CN111924728A - Oil applying protective device for steel wire rope of building tower crane - Google Patents

Abstract

The invention discloses an oiling protection device for a steel wire rope of a building tower crane, which comprises a main hollow shell. The invention is arranged in the tower crane, can oil and remove dust on the rope body of the steel wire rope to be pulled, thereby protecting the steel wire rope, prolonging the service life of the steel wire rope, reducing the potential safety hazard of the steel wire rope, having strong practicability and, the device is provided with an annular array arrangement type spiral spring elastic compression maximum rotation capacity control mechanism, the maximum rotation force between two rotation parts can be effectively controlled by utilizing the spiral springs arranged in the annular array arrangement, the phenomenon that the parts are damaged due to overlarge rotation resistance is prevented, in addition, the device is provided with a gear-meshed one-machine-multipurpose branch driving connecting mechanism which can convert driving into branches to realize one-machine-multipurpose driving action, in addition, the device has the even mechanism of paining of sponge centre gripping pipeline hole installation oil liquid, can paint the oil liquid through its inside wire rope surface.

Description

Oil applying protective device for steel wire rope of building tower crane

Technical Field

The invention relates to the technical field of constructional engineering, in particular to an oiling protection device for a steel wire rope of a building tower crane.

Background

At present, a tower crane is one of indispensable devices in a building place, a steel wire rope has a very large effect in the tower crane, the steel wire rope needs to be dragged and driven in the hoisting process, and the steel wire rope is directly exposed in the air, so that the damage degree is large, and the service life is short.

Disclosure of Invention

The invention aims to provide an oiling protection device for a steel wire rope of a building tower crane, which aims to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: an oiling protection device for a steel wire rope of a building tower crane comprises a main hollow shell, wherein one side of the main hollow shell is provided with a driving motor installation shell through a bolt, the inside of the driving motor installation shell is provided with an installation structure, one end inside the installation structure is provided with a driving motor, an end part of a motor spindle in the driving motor is provided with an annular array setting type spiral spring elastic compression maximum rotation energy control mechanism, a main first rotating shaft is installed at the center of one end of the annular array setting type spiral spring elastic compression maximum rotation energy control mechanism, the end part of the main first rotating shaft is provided with a gear meshing type one-machine multi-purpose branch driving connection mechanism center which is clamped inside the main hollow shell, two parallel oil feeding spaces are arranged inside the main hollow shell, and a first through hole structure communicated with one end of the two oil feeding spaces is arranged inside the main hollow shell, the middle part of first through-hole structure is provided with the external main liquid hole of annotating of intercommunication, the inside of main cavity casing is provided with the main drainage hole that feeds through two oiling space other ends, the inside of main cavity casing is provided with the main annular hollow structure in the main drainage hole of intercommunication, main cavity casing is lieing in main annular hollow structure's central point is provided with the space of oiling, main cavity casing's inside is provided with a plurality of second through-hole structures of the main annular hollow structure of intercommunication and the space of oiling, every a vaporific shower nozzle is all installed to the inside of second through-hole structure, main cavity casing is lieing in two the inside one end in oil feeding space is respectively through main bearing installation one main second rotation axis and main third rotation axis, all install main helical blade on the axis body of main second rotation axis and main third rotation axis, the tip and the gear engagement formula one-machine multi-purpose branch drive coupling mechanism tip fixed connection of main second rotation axis and main third rotation axis The oil-liquid coating machine comprises a main hollow shell, a main component mounting hole and an auxiliary component mounting hole are formed in the two ends of an oiling space respectively, a main first semi-annular shell and a main second semi-annular shell are mounted inside the main hollow shell, a rope hole is formed in the center of the main first semi-annular shell and the center of the main second semi-annular shell, and a sponge clamping pipeline hole mounted oil-liquid uniform coating mechanism is mounted inside the auxiliary component mounting hole.

Further, the circular array arrangement type coil spring elastic compression type maximum rotation capability control mechanism includes a main hollow casing for a circular array arrangement type coil spring elastic compression type maximum rotation capability control mechanism, a main hollow section for a circular array arrangement type coil spring elastic compression type maximum rotation capability control mechanism, a rotary column for a circular array arrangement type coil spring elastic compression type maximum rotation capability control mechanism, a semicircular groove structure for a circular array arrangement type coil spring elastic compression type maximum rotation capability control mechanism, an auxiliary hollow section for a circular array arrangement type coil spring elastic compression type maximum rotation capability control mechanism, a movable plate for a circular array arrangement type coil spring elastic compression type maximum rotation capability control mechanism, a coil spring for a circular array arrangement type coil spring elastic compression type maximum rotation capability control mechanism, and a circular array arrangement type coil spring elastic compression type maximum rotation capability control mechanism A push rod is used; the center of one end face of a main hollow shell for the annular array setting type spiral spring elastic compression type maximum rotation energy control mechanism is fixedly connected with the end part of a motor main shaft, the center of the inside of the main hollow shell for the annular array setting type spiral spring elastic compression type maximum rotation energy control mechanism is the main hollow area for the annular array setting type spiral spring elastic compression type maximum rotation energy control mechanism, the main hollow shell for the annular array setting type spiral spring elastic compression type maximum rotation energy control mechanism is positioned in the main hollow area for the annular array setting type spiral spring elastic compression type maximum rotation energy control mechanism, a rotary column for the annular array setting type spiral spring elastic compression type maximum rotation energy control mechanism is sleeved in the main hollow area for the annular array setting type spiral spring elastic compression type maximum rotation energy control mechanism, and the inside of the main hollow shell for the annular array setting type spiral spring elastic compression type maximum rotation energy control mechanism is the annular array setting type spiral spring elastic compression type spiral spring The auxiliary hollow interval for the retractable maximum rotational energy control mechanism is characterized in that a movable plate for the annular array-arranged type spiral spring elastic compression type maximum rotational energy control mechanism is arranged in the auxiliary hollow interval for the annular array-arranged type spiral spring elastic compression type maximum rotational energy control mechanism at one end face of a main hollow interval for the annular array-arranged type spiral spring elastic compression type maximum rotational energy control mechanism, the annular array-arranged type spiral spring elastic compression type maximum rotational energy control mechanism is fixed with a spiral spring for the annular array-arranged type spiral spring elastic compression type maximum rotational energy control mechanism between one ends of the movable plates for the annular array-arranged type spiral spring elastic compression type maximum rotational energy control mechanism, one end face of the movable plate for the annular array-arranged type spiral spring elastic compression type maximum rotational energy control mechanism is provided with an annular array structure integrated with the movable plate Array setting type push rod for spiral spring elastic compression type maximum rotation capability control mechanism, and the push rod for annular array setting type spiral spring elastic compression type maximum rotation capability control mechanism runs through the main hollow shell for annular array setting type spiral spring elastic compression type maximum rotation capability control mechanism and is located inside the main hollow interval for annular array setting type spiral spring elastic compression type maximum rotation capability control mechanism, the push rod for annular array setting type spiral spring elastic compression type maximum rotation capability control mechanism is located one end of the main hollow interval for annular array setting type spiral spring elastic compression type maximum rotation capability control mechanism is in a semicircular structure, the side surface of the rotary column for annular array setting type spiral spring elastic compression type maximum rotation capability control mechanism is provided with a push rod for placing the annular array setting type spiral spring elastic compression type maximum rotation capability control mechanism The circular array type spiral spring elastic compression type semicircular groove structure for the maximum rotation capacity control mechanism at the end part is characterized in that one end of a rotary column for the circular array type spiral spring elastic compression type maximum rotation capacity control mechanism is fixed with the end part of a main first rotating shaft.

