Disclosure of Invention
The invention mainly solves the technical problem of providing a multifunctional overhead steel wire moving device, which can enable a plurality of same devices to stably move left and right on an overhead steel wire, thereby not only safely working at high altitude, but also increasing the transverse range of work and the number of working people, greatly improving the working speed, and enabling the devices to rotate around a self chassis by three hundred sixty degrees, thereby not only realizing multidirectional work, but also conveniently observing the moving direction during moving and other functions.
The invention relates to a briquetting device, in particular to a multifunctional overhead steel wire moving device which comprises a supporting and mounting base, a supporting and mounting base reinforcing bolt, a seat rotating chassis, a limiting rod, a bearing connecting frame, a seat, a moving connecting device, a transmission gear set and a moving driving device.
The supporting and mounting base is composed of a square-bottom cylindrical chassis, a semi-annular mounting block, a threaded hole, a mounting cap and a transmission device A, the semi-annular mounting block is mounted on the square-bottom cylindrical chassis, the threaded hole is formed in the semi-annular mounting block, the mounting cap is mounted on the semi-annular mounting block, the mounting cap is in threaded fit with the semi-annular mounting block, and the transmission device A is mounted on the semi-annular mounting block;
the transmission device A comprises an installation support, a connecting shaft, a limiting nut, a trapezoidal face gear and a gear, wherein the connecting shaft is installed on the installation support, the connecting shaft is in clearance fit with the installation support, the limiting nut is installed on the connecting shaft, the limiting nut is in threaded fit with the connecting shaft, the limiting nut is matched with the installation support, the trapezoidal face gear is installed on the connecting shaft, and the gear is installed on the connecting shaft;
the seat rotating chassis is composed of a circular chassis, a cylindrical roller, a transmission gear set mounting hole and a limiting hole, wherein the cylindrical roller is mounted on the circular chassis, the cylindrical roller is in clearance fit with the circular chassis, the transmission gear set mounting hole is formed in the center of the circular chassis, and the limiting hole is formed in the circular chassis;
the movable connecting device is composed of a mounting tripod, a rotary transmission gear set, a movable wheel set and a chain, wherein the rotary transmission gear set is mounted on the mounting tripod, the rotary transmission gear set is in clearance fit with the mounting tripod, the movable wheel set is mounted on the mounting tripod, the movable wheel set is in clearance fit with the mounting tripod, the chain is mounted on the rotary transmission gear set, and the chain is mounted on the movable wheel set;
the mounting tripod is composed of a frame, a structural reinforcing pipe, a wheel set mounting shaft, a rotation transmission gear set mounting upper seat and a rotation transmission gear set mounting lower seat, wherein the structural reinforcing pipe is mounted on the frame;
the rotation transmission gear set is composed of a stepped shaft, a transmission large gear and a transmission small gear, the transmission large gear is installed on the stepped shaft and is in clearance fit with the stepped shaft, the transmission large gear and the stepped shaft are reinforced through keys, the transmission small gear is installed on the stepped shaft and is in clearance fit with the stepped shaft, and the transmission small gear and the stepped shaft are reinforced through keys;
the movable wheel set consists of a groove round wheel, a transmission gear and a mounting hole, wherein the transmission gear is mounted on the groove round wheel, the mounting hole is a through hole formed in the groove round wheel, and the mounting hole is a through hole formed in the transmission gear;
the transmission device is composed of a mounting fixed shaft, an inclined gear and a transmission large gear, wherein the inclined gear is mounted on the mounting fixed shaft and is in clearance fit with the mounting fixed shaft, the inclined gear is in clearance fit with the mounting fixed shaft and is reinforced through a key, the transmission large gear is mounted on the mounting fixed shaft and is in clearance fit with the mounting fixed shaft, and the transmission large gear is in clearance fit with the mounting fixed shaft and is reinforced through a key;
the transmission gear set is composed of a vertical support shaft, a transmission trapezoidal helical gear, a transmission trapezoidal large helical gear and a mounting reinforcing key, wherein the transmission trapezoidal helical gear is mounted on the vertical support shaft, the transmission trapezoidal large helical gear is mounted on the vertical support shaft, the mounting reinforcing key is mounted on the vertical support shaft, and the mounting reinforcing key is mounted on the transmission trapezoidal large helical gear;
