effective laying of cable 39
And the safe load of cable 39 works after power construction.
The present invention is not only suitable for cable, is also suitable for optical cable, optoelectronic composite cable, even rope class, spinning class etc..
Claims (10)
1. a kind of construction anchoring for cable disk unwrapping wire, it is characterised in that: it includes shell, the first transmission shaft,
One gear, active delivery wheel, the first swing rod, second driving shaft, second gear, rotary damper, the first leaf spring, fixed block,
Three gears, the first rack gear, transmitting article, the second rack gear, the 4th gear, one-way clutch, third transmission shaft, the first trapezoidal conducting bar,
Reset spring, idler wheel, electrical drive module, firm banking, driven delivery wheel, hold-down mechanism, wherein the first transmission shaft and shell
Transmission axis hole bearing fit on side is fixedly mounted on the defeated of the electrical drive module on the face of outer side of shell by firm banking
Shaft and the first transmission axis connection;Active delivery wheel and first gear are coaxially packed in the first transmission shaft is located in shell one
End, and first gear is between active delivery wheel and transmission axis hole;One end and the first transmission on first swing rod with axis hole
The bearing fit of axis is equipped with rotary damper on the side of the other end;The outer ring of rotary damper and the first swing rod are connected,
Inner ring and second driving shaft one end are interference fitted;One end on second driving shaft with rotary damper cooperation is not fixedly installed with the
Two gears, and second gear is engaged with first gear;First swing rod is by the first leaf spring and is fixedly mounted on outer casing inner wall
Fixed block connection;
Third gear is mounted on outer casing inner wall by the axis of bearing fit therewith, and is cooperated with second gear;Upper surface installation
There is the transmitting item level of the first rack gear and the second rack gear to be slidably mounted in shell, and the first rack gear and the third tooth being located above
Wheel engagement;4th gear and driven delivery wheel are installed inside the shell by third transmission shaft, and the 4th gear with it is underlying
The engagement of second rack gear;It is bearing fit between driven delivery wheel and third transmission shaft;Driven delivery wheel is located at active delivery wheel
In same vertical plane;Two idler wheels pass through the axis installation of bearing fit therewith inside the shell respectively, and are located at driven conveying
The two sides of wheel and active delivery wheel;Two idler wheels and active delivery wheel are located in same vertical plane;Both ends respectively with transmitting item end
The reset spring that face is connected with outer casing inner wall resets the movement of transmitting item;
Be fixedly mounted inside the shell and be located at active delivery wheel below hold-down mechanism in two contact rollers pair rotated freely
The cable for being wound in active delivery wheel lower edge, which is carried out, to be compressed.
2. a kind of construction anchoring for cable disk unwrapping wire according to claim 1, it is characterised in that: the pressure
Tight mechanism includes U-shaped bottom seat, the second swing rod, contact roller, sliding sleeve, link block, the second trapezoidal conducting bar, pedal, the second leaf spring, wherein
The lower end of two the second symmetrical swing rods is hinged by pin, and the both ends sold are connected with two inner walls of U-shaped bottom seat respectively;
The upper end of each second swing rod is fitted with rotatable idler wheel, and the central axis of idler wheel and two the second swing rod lower ends
Swivel pin centerline axis parallel;Two sliding sleeves are slidably mounted on two the second swing rods by way of nested respectively;Two
A sliding sleeve is symmetrical, and hinged with the both ends of link block respectively;It is symmetrically installed on the side of link block trapezoidal there are two second
Conducting bar, and two the second trapezoidal conducting bars are slided on respectively in two the second trapezoidal guide grooves symmetrical on U-shaped base side wall;Gu
Dingan County is loaded on the pedal vertical sliding on link block side in the second sliding slot on U-shaped base side wall.
3. according to claim 1 or a kind of construction anchoring for cable disk unwrapping wire as claimed in claim 2, feature
It is: is provided with the first trapezoidal guide groove of horizontal direction on the outer casing inner wall.
4. a kind of construction anchoring for cable disk unwrapping wire according to claim 1 or 3, it is characterised in that: institute
It states and is fixedly installed with the first trapezoidal conducting bar on the side of transmitting rack gear, transmitting item passes through the first trapezoidal conducting bar and the first trapezoidal guide groove
Be slidably installed on the inner wall of shell.
5. according to claim 1 or a kind of construction anchoring for cable disk unwrapping wire as claimed in claim 2, feature
Be: when the third gear is engaged with the end teeth of the first rack gear, the 4th gear is still engaged with the second rack gear.
6. according to claim 1 or a kind of construction anchoring for cable disk unwrapping wire as claimed in claim 2, feature
Be: the reset spring is extension spring.
7. according to claim 1 or a kind of construction anchoring for cable disk unwrapping wire as claimed in claim 2, feature
It is: is provided with first sliding groove on the side opposite with the side for being provided with transmission axis hole on the shell.
8. according to claim 1 or a kind of construction anchoring for cable disk unwrapping wire as claimed in claim 2, feature
It is: is fixedly installed with pedal on the side of the link block, pedal sequentially passes through second sliding slot and shell side on U-shaped bottom seat
First sliding groove on face stretches out shell and in vertical sliding and first sliding groove.
9. according to claim 1 or a kind of construction anchoring for cable disk unwrapping wire as claimed in claim 2, feature
Be: described two second leaf springs are in confined state always;In original state, the cylindrical surface of two contact rollers simultaneously with master
It is close on the cylindrical surface of dynamic delivery wheel.
10. according to claim 1 or a kind of construction anchoring for cable disk unwrapping wire as claimed in claim 2, special
Sign is: the active delivery wheel, driven delivery wheel, idler wheel and contact roller cylindrical surface on all there is the inner concave arc surface of annular.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201910216116.1A CN109761105A (en) | 2019-03-21 | 2019-03-21 | A kind of construction anchoring for cable disk unwrapping wire |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201910216116.1A CN109761105A (en) | 2019-03-21 | 2019-03-21 | A kind of construction anchoring for cable disk unwrapping wire |
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Publication Number | Publication Date |
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CN109761105A true CN109761105A (en) | 2019-05-17 |
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ID=66458563
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201910216116.1A Withdrawn CN109761105A (en) | 2019-03-21 | 2019-03-21 | A kind of construction anchoring for cable disk unwrapping wire |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110212455A (en) * | 2019-06-25 | 2019-09-06 | 浙江冠林机械有限公司 | For the method for laying wires when a kind of overhead transmission line |
CN110759167A (en) * | 2019-11-08 | 2020-02-07 | 湖南盛世电线电缆有限公司 | Tension machine of active pay-off fine winding machine for wire and cable production |
-
2019
- 2019-03-21 CN CN201910216116.1A patent/CN109761105A/en not_active Withdrawn
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110212455A (en) * | 2019-06-25 | 2019-09-06 | 浙江冠林机械有限公司 | For the method for laying wires when a kind of overhead transmission line |
CN110759167A (en) * | 2019-11-08 | 2020-02-07 | 湖南盛世电线电缆有限公司 | Tension machine of active pay-off fine winding machine for wire and cable production |
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Application publication date: 20190517 |