Further, the initial length of the coil spring for the circular array arrangement type coil spring elastic compression type maximum rotation capability control mechanism is larger than the length of the auxiliary hollow section for the circular array arrangement type coil spring elastic compression type maximum rotation capability control mechanism.

Further, the structural shape of the end part of the push rod for the annular array type spiral spring elastic compression type maximum rotation capacity control mechanism is consistent with the structural shape of the semicircular groove structure for the annular array type spiral spring elastic compression type maximum rotation capacity control mechanism.

Further, the gear-meshed one-machine-multi-branch drive connecting mechanism comprises a hollow shell for the gear-meshed one-machine-multi-branch drive connecting mechanism, a hollow structure for the gear-meshed one-machine-multi-branch drive connecting mechanism, a bearing for the gear-meshed one-machine-multi-branch drive connecting mechanism, a first rotating shaft for the gear-meshed one-machine-multi-branch drive connecting mechanism, a first gear for the gear-meshed one-machine-multi-branch drive connecting mechanism, a second rotating shaft for the gear-meshed one-machine-multi-branch drive connecting mechanism, a third rotating shaft for the gear-meshed one-machine-multi-branch drive connecting mechanism, a second gear for the gear-meshed one-machine-multi-branch drive connecting mechanism and a third gear for the gear-meshed one-machine-multi-branch drive connecting mechanism; the gear-mesh type one-machine-multipurpose branch driving connecting mechanism is characterized in that a hollow structure for the gear-mesh type one-machine-multipurpose branch driving connecting mechanism is arranged in the center of the inner part of a hollow shell for the gear-mesh type one-machine-multipurpose branch driving connecting mechanism, a first rotating shaft for the gear-mesh type one-machine-multipurpose branch driving connecting mechanism is arranged in the center of the hollow shell for the gear-mesh type one-machine-multipurpose branch driving connecting mechanism through a bearing for the gear-mesh type one-machine-multipurpose branch driving connecting mechanism, a first gear for the gear-mesh type one-machine-multipurpose branch driving connecting mechanism is arranged on a shaft body of the first rotating shaft for the gear-mesh type one-machine-multipurpose branch driving connecting mechanism, a second rotating shaft for the gear-mesh type one-machine-multipurpose branch driving connecting mechanism is respectively arranged on the top of the hollow shell for the gear-mesh type one-machine-multipurpose branch driving connecting mechanism on two opposite sides through bearings for the gear, the gear-meshing type one-machine-multiple branch driving connecting mechanism is characterized in that a second gear for the gear-meshing type one-machine-multiple branch driving connecting mechanism and a third gear for the gear-meshing type one-machine-multiple branch driving connecting mechanism are respectively arranged at the end parts of a first gear for the gear-meshing type one-machine-multiple branch driving connecting mechanism and a second rotating shaft for the gear-meshing type one-machine-multiple branch driving connecting mechanism, and a tooth structure on the side surface of the third gear for the gear-meshing type one-machine-multiple branch driving connecting mechanism is meshed with a tooth structure on the side surface of the first gear for the gear-meshing type one-machine-multiple branch driving connecting mechanism.

Furthermore, both ends of the first rotating shaft for the gear-mesh type one-machine-multiple branch driving connecting mechanism are fixedly connected with the end part of the shaft body in the main first rotating shaft respectively, and the end parts of the first rotating shaft for the gear-mesh type one-machine-multiple branch driving connecting mechanism and the second rotating shaft for the gear-mesh type one-machine-multiple branch driving connecting mechanism are fixedly connected with the end parts of the main second rotating shaft and the main third rotating shaft respectively.

Furthermore, the structure radius of the first gear reference circle for the gear-mesh type one-machine-multiple branch driving connecting mechanism is larger than the structure radius of the second gear for the gear-mesh type one-machine-multiple branch driving connecting mechanism and the third gear reference circle for the gear-mesh type one-machine-multiple branch driving connecting mechanism.