the mobile driving device is composed of a base mounting support frame, a rotation transmission gear device, a bolt group and a driving force exerting device, the rotation transmission gear device is mounted on the base mounting support frame, the bolt group is mounted on the rotation transmission gear device, the bolt group is in clearance fit with the rotation transmission gear device, the driving force exerting device is mounted on the rotation transmission gear device, the driving force exerting device is in clearance fit with the rotation transmission gear device, and the driving force exerting device is in clearance fit with the bolt group;
the rotation transmission gear device comprises a rotation trapezoidal shaft, a roller, an installation circular pipe, two end installation covers and a kinetic energy transmission gear, wherein the roller is installed in the installation circular pipe;
the driving force exerting device is composed of a connecting rod, an installation shaft, a matching nut and a pedal plate, wherein the installation shaft is installed on the connecting rod, the matching nut is installed on the installation shaft, the matching nut is in threaded fit with the installation shaft, the pedal plate is installed on the installation shaft, the pedal plate is in clearance fit with the installation shaft, and the pedal plate is matched with the matching nut;
the supporting and mounting base reinforcing bolt is mounted on the supporting and mounting base, the supporting and mounting base reinforcing bolt is in threaded fit with the semi-annular mounting block, the seat rotating chassis is mounted on the supporting and mounting base, the circular chassis mounting cap is in clearance fit, the cylindrical roller is in clearance fit with the semi-annular mounting block, the limiting rod is mounted on the supporting and mounting base, the limiting rod is in clearance fit with the semi-annular mounting block, the limiting rod is in clearance fit with the mounting cap, the limiting rod is in clearance fit with the circular chassis, the bearing connecting frame is mounted on the supporting and mounting base, the square bottom cylindrical chassis of the bearing connecting frame is in fit, the seat is mounted on the seat rotating chassis, the seat is in fit with the circular chassis, the movable connecting device is mounted on the bearing connecting frame, the mounting tripod is in fit with the bearing connecting frame, the transmission device is mounted inside the seat, the transmission gear group, the transmission gear set is installed on the seat rotating chassis, the vertical supporting shaft is in clearance fit with the circular chassis, the moving driving device is installed on the seat rotating chassis, and the base installation supporting frame is matched with the circular chassis.
As further optimization of the technical scheme, the multifunctional overhead steel wire moving device comprises the following components in percentage by weight: the mobile connecting device, the transmission gear set and the mobile driving device are connected through a chain.
As a further optimization of the technical scheme, the multifunctional high-altitude steel wire moving device has two wheel set installation shafts, two rotation transmission gear sets and four moving wheel sets.
The multifunctional overhead steel wire moving device has the beneficial effects that:
the invention relates to a briquetting device, in particular to a multifunctional overhead steel wire moving device, which can enable a plurality of same devices to stably move left and right on an overhead steel wire, so that the device can safely work at high altitude, the transverse range of work and the number of people in work are increased, the speed of work is greatly increased, the device can rotate around a chassis of the device by three hundred sixty degrees, and the device can not only perform multidirectional work, but also conveniently observe the conditions of the moving direction during moving.
Detailed Description
The first embodiment is as follows:
the embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, and 13. the present invention relates to a briquetting device, and more specifically, to a multifunctional overhead wire moving device, which includes a support mounting base 1, a support mounting base reinforcing bolt 2, a seat rotating chassis 3, a limiting rod 4, a load bearing connecting frame 5, a seat 6, a moving connecting device 7, a transmission device 8, a transmission gear set 9, and a moving driving device 10, can lead a plurality of same devices to stably move left and right on the high-altitude steel wire, thereby not only safely working at high altitude, but also increasing the transverse range of the work and the number of people, greatly improving the working speed, leading the device to rotate by three hundred and sixty degrees around the self chassis, therefore, the multifunctional mobile phone can not only perform multidirectional operation, but also be convenient to observe the conditions of the moving direction during moving.
The supporting and mounting base 1 is composed of a square-bottom cylindrical chassis 1-1, a semi-annular mounting block 1-2, a threaded hole 1-3, a mounting cap 1-4 and a transmission device A1-5, other devices are installed on a square bottom cylindrical chassis 1-1, a threaded hole 1-3 is connected with the square bottom cylindrical chassis 1-1 and a semi-annular installation block 1-2, a transmission device A1-5 transmits kinetic energy to a mobile connection device 7, the semi-annular installation block 1-2 is installed on the square bottom cylindrical chassis 1-1, the threaded hole 1-3 is formed in the semi-annular installation block 1-2, an installation cap 1-4 is installed on the semi-annular installation block 1-2, the installation cap 1-4 is in threaded fit with the semi-annular installation block 1-2, and a transmission device A1-5 is installed on the semi-annular installation block 1-2;
the transmission device A1-5 comprises a mounting bracket 1-5-1, a connecting shaft 1-5-2, a limit nut 1-5-3, a trapezoidal face gear 1-5-4 and a gear 1-5-5, wherein the limit nut 1-5-3 limits the position of the connecting shaft 1-5-2 on the mounting bracket 1-5-1 so as to limit the positions of the trapezoidal face gear 1-5-4 and the gear 1-5-5, the connecting shaft 1-5-2 is mounted on the mounting bracket 1-5-1, the connecting shaft 1-5-2 and the mounting bracket 1-5-1 are in clearance fit, the limit nut 1-5-3 is mounted on the connecting shaft 1-5-2, the limit nut 1-5-3 and the connecting shaft 1-5-2 are in threaded fit, the limiting nut 1-5-3 is matched with the mounting bracket 1-5-1, the trapezoidal face gear 1-5-4 is mounted on the connecting shaft 1-5-2, and the gear 1-5-5 is mounted on the connecting shaft 1-5-2;
the seat rotating chassis 3 is composed of a circular chassis 3-1, a cylindrical roller 3-2, a transmission gear set mounting hole 3-3 and a limiting hole 3-4, the cylindrical roller 3-2 is convenient for the device to rotate, the transmission gear set mounting hole 3-3 is used for mounting and enhancing the stability of a transmission gear set 9, the cylindrical roller 3-2 is mounted on the circular chassis 3-1, the cylindrical roller 3-2 is in clearance fit with the circular chassis 3-1, the transmission gear set mounting hole 3-3 is formed in the center of the circular chassis 3-1, and the limiting hole 3-4 is formed in the circular chassis 3-1;
the movable connecting device 7 consists of a mounting tripod 7-1 and a rotation transmission gear set 7-2, the device comprises a movable wheel set 7-3 and a chain 7-4, wherein a mounting tripod 7-1 supports the whole device, a rotation transfer gear set 7-2 receives kinetic energy and transfers the kinetic energy to the movable wheel set 7-3 to drive the whole device to move, the rotation transfer gear set 7-2 is mounted on the mounting tripod 7-1, the rotation transfer gear set 7-2 is in clearance fit with the mounting tripod 7-1, the movable wheel set 7-3 is mounted on the mounting tripod 7-1, the movable wheel set 7-3 is in clearance fit with the mounting tripod 7-1, the chain 7-4 is mounted on the rotation transfer gear set 7-2, and the chain 7-4 is mounted on the movable wheel set 7-3;
the mounting tripod 7-1 consists of a frame 7-1-1, a structural reinforcing pipe 7-1-2, a wheel set mounting shaft 7-1-3, a rotation transmission gear set mounting upper seat 7-1-4 and a rotation transmission gear set mounting lower seat 7-1-5, wherein the group mounting shaft 7-1-3 is convenient for mounting the movable wheel set 7-3, the rotation transmission gear set mounting upper seat 7-1-4 is matched with the rotation transmission gear set mounting lower seat 7-1-5 to be convenient for mounting the rotation transmission gear set 7-2, the structural reinforcing pipe 7-1-2 is mounted on the frame 7-1-1, the wheel set mounting shaft 7-1-3 is mounted on the frame 7-1-1, the rotation transmission gear set mounting upper seat 7-1-4 is mounted on the frame 7-1-1, the lower rotating transmission gear set mounting seat 7-1-5 is mounted on the upper rotating transmission gear set mounting seat 7-1-4, and the lower rotating transmission gear set mounting seat 7-1-5 is matched with the upper rotating transmission gear set mounting seat 7-1-4 through bolts;
the rotation transmission gear set 7-2 consists of a stepped shaft 7-2-1, a transmission big gear 7-2-2 and a transmission small gear 7-2-3, the stepped shaft 7-2-1 enables the transmission big gear 7-2-2 and the transmission small gear 7-2-3 to concentrically rotate, the transmission big gear 7-2-2 receives kinetic energy, the transmission small gear 7-2-3 outputs kinetic energy, the transmission big gear 7-2-2 is arranged on the stepped shaft 7-2-1, the transmission big gear 7-2-2 is in clearance fit with the stepped shaft 7-2-1, the transmission big gear 7-2-2 and the stepped shaft 7-2-1 are reinforced through keys, the transmission small gear 7-2-3 is arranged on the stepped shaft 7-2-1, the transmission pinion 7-2-3 is in clearance fit with the stepped shaft 7-2-1, and the transmission pinion 7-2-3 and the stepped shaft 7-2-1 are reinforced through keys;