Further, the sponge-clamping pipeline hole-mounted oil uniform smearing mechanism comprises a first semi-cylindrical shell for the sponge-clamping pipeline hole-mounted oil uniform smearing mechanism, a second semi-cylindrical shell for the sponge-clamping pipeline hole-mounted oil uniform smearing mechanism, a first cylindrical groove structure for the sponge-clamping pipeline hole-mounted oil uniform smearing mechanism, a second cylindrical groove structure for the sponge-clamping pipeline hole-mounted oil uniform smearing mechanism, a T-shaped protrusion structure for the sponge-clamping pipeline hole-mounted oil uniform smearing mechanism, a T-shaped groove structure for the sponge-clamping pipeline hole-mounted oil uniform smearing mechanism and a sponge body for the sponge-clamping pipeline hole-mounted oil uniform smearing mechanism; sponge centre gripping pipeline hole installation oil liquid evenly paints mechanism with first semi-cylindrical shell and sponge centre gripping pipeline hole installation oil liquid evenly paints the interior concave part of second semi-cylindrical shell for mechanism and forms first cylindricality groove structure and sponge centre gripping pipeline hole installation oil liquid evenly paints mechanism with second cylindricality groove structure respectively, sponge centre gripping pipeline hole installation oil liquid evenly paints mechanism with first cylindricality groove structure and sponge centre gripping pipeline hole installation oil liquid evenly paints the mechanism with the inside of second cylindricality groove structure lays a sponge centre gripping pipeline hole installation oil liquid evenly paints mechanism with the cavernosum, sponge centre gripping pipeline hole installation oil liquid evenly paints mechanism with first semi-cylindrical shell and sponge centre gripping pipeline hole installation oil liquid evenly paints mechanism with second semi-cylindrical shell is provided with sponge centre gripping pipeline hole installation oil liquid evenly paints mechanism with the second semi-cylindrical shell at the vertical surface position respectively for mechanism and uses sponge centre gripping pipeline hole installation oil liquid evenly paints mechanism and uses the mechanism T shape protruding structure and sponge centre gripping pipeline hole installation oil liquid evenly paint mechanism and use T shape groove structure, sponge centre gripping pipeline hole installation oil liquid evenly paints mechanism and use T shape groove structure corresponding type grafting with sponge centre gripping pipeline hole installation oil liquid evenly paints mechanism.

Furthermore, sponge centre gripping pipeline hole installation oil liquid evenly paints mechanism with first semicylindrical shell and sponge centre gripping pipeline hole installation oil liquid evenly paints mechanism with second semicylindrical shell joint in the inside of accessory mounting hole.

Furthermore, the center of the sponge body for the oil liquid uniform smearing mechanism arranged in the sponge clamping pipeline hole is penetrated by a steel wire rope.

Compared with the prior art, the invention has the beneficial effects that: the invention is installed in the tower crane, can oil and remove dust to the rope body of the steel wire rope to be pulled, thereby protecting the steel wire rope, prolonging the service life of the steel wire rope and reducing the potential safety hazard of the steel wire rope, and has strong practicability, moreover, the device is provided with a spiral spring elastic compression type maximum rotation capacity control mechanism arranged in an annular array, and the spiral springs arranged in the annular array can effectively control the maximum rotation force between two rotating parts, thereby preventing the parts from being damaged due to overlarge rotation resistance, in addition, the device is provided with a gear engagement type one-machine multi-purpose branch driving connection mechanism, which can convert the driving into branches, thereby realizing the one-machine multi-purpose driving action, in addition, the device is provided with a sponge clamping pipeline hole installed oil liquid uniform smearing mechanism, and can smear oil liquid on the surface of the steel wire rope passing through the device, and the comprehensive oiling is realized.

Drawings

FIG. 1 is a schematic diagram of a full-section structure of an oiling protection device for a steel wire rope of a building tower crane according to the invention;

FIG. 2 is a schematic structural diagram of an annular array arrangement type spiral spring elastic compression type maximum rotation energy control mechanism in the oiling protection device for the steel wire rope of the building tower crane according to the invention;

FIG. 3 is a schematic structural diagram of a gear-meshing type multi-purpose branch driving connection mechanism in the oiling protection device for the steel wire rope of the building tower crane according to the present invention;

FIG. 4 is a schematic structural diagram of an oil liquid uniform smearing mechanism installed in a sponge clamping pipeline hole in the oiling protection device for the steel wire rope of the building tower crane according to the invention;

in the figure: 1, a main hollow housing, 2, a driving motor mounting housing, 3, a mounting structure, 4, a driving motor, 5, a motor spindle, 6, a coil spring elastic compression type maximum rotation capability control mechanism, 61, a main hollow housing for a coil spring elastic compression type maximum rotation capability control mechanism, 62, a main hollow section for a coil spring elastic compression type maximum rotation capability control mechanism, 63, a rotation column for a coil spring elastic compression type maximum rotation capability control mechanism, 64, a semicircular groove structure for a coil spring elastic compression type maximum rotation capability control mechanism, 65, a secondary hollow section for a coil spring elastic compression type maximum rotation capability control mechanism, 66, a movable plate for a coil spring elastic compression type maximum rotation capability control mechanism, 67, coil springs for a coil spring elastic compression type maximum rotational power control mechanism of a ring array type, 68, push rods for a coil spring elastic compression type maximum rotational power control mechanism of a ring array type, 7, main first rotation shafts, 8, main liquid injection holes, 9, oil supply spaces, 10, main second rotation shafts, 11, main third rotation shafts, 12, main bearings, 13, main spiral blades, 14, first through hole structures, 15, gear meshing type one-machine-multipurpose branch drive connection mechanisms, 151, hollow housings for gear meshing type one-machine-multipurpose branch drive connection mechanisms, 152, hollow structures for gear meshing type one-machine-multipurpose branch drive connection mechanisms, 153, bearings for gear meshing type one-machine-multipurpose branch drive connection mechanisms, 154, first rotation shafts for gear meshing type one-machine-multipurpose branch drive connection mechanisms, 155, first gears for gear meshing type one-machine-multipurpose branch drive connection mechanisms, 156, a second rotating shaft for a gear-mesh type one-machine-multiple-branch drive connecting mechanism, 157, a third rotating shaft for a gear-mesh type one-machine-multiple-branch drive connecting mechanism, 158, a second gear for a gear-mesh type one-machine-multiple-branch drive connecting mechanism, 159, a third gear for a gear-mesh type one-machine-multiple-branch drive connecting mechanism, 16, a main drainage hole, 17, an oiling space, 18, a main annular hollow structure, 19, a second through hole structure, 20, a mist nozzle, 21, a main part mounting hole, 22, a sub part mounting hole, 23, a main first semi-annular housing, 24, a main second semi-annular housing, 25, a rope hole, 26, a sponge holding pipe hole mounting oil-liquid uniform applying mechanism, 261, a sponge holding pipe hole mounting oil-liquid uniform applying mechanism, a first semi-cylindrical housing for an oil-liquid uniform applying mechanism, 262, a sponge holding pipe hole mounting oil-liquid uniform applying mechanism, a second semi-cylindrical housing for an oil-liquid uniform, 263, sponge centre gripping pipeline hole installation oil liquid evenly paints mechanism with first cylindricality groove structure, 264, sponge centre gripping pipeline hole installation oil liquid evenly paints mechanism with second cylindricality groove structure, 265, sponge centre gripping pipeline hole installation oil liquid evenly paints mechanism with T shape protruding structure, 266, sponge centre gripping pipeline hole installation oil liquid evenly paints mechanism with T shape groove structure, 267, sponge for mechanism is evenly painted to sponge centre gripping pipeline hole installation oil liquid.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, an embodiment of the present invention: the device comprises a main hollow shell 1, wherein a driving motor installation shell 2 is installed on one side of the main hollow shell 1 through a bolt, an installation structure 3 is arranged in the driving motor installation shell 2, a driving motor 4 is installed at one end in the installation structure 3, an annular array arrangement type spiral spring elastic compression maximum rotation energy control mechanism 6 is installed at the end part of a motor spindle 5 in the driving motor 4, a main first rotating shaft 7 is installed at the center of one end of the annular array arrangement type spiral spring elastic compression maximum rotation energy control mechanism 6, a gear mesh type one-machine multi-branch driving connection mechanism 15 clamped in the main hollow shell 1 is installed at the end part of the main first rotating shaft 7, two parallel oil supply spaces 9 are arranged in the main hollow shell 1, a first through hole structure 14 communicated with one ends of the two oil supply spaces 9 is arranged in the main hollow shell 1, the middle part of the first through hole structure 14 is provided with a main liquid injection hole 8 communicated with the outside, the inside of the main hollow shell 1 is provided with a main liquid discharge hole 16 communicated with the other ends of the two oiling spaces 9, the inside of the main hollow shell 1 is provided with a main annular hollow structure 18 communicated with the main liquid discharge hole 16, the main hollow shell 1 is provided with an oiling space 17 at the central part of the main annular hollow structure 18, the inside of the main hollow shell 1 is provided with a plurality of second through hole structures 19 communicated with the main annular hollow structure 18 and the oiling space 17, each of the second through hole structures 19 is internally provided with an atomizing nozzle 20, one end of the main hollow shell 1 positioned in the two oil feeding spaces 9 is respectively provided with a main second rotating shaft 10 and a main third rotating shaft 11 through a main bearing 12, and main helical blades 13 are respectively arranged on the shaft bodies of the main second rotating shaft 10 and the main third rotating shaft 11, the end parts of the main second rotating shaft 10 and the main third rotating shaft 11 are fixedly connected with the end part of the gear-meshed one-machine-multi-branch driving connecting mechanism 15, the main hollow shell 1 is internally provided with a main part mounting hole 21 and an auxiliary part mounting hole 22 at two ends of the upper oil space 17 respectively, a main first semi-annular shell 23 and a main second semi-annular shell 24 are mounted in the main part mounting hole 21, a rope hole 25 is formed in the center of the main first semi-annular shell 23 and the center of the main second semi-annular shell 24, and a sponge clamping pipeline hole mounting type oil-liquid uniform coating mechanism 26 is mounted in the auxiliary part mounting hole 22.

Referring to fig. 2, the helical spring elastic compression type maximum rotation power control mechanism 6 includes a main hollow housing 61 for the helical spring elastic compression type maximum rotation power control mechanism of the annular array arrangement type, a main hollow section 62 for the helical spring elastic compression type maximum rotation power control mechanism of the annular array arrangement type, a rotation column 63 for the helical spring elastic compression type maximum rotation power control mechanism of the annular array arrangement type, a semicircular groove structure 64 for the helical spring elastic compression type maximum rotation power control mechanism of the annular array arrangement type, a sub hollow section 65 for the helical spring elastic compression type maximum rotation power control mechanism of the annular array arrangement type, a movable plate 66 for the helical spring elastic compression type maximum rotation power control mechanism of the annular array arrangement type, a helical spring 67 for the helical spring elastic compression type maximum rotation power control mechanism of the annular array arrangement type, and a helical spring elastic compression type maximum rotation power control mechanism of the annular array arrangement type A push rod 68 for a large rotational power control mechanism; the center of one end face of the main hollow shell 61 for the annular array setting type spiral spring elastic compression maximum rotation capability control mechanism is fixedly connected with the end part of the motor main shaft 5, the center inside the main hollow shell 61 for the annular array setting type spiral spring elastic compression maximum rotation capability control mechanism is the main hollow area 62 for the annular array setting type spiral spring elastic compression maximum rotation capability control mechanism, the main hollow shell 61 for the annular array setting type spiral spring elastic compression maximum rotation capability control mechanism is positioned in the main hollow area 62 for the annular array setting type spiral spring elastic compression maximum rotation capability control mechanism, a rotary column 63 for the annular array setting type spiral spring elastic compression maximum rotation capability control mechanism is sleeved inside the main hollow area 62 for the annular array setting type spiral spring elastic compression maximum rotation capability control mechanism, and the inside of the main hollow shell 61 for the annular array setting type spiral spring elastic compression maximum rotation capability control mechanism is provided for the annular array setting An auxiliary hollow section 65 for the maximum rotational force control mechanism of the helical spring elastic compression type, a movable plate 66 for the maximum rotational force control mechanism of the helical spring elastic compression type disposed in a ring array on one end surface of the main hollow section 62 for the maximum rotational force control mechanism of the helical spring elastic compression type disposed in a ring array inside the auxiliary hollow section 65 for the maximum rotational force control mechanism of the helical spring elastic compression type disposed in a ring array, the auxiliary hollow section 65 for the maximum rotational force control mechanism of the helical spring elastic compression type disposed in a ring array on one end surface of the movable plate 66 for the maximum rotational force control mechanism of the helical spring elastic compression type disposed in a ring array on the other end surface of the movable plate 66 for the maximum rotational force control mechanism of the helical spring elastic compression type disposed in a ring array on the coil spring elastic compression type 67 for the maximum rotational force control mechanism of the movable plate 66 for the maximum rotational force control mechanism of the helical spring One end face of the push rod 68 for the annular array setting type spiral spring elastic compression maximum rotation capacity control mechanism is provided with an integral structure, the push rod 68 for the annular array setting type spiral spring elastic compression maximum rotation capacity control mechanism penetrates through the main hollow shell 61 for the annular array setting type spiral spring elastic compression maximum rotation capacity control mechanism and is located in the main hollow area 62 for the annular array setting type spiral spring elastic compression maximum rotation capacity control mechanism, the push rod 68 for the annular array setting type spiral spring elastic compression maximum rotation capacity control mechanism is located at one end of the main hollow area 62 for the annular array setting type spiral spring elastic compression maximum rotation capacity control mechanism and is of a semicircular structure, and the side face of the rotary column 63 for the annular array setting type spiral spring elastic compression maximum rotation capacity control mechanism is provided with a placement part for placing the annular array setting type spiral spring elastic compression maximum rotation capacity control mechanism A semicircular groove structure 64 for the helical spring elastic compression type maximum rotational energy control mechanism, which is an annular array arrangement type helical spring elastic compression type maximum rotational energy control mechanism-use push rod 68 end portion, one end of a rotary column 63 for the helical array arrangement type helical spring elastic compression type maximum rotational energy control mechanism-use rotary column being fixed to the end portion of the main first rotary shaft 7; the initial length of the coil spring 67 for the annular array-arranged coil spring elastic compression type maximum rotational energy control mechanism is longer than the length of the auxiliary hollow section 65 for the annular array-arranged coil spring elastic compression type maximum rotational energy control mechanism; the structural shape of the end part of the push rod 68 for the annular array arrangement type spiral spring elastic compression type maximum rotation energy control mechanism is consistent with the structural shape of the semicircular groove structure 64 for the annular array arrangement type spiral spring elastic compression type maximum rotation energy control mechanism, and the structure mainly has the following functions: when the driving resistance is too large, the resistance is larger than the elasticity of the coil spring 67 for the annular array arrangement type coil spring elastic compression type maximum rotation capability control mechanism, so that the coil spring 67 for the annular array arrangement type coil spring elastic compression type maximum rotation capability control mechanism is compressed, and under the causal action, the two rotating shafts are relatively rotated to play a protection role, so that the elasticity of the coil spring 67 for the annular array arrangement type coil spring elastic compression type maximum rotation capability control mechanism is smaller than the rotation force of the driving motor 4 under the maximum power.