the moving wheel set 7-3 consists of a groove round wheel 7-3-1, a transmission gear 7-3-2 and a mounting hole 7-3-3, the groove round wheel 7-3-1 is more stably mounted on a steel wire, the transmission gear 7-3-2 receives the rotating kinetic energy, the transmission gear 7-3-2 is mounted on the groove round wheel 7-3-1, the mounting hole 7-3-3 is a through hole formed in the groove round wheel 7-3-1, and the mounting hole 7-3-3 is a through hole formed in the transmission gear 7-3-2;
the transmission device 8 is composed of a mounting fixed shaft 8-1, an inclined gear 8-2 and a transmission big gear 8-3, the inclined gear 8-2 transmits kinetic energy and changes the rotating direction, the transmission big gear 8-3 receives the kinetic energy, the inclined gear 8-2 is mounted on the mounting fixed shaft 8-1, the inclined gear 8-2 is in clearance fit with the mounting fixed shaft 8-1 and is reinforced by a key, the transmission big gear 8-3 is mounted on the mounting fixed shaft 8-1, the transmission big gear 8-3 is in clearance fit with the mounting fixed shaft 8-1, and the transmission big gear 8-3 is in clearance fit with the mounting fixed shaft 8-1 and is reinforced by a key;
the transmission gear set 9 is composed of a vertical support shaft 9-1, a transmission trapezoidal helical gear 9-2, a transmission trapezoidal large helical gear 9-3 and a mounting reinforcing key 9-4, wherein the vertical support shaft 9-1 drives the transmission trapezoidal helical gear 9-2 and the transmission trapezoidal large helical gear 9-3 to concentrically rotate and transmit the trapezoidal helical gear 9-2 to be mounted on the vertical support shaft 9-1, the transmission trapezoidal large helical gear 9-3 is mounted on the vertical support shaft 9-1, the mounting reinforcing key 9-4 is mounted on the vertical support shaft 9-1, and the mounting reinforcing key 9-4 is mounted on the transmission trapezoidal large helical gear 9-3;
the movement driving device 10 is composed of a base installation supporting frame 10-1, a rotation transmission gear device 10-2, a bolt group 10-3 and a driving force device 10-4, the base installation supporting frame 10-1 firmly installs the device on a seat rotation chassis 3, the rotation transmission gear device 10-2 and the driving force device 10-4 are matched with the driving device to move, the bolt group 10-3 enhances the matching strength of the rotation transmission gear device 10-2 and the driving force device 10-4, the rotation transmission gear device 10-2 is installed on the base installation supporting frame 10-1, the bolt group 10-3 is installed on the rotation transmission gear device 10-2, the bolt group 10-3 is in clearance fit with the rotation transmission gear device 10-2, the driving force device 10-4 is installed on the rotation transmission gear device 10-2, the driving force device 10-4 is in clearance fit with the rotation transmission gear device 10-2, and the driving force device 10-4 is in clearance fit with the bolt group 10-3;
the rotation transmission gear device 10-2 is composed of a rotation trapezoidal shaft 10-2-1, a roller 10-2-2, a mounting circular tube 10-2-3, mounting covers 10-2-4 at two ends and a kinetic energy transmission gear 10-2-5, the roller 10-2-2 reduces friction during rotation, facilitates rotation and prolongs service life, the kinetic energy is transmitted out of kinetic energy during transmission and movement of the gear 10-2-5, the roller 10-2-2 is mounted inside the mounting circular tube 10-2-3, the rotation trapezoidal shaft 10-2-1 is matched with the roller 10-2-2, the mounting covers 10-2-4 at two ends are mounted on the mounting circular tube 10-2-3, the two ends are provided with mounting covers 10-2-4 which are in interference fit with the mounting circular tubes 10-2-3, the two ends are provided with mounting covers 10-2-4 which are in clearance fit with the rotating trapezoidal shaft 10-2-1, the two ends are provided with mounting covers 10-2-4 which are in fit with the rollers 10-2-2, and the kinetic energy transmission gear 10-2-5 is arranged on the rotating trapezoidal shaft 10-2-1;
the driving force device 10-4 consists of a connecting rod 10-4-1, a mounting shaft 10-4-2, a matching nut 10-4-3 and a pedal plate 10-4-4, the pedal plate 10-4-4 facilitates the force of personnel during the assembly and rotation, the mounting shaft 10-4-2 is mounted on the connecting rod 10-4-1, the matching nut 10-4-3 is mounted on the mounting shaft 10-4-2, the matching nut 10-4-3 is in threaded fit with the mounting shaft 10-4-2, the pedal plate 10-4-4 is mounted on the mounting shaft 10-4-2, the pedal plate 10-4-4 is in clearance fit with the mounting shaft 10-4-2, and the pedal plate 10-4-4 is in fit with the matching nut 10-4-3;