Referring to fig. 3, the gear-mesh type one-machine-multi-branch drive connecting mechanism 15 includes a hollow housing 151 for the gear-mesh type one-machine-multi-branch drive connecting mechanism, a hollow structure 152 for the gear-mesh type one-machine-multi-branch drive connecting mechanism, a bearing 153 for the gear-mesh type one-machine-multi-branch drive connecting mechanism, a first rotating shaft 154 for the gear-mesh type one-machine-multi-branch drive connecting mechanism, a first gear 155 for the gear-mesh type one-machine-multi-branch drive connecting mechanism, a second rotating shaft 156 for the gear-mesh type one-machine-multi-branch drive connecting mechanism, a third rotating shaft 157 for the gear-mesh type one-machine-multi-branch drive connecting mechanism, a second gear 158 for the gear-mesh type one-machine-multi-branch drive connecting mechanism, and a third gear 159 for the gear-mesh type one-machine-multi; a hollow structure 152 for the gear-mesh type one-machine-multi-branch driving connecting mechanism is arranged at the center inside the hollow shell 151 for the gear-mesh type one-machine-multi-branch driving connecting mechanism, a first rotating shaft 154 for the gear-mesh type one-machine-multi-branch driving connecting mechanism is arranged at the center of the hollow shell 151 for the gear-mesh type one-machine-multi-branch driving connecting mechanism through a bearing 153 for the gear-mesh type one-machine-multi-branch driving connecting mechanism, a first gear 155 for the gear-mesh type one-machine-multi-branch driving connecting mechanism is arranged on a shaft body of the first rotating shaft 154 for the gear-mesh type one-machine-multi-branch driving connecting mechanism, a first gear 155 for the gear-mesh type one-machine-multi-branch driving connecting mechanism and a first gear 155 for the gear-mesh type one-machine-multi-branch driving connecting mechanism are respectively arranged on the opposite sides of the top of the hollow shell 151 for the gear-mesh type one-machine A second rotating shaft 156 for a coupling mechanism, on the end of which a first gear 155 for a gear-mesh type one-machine-multiple branch drive coupling mechanism and a second rotating shaft 156 for a gear-mesh type one-machine-multiple branch drive coupling mechanism are mounted a second gear 158 for a gear-mesh type one-machine-multiple branch drive coupling mechanism and a third gear 159 for a gear-mesh type one-machine-multiple branch drive coupling mechanism, respectively, the tooth structure on the side surface of the second gear 158 for a gear-mesh type one-machine-multiple branch drive coupling mechanism and the tooth structure on the side surface of the third gear 159 for a gear-mesh type one-machine-multiple branch drive coupling mechanism are meshed with the tooth structure on the side surface of the first gear 155 for a gear-mesh type one-machine-multiple branch drive coupling mechanism; both ends of the first rotating shaft 154 for the gear-mesh type one-machine-multiple branch driving connecting mechanism are fixedly connected with the end part of the shaft body in the main first rotating shaft 7, and the end parts of the first rotating shaft 154 for the gear-mesh type one-machine-multiple branch driving connecting mechanism and the second rotating shaft 156 for the gear-mesh type one-machine-multiple branch driving connecting mechanism are fixedly connected with the end parts of the main second rotating shaft 10 and the main third rotating shaft 11; the structure radius of the reference circle of the first gear 155 for the gear-mesh type one-machine-multiple branch driving connecting mechanism is larger than the structure radius of the reference circle of the second gear 158 for the gear-mesh type one-machine-multiple branch driving connecting mechanism and the third gear 159 for the gear-mesh type one-machine-multiple branch driving connecting mechanism, and the main functions are as follows: the gears arranged in the annular array can play an effective role in differentiation and rotation, and one machine with multiple purposes is realized.