the supporting and mounting base reinforcing bolt 2 is mounted on the supporting and mounting base 1, the supporting and mounting base reinforcing bolt 2 is in threaded fit with a semi-annular mounting block 1-2, the seat rotating base 3 is mounted on the supporting and mounting base 1, a circular base 3-1 is in clearance fit with a mounting cap 1-4, a cylindrical roller 3-2 is in clearance fit with the semi-annular mounting block 1-2, a limiting rod 4 is mounted on the supporting and mounting base 1, the limiting rod 4 is in clearance fit with the semi-annular mounting block 1-2, the limiting rod 4 is in clearance fit with the mounting cap 1-4, the limiting rod 4 is in clearance fit with the circular base 3-1, a bearing connecting frame 5 is mounted on the supporting and mounting base 1, the square bottom cylindrical base 1-1 of the bearing connecting frame 5 is in fit, the seat 6 is mounted on the seat rotating base 3, and the seat 6 is in fit, the movable connecting device 7 is installed on the bearing connecting frame 5, the mounting tripod 7-1 is matched with the bearing connecting frame 5, the transmission device 8 is installed inside the seat 6, the transmission gear set 9 is installed on the support mounting base 1, the vertical supporting shaft 9-1 is in clearance fit with the semi-annular mounting block 1-2, the transmission gear set 9 is installed on the seat rotating chassis 3, the vertical supporting shaft 9-1 is in clearance fit with the circular chassis 3-1, the movable driving device 10 is installed on the seat rotating chassis 3, and the base mounting support frame 10-1 is matched with the circular chassis 3-1.
The second embodiment is as follows:
the present embodiment will be described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12 and 13, and the present embodiment further describes the first embodiment in which the movement connecting device 7, the transmission device 8, the transmission gear set 9 and the movement driving device 10 are connected by a chain.
The third concrete implementation mode:
the present embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, and 13, and the present embodiment further describes the first embodiment, in which there are two wheel set mounting shafts 7-1-3, two rotation transmission gear sets 7-2, and four moving wheel sets 7-3 of the moving connecting device 7.
The working principle of the invention is as follows:
the working principle of the multifunctional high-altitude steel wire moving device is that the firmness of the connection among all devices is checked before use, the device works after being qualified, a limiting rod 4 arranged on a support mounting base 1 and a seat rotating chassis 3 is pulled up, a seat 6 is rotated at the moment, because the seat 6 is arranged on the seat rotating chassis 3, the round chassis 3-1 can rotate around the position of the vertical supporting shaft 9-1, the cylindrical roller 3-2 arranged between the semi-annular mounting block 1-2 and the round chassis 3-1 can also rotate, the friction generated when the two rotate is reduced, when the seat 6 drives the circular chassis 3-1 to rotate to a proper position, the limiting rod 4 is inserted into the limiting hole of the semi-annular mounting block 1-2 through the limiting hole 3-4 on the circular chassis 3-1 to fix the supporting mounting base 1 and the seat rotating chassis 3. After the direction is adjusted, the user can use feet to ride the same pedaling plate 10-4-4 as a bicycle on the pedaling plate 10-4-4 on the mobile driving device 10, which means that the pedaling plate 10-4-4 can drive the driving force device 10-4 to rotate around the rotating trapezoidal shaft 10-2-1 through the mounting shaft 10-4-2, because the rotating trapezoidal shaft 10-2-1 and the connecting rod 10-4-1 are fixed through the bolt group 10-3, the rotating trapezoidal shaft 10-2-1 can drive the kinetic energy transfer gear 10-2-5 to rotate, the kinetic energy transfer gear 10-2-5 drives the transmission big gear 8-3 to rotate through a chain, the transmission big gear 8-3 drives the bevel gear 8-2 to rotate through the mounting shaft 8-1, because the bevel gear 8-2 is matched with the transmission trapezoid helical gear 9-2, the transmission trapezoid helical gear 9-2 can drive the transmission trapezoid large helical gear 9-3 arranged on the vertical supporting shaft 9-1 to rotate, the transmission trapezoid large helical gear 9-3 drives the trapezoid face gear 1-5-4 arranged on the semi-annular mounting block 1-2 to rotate, the trapezoid face gear 1-5-4 drives the gear 1-5-5 to rotate through the connecting shaft 1-5-2, the gear 1-5-5 drives the transmission large gear 7-2-2 to rotate through a chain, the transmission large gear 7-2-2 drives the transmission small gear 7-2-3 to rotate, and the transmission small gear 7-2-3 drives the transmission gear 7-3-2 to rotate through a chain, the transmission gear 7-3-2 drives the groove round wheel 7-3-1 to move on the steel wire so as to drive the whole device to move on the steel wire.
It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.