Referring to fig. 4, the sponge-clamping-pipe-hole-mounting-type uniform oil-liquid-spreading mechanism 26 includes a first semi-cylindrical shell 261 for a sponge-clamping-pipe-hole-mounting-type uniform oil-liquid-spreading mechanism, a second semi-cylindrical shell 262 for a sponge-clamping-pipe-hole-mounting-type uniform oil-liquid-spreading mechanism, a first cylindrical groove structure 263 for a sponge-clamping-pipe-hole-mounting-type uniform oil-liquid-spreading mechanism, a second cylindrical groove structure 264 for a sponge-clamping-pipe-hole-mounting-type uniform oil-liquid-spreading mechanism, a T-shaped protrusion structure 265 for a sponge-clamping-pipe-hole-mounting-type uniform oil-liquid-spreading mechanism, a T-shaped groove structure 266 for a sponge-clamping-pipe-hole-mounting-type uniform oil-liquid; sponge centre gripping pipeline hole installation oil liquid evenly paints mechanism with first semi-cylindrical shell 261 and sponge centre gripping pipeline hole installation oil liquid evenly paints mechanism with second semi-cylindrical shell 262's interior concave department forms first cylindricality groove structure 263 for sponge centre gripping pipeline hole installation oil liquid evenly paints mechanism and second cylindricality groove structure 264 for sponge centre gripping pipeline hole installation oil liquid evenly paints mechanism respectively, sponge centre gripping pipeline hole installation oil liquid evenly paints mechanism with first cylindricality groove structure 263 and sponge centre gripping pipeline hole installation oil liquid evenly paints mechanism with second cylindricality groove structure 264's inside lays a sponge centre gripping pipeline hole installation oil liquid evenly paints mechanism with sponge 267, sponge centre gripping pipeline hole installation oil liquid evenly paints mechanism with first semi-cylindrical shell 261 and sponge centre gripping pipeline hole installation oil liquid evenly paints mechanism with second semi-cylindrical shell is provided with sponge centre gripping pipeline hole installation formula at 262 plumbing position respectively for the mechanism with sponge centre gripping pipeline hole installation oil liquid evenly paints mechanism with second semi-cylindrical shell at 262 vertical plane position The T-shaped convex structure 265 for the oil uniform smearing mechanism and the T-shaped groove structure 266 for the sponge clamping pipeline hole installation oil uniform smearing mechanism are correspondingly spliced; the sponge-holding pipeline hole-mounted oil-liquid uniform coating mechanism is clamped in the auxiliary component mounting hole 22 by the first semi-cylindrical shell 261 and the sponge-holding pipeline hole-mounted oil-liquid uniform coating mechanism is clamped in the second semi-cylindrical shell 262; sponge centre gripping pipeline hole installation formula oil liquid evenly paints mechanism is run through by wire rope with the center of sponge 267, and its main action is: the compressed sponge body can paint the steel wire rope.

The specific use mode is as follows: during the operation of the invention, the device is welded at the position of a tower crane, a steel wire rope for traction passes through a sponge clamping pipeline hole to be provided with an oil liquid uniform coating mechanism 26, a rope hole 25 and an oiling space 17, then a main oil injection hole 15 is connected with an oil discharge hole of an oil pump through a hose, then a plug of a driving motor 4 is inserted into a power supply, the driving motor 4 works, under the action, two spiral blades 13 rotate rapidly, so that oil is continuously sprayed to the steel wire rope through a mist spray nozzle 20, the continuously passing steel wire rope can be oiled and dedusted, and the protection effect is realized.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (10)

1. The utility model provides a building tower crane wire rope is with protector that oils, includes main cavity casing (1), its characterized in that: one side of the main hollow shell (1) is provided with a driving motor installation shell (2) through a bolt, the inside of the driving motor installation shell (2) is provided with an installation structure (3), one end inside the installation structure (3) is provided with a driving motor (4), the end part of a motor spindle (5) in the driving motor (4) is provided with an annular array setting type spiral spring elastic compression maximum rotation energy control mechanism (6), one end center of the annular array setting type spiral spring elastic compression maximum rotation energy control mechanism (6) is provided with a main first rotating shaft (7), the end part of the main first rotating shaft (17) is provided with one end center of a gear mesh type one-machine multi-purpose branch driving connection mechanism (15) which is clamped inside the main hollow shell (1), and the inside of the main hollow shell (1) is provided with two parallel oil feeding spaces (9), the oil filling device is characterized in that a first through hole structure (14) communicated with one end of two oil feeding spaces (9) is arranged in the main hollow shell (1), a main liquid injection hole (8) communicated with the outside is formed in the middle of the first through hole structure (14), a main liquid drainage hole (16) communicated with the other end of the two oil feeding spaces (9) is formed in the main hollow shell (1), a main annular hollow structure (18) communicated with the main liquid drainage hole (16) is arranged in the main hollow shell (1), the oil feeding space (17) is formed in the center of the main annular hollow structure (18) of the main hollow shell (1), a plurality of second through hole structures (19) communicated with the main annular hollow structure (18) and the oil feeding space (17) are arranged in the main hollow shell (1), and a mist spray nozzle (20) is installed in each second through hole structure (19), the main hollow shell (1) is provided with a main second rotating shaft (10) and a main third rotating shaft (11) at one ends positioned in the two oil delivery spaces (9) through main bearings (12), main helical blades (13) are arranged on shaft bodies of the main second rotating shaft (10) and the main third rotating shaft (11), the ends of the main second rotating shaft (10) and the main third rotating shaft (11) are fixedly connected with the end of a gear-meshed one-machine-multipurpose branch driving connecting mechanism (15), main component mounting holes (21) and auxiliary component mounting holes (22) are respectively formed in two ends of the upper oil space (17) in the main hollow shell (1), a main first semi-annular shell (23) and a main second semi-annular shell (24) are arranged in the main component mounting holes (21), rope holes (25) are formed in the centers of the main first semi-annular shell (23) and the main second semi-annular shell (24), and a sponge clamping pipeline hole mounting type oil liquid uniform smearing mechanism (26) is mounted inside the auxiliary component mounting hole (22).

2. The oiling protection device for the steel wire rope of the building tower crane according to claim 1, characterized in that: the annular array-arranged type spiral spring elastic compression maximum rotation energy control mechanism (6) comprises a main hollow shell (61) for an annular array-arranged type spiral spring elastic compression maximum rotation energy control mechanism, a main hollow interval (62) for the annular array-arranged type spiral spring elastic compression maximum rotation energy control mechanism, a rotation column (63) for the annular array-arranged type spiral spring elastic compression maximum rotation energy control mechanism, a semicircular groove structure (64) for the annular array-arranged type spiral spring elastic compression maximum rotation energy control mechanism, an auxiliary hollow interval (65) for the annular array-arranged type spiral spring elastic compression maximum rotation energy control mechanism, a movable plate (66) for the annular array-arranged type spiral spring elastic compression maximum rotation energy control mechanism, a spiral spring (67) for the annular array-arranged type spiral spring elastic compression maximum rotation energy control mechanism and an annular array-arranged type spiral spring A push rod (68) for a coil spring elastic compression type maximum rotational energy control mechanism; the center of one end face of a main hollow shell (61) for the annular array setting type spiral spring elastic compression maximum rotation capability control mechanism is fixedly connected with the end part of a motor main shaft (5), the center inside the main hollow shell (61) for the annular array setting type spiral spring elastic compression maximum rotation capability control mechanism is the main hollow area (62) for the annular array setting type spiral spring elastic compression maximum rotation capability control mechanism, the main hollow shell (61) for the annular array setting type spiral spring elastic compression maximum rotation capability control mechanism is sleeved with an annular array setting type spiral spring elastic compression maximum rotation capability control mechanism rotating column (63) inside the main hollow area (62) for the annular array setting type spiral spring elastic compression maximum rotation capability control mechanism, the interior of a main hollow shell (61) for the annular array-arranged type spiral spring elastic compression type maximum rotation energy control mechanism is an annular array-arranged type auxiliary hollow area (65) for the spiral spring elastic compression type maximum rotation energy control mechanism, the interior of the annular array-arranged type auxiliary hollow area (65) for the spiral spring elastic compression type maximum rotation energy control mechanism is positioned at one end face of the main hollow area (62) for the annular array-arranged type spiral spring elastic compression type maximum rotation energy control mechanism, a movable plate (66) for the annular array-arranged type spiral spring elastic compression type maximum rotation energy control mechanism is arranged at one end face of the annular array-arranged type main hollow area (62) for the spiral spring elastic compression type maximum rotation energy control mechanism, and the annular array-arranged type spiral spring elastic compression type maximum rotation energy control mechanism auxiliary hollow area (65) is fixed between one ends of the movable plate (66) for the annular array-arranged type spiral spring elastic compression type maximum rotation Coil spring (67) for maximum rotational energy control mechanism of coil spring elastic compression type, one end face of movable plate (66) for maximum rotational energy control mechanism of coil spring elastic compression type of annular array setting is provided with push rod (68) for maximum rotational energy control mechanism of coil spring elastic compression type of annular array setting with its integral type structure, just push rod (68) for maximum rotational energy control mechanism of coil spring elastic compression type of annular array setting runs through main hollow shell (61) for maximum rotational energy control mechanism of coil spring elastic compression type of annular array setting, and is located inside of main hollow interval (62) for maximum rotational energy control mechanism of coil spring elastic compression type of annular array setting, push rod (68) for maximum rotational energy control mechanism of coil spring elastic compression type of annular array setting is located the annular array setting is helical spring elastic compression type of maximum rotational energy control mechanism One end of the main hollow area (62) for the force control mechanism is of a semicircular structure, the side face of the rotary column (63) for the annular array setting type spiral spring elastic compression type maximum rotation capability control mechanism is provided with a semicircular groove structure (64) for the annular array setting type spiral spring elastic compression type maximum rotation capability control mechanism at the end part of the push rod (68) for the annular array setting type spiral spring elastic compression type maximum rotation capability control mechanism, and one end of the rotary column (63) for the annular array setting type spiral spring elastic compression type maximum rotation capability control mechanism is fixed with the end part of the main first rotating shaft (7).

3. The oiling protection device for the steel wire rope of the building tower crane according to claim 2, characterized in that: the initial length of the spiral spring (67) for the annular array-arranged spiral spring elastic compression type maximum rotation energy control mechanism is larger than the length of the auxiliary hollow section (65) for the annular array-arranged spiral spring elastic compression type maximum rotation energy control mechanism.

4. The oiling protection device for the steel wire rope of the building tower crane according to claim 2, characterized in that: the structural appearance of the end part of the push rod (68) for the annular array type spiral spring elastic compression type maximum rotation energy control mechanism is consistent with that of the semicircular groove structure (64) for the annular array type spiral spring elastic compression type maximum rotation energy control mechanism.

5. The oiling protection device for the steel wire rope of the building tower crane according to claim 1, characterized in that: the gear-mesh one-machine-multi-branch driving connecting mechanism (15) comprises a hollow shell (151) for the gear-mesh one-machine-multi-branch driving connecting mechanism, a hollow structure (152) for the gear-mesh one-machine-multi-branch driving connecting mechanism, a bearing (153) for the gear-mesh one-machine-multi-branch driving connecting mechanism and a first rotating shaft (154) for the gear-mesh one-machine-multi-branch driving connecting mechanism, a first gear (155) for the gear-mesh type one-machine-multiple branch driving connection mechanism, a second rotating shaft (156) for the gear-mesh type one-machine-multiple branch driving connection mechanism, a third rotating shaft (157) for the gear-mesh type one-machine-multiple branch driving connection mechanism, a second gear (158) for the gear-mesh type one-machine-multiple branch driving connection mechanism, and a third gear (159) for the gear-mesh type one-machine-multiple branch driving connection mechanism; the gear-mesh type one-machine-multipurpose branch driving connecting mechanism is characterized in that a hollow structure (152) for the gear-mesh type one-machine-multipurpose branch driving connecting mechanism is arranged in the center of the inner part of a hollow shell (151) for the gear-mesh type one-machine-multipurpose branch driving connecting mechanism, a first rotating shaft (154) for the gear-mesh type one-machine-multipurpose branch driving connecting mechanism is arranged in the center of the hollow shell (151) for the gear-mesh type one-machine-multipurpose branch driving connecting mechanism through a bearing (153) for the gear-mesh type one-machine-multipurpose branch driving connecting mechanism, a first gear (155) for the gear-mesh type one-machine-multipurpose branch driving connecting mechanism is arranged on a shaft body of the first rotating shaft (154) for the gear-mesh type one-machine-multipurpose branch driving connecting mechanism, and a first gear-mesh type one-machine-multipurpose branch driving connecting mechanism is arranged on two opposite sides of the top of the hollow shell (151) for the gear-mesh type one And a gear (155) and a second rotating shaft (156) for the gear-mesh type one-machine-multiple branch driving connecting mechanism, wherein the second gear (158) for the gear-mesh type one-machine-multiple branch driving connecting mechanism and the third gear (159) for the gear-mesh type one-machine-multiple branch driving connecting mechanism are respectively mounted at the end parts of the first gear (155) for the gear-mesh type one-machine-multiple branch driving connecting mechanism and the second rotating shaft (156) for the gear-mesh type one-machine-multiple branch driving connecting mechanism, and the tooth structure on the side surface of the second gear (158) for the gear-mesh type one-machine-multiple branch driving connecting mechanism and the third gear (159) for the gear-mesh type one-machine-multiple branch driving connecting mechanism are meshed with the tooth structure on the side surface of the first gear (155) for the gear-mesh type one-machine-multiple branch driving connecting mechanism.

6. The oiling protection device for the steel wire rope of the building tower crane according to claim 5, characterized in that: the two ends of the first rotating shaft (154) for the gear-mesh type one-machine-multiple branch driving connecting mechanism are fixedly connected with the end part of a shaft body in the main first rotating shaft (7) respectively, and the ends of the first rotating shaft (154) for the gear-mesh type one-machine-multiple branch driving connecting mechanism and the second rotating shaft (156) for the gear-mesh type one-machine-multiple branch driving connecting mechanism are fixedly connected with the ends of the main second rotating shaft (10) and the main third rotating shaft (11) respectively.

7. The oiling protection device for the steel wire rope of the building tower crane according to claim 5, characterized in that: the structure radius of the reference circle of the first gear (155) for the gear-mesh type one-machine-multiple branch driving connecting mechanism is larger than the structure radius of the reference circle of the second gear (158) for the gear-mesh type one-machine-multiple branch driving connecting mechanism and the third gear (159) for the gear-mesh type one-machine-multiple branch driving connecting mechanism.

8. The oiling protection device for the steel wire rope of the building tower crane according to claim 1, characterized in that: the sponge-clamping pipeline hole-mounted oil liquid uniform smearing mechanism (26) comprises a first semi-cylindrical shell (261) for a sponge-clamping pipeline hole-mounted oil liquid uniform smearing mechanism, a second semi-cylindrical shell (262) for a sponge-clamping pipeline hole-mounted oil liquid uniform smearing mechanism, a first cylindrical groove structure (263) for a sponge-clamping pipeline hole-mounted oil liquid uniform smearing mechanism, a second cylindrical groove structure (264) for a sponge-clamping pipeline hole-mounted oil liquid uniform smearing mechanism, a T-shaped convex structure (265) for a sponge-clamping pipeline hole-mounted oil liquid uniform smearing mechanism, a T-shaped groove structure (266) for a sponge-clamping pipeline hole-mounted oil liquid uniform smearing mechanism and a sponge (267) for a sponge-clamping pipeline hole-mounted oil liquid uniform smearing mechanism; sponge centre gripping pipeline hole installation oil liquid evenly paints mechanism with first semi-cylindrical shell (261) and sponge centre gripping pipeline hole installation oil liquid evenly paints the interior concave department of mechanism with second semi-cylindrical shell (262) respectively forms sponge centre gripping pipeline hole installation oil liquid evenly paints mechanism with first cylindricality groove structure (263) and sponge centre gripping pipeline hole installation oil liquid evenly paints mechanism with second cylindricality groove structure (264), sponge centre gripping pipeline hole installation oil liquid evenly paints the mechanism with first cylindricality groove structure (263) and sponge centre gripping pipeline hole installation oil liquid evenly paints the mechanism with the inside of second cylindricality groove structure (264) and lays a sponge centre gripping pipeline hole installation oil liquid evenly paints mechanism with sponge (267), sponge centre gripping pipeline hole installation oil liquid evenly paints mechanism with first semi-cylindrical shell (261) and sponge centre gripping pipeline hole installation oil liquid evenly paints mechanism with second semi-cylindrical shell (262) at the vertical for mechanism (262), sponge centre gripping pipeline hole installation oil liquid evenly paints mechanism with first semi-cylindrical shell (261) and sponge centre gripping pipeline hole installation oil liquid evenly paints mechanism Facial position is provided with the even T shape protruding structure (265) of mechanism and the even T shape groove structure (266) of mechanism of applying of sponge centre gripping pipeline hole installation formula oil liquid respectively for the mechanism, the even T shape protruding structure (265) of mechanism and the even T shape groove structure (266) of mechanism of applying of mechanism and the even formula of applying of mechanism of sponge centre gripping pipeline hole installation formula are pegged graft to sponge centre gripping pipeline hole installation formula oil liquid.

9. The oiling protection device for the steel wire rope of the building tower crane according to claim 8, characterized in that: sponge centre gripping pipeline hole installation oil liquid evenly paints mechanism with first semicylindrical shell (261) and sponge centre gripping pipeline hole installation oil liquid evenly paints mechanism with second semicylindrical shell (262) joint in the inside of accessory mounting hole (22).

10. The oiling protection device for the steel wire rope of the building tower crane according to claim 8, characterized in that: the center of a sponge body (267) for the sponge clamping pipeline hole-mounted oil liquid uniform smearing mechanism is penetrated by a steel wire rope.

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