CN114955927A - Power equipment transfer assembly and power equipment transfer method - Google Patents

Abstract

The embodiment of the invention discloses a power equipment transfer assembly and a power equipment transfer method, wherein the power equipment transfer assembly comprises a rotating device, a jacking device and an operating device. The existing power equipment transfer is generally realized by manually controlling a winch to drive the power equipment to transfer, and the working efficiency is low. The power equipment transfer assembly of this scheme, at power equipment's transfer in-process, earlier through the jacking device with power equipment from first support piece on transfer to rotating device, rotating device rotates to predetermine the angle in order to drive power equipment rotation, rethread jacking device with power equipment from rotating device on transfer to the operation device, then the operation device removes to predetermineeing the position in order to drive power equipment removal, work efficiency is higher.

Description

Power equipment transfer assembly and power equipment transfer method

Technical Field

The invention relates to the technical field of power equipment transfer, in particular to a power equipment transfer assembly and a power equipment transfer method.

Background

During installation and transportation of electrical equipment, it is necessary to transfer the electrical equipment from one location to another.

The existing power equipment transfer is generally realized by manually controlling a winch to drive the power equipment to transfer, and the working efficiency is low.

Disclosure of Invention

The invention aims to provide power equipment transfer, and aims to solve the problems that the conventional power equipment transfer is low in working efficiency because a winch is generally manually controlled to drive power equipment to transfer.

In order to solve one of the above problems, the present invention provides a power equipment transfer method, including a rotating device, a jacking device, and an operating device, where the jacking device is configured to move below a power equipment and jack up or down the power equipment, the rotating device is configured to move below the power equipment when the jacking device jacks up the power equipment, the rotating device is further configured to drive the power equipment to rotate to a preset angle when the jacking device puts down the power equipment, the operating device is configured to move below the power equipment when the jacking device jacks up the power equipment, and the operating device is further configured to drive the power equipment to move to a preset position when the jacking device puts down the power equipment.

In some preferred embodiments of the power equipment transfer assembly, the power equipment transfer assembly further comprises a pushing assembly for moving into contact with the running means, the pushing assembly further being for pushing the running means to move to the preset position.

In some preferred embodiments of the power equipment transfer assembly, the pushing assembly includes two parallel guide rails, two sliding blocks and two pushing rods, the two sliding blocks are respectively matched with the two guide rails and can reciprocate along the two guide rails, two sets of pulleys matched with the two guide rails are respectively arranged on two sides of the bottom surface of the operating device, one ends of the two pushing rods are respectively rotatably connected with the two sliding blocks, and the other ends of the two pushing rods are used for contacting with the operating device.

In some preferred embodiments of the power equipment transfer assembly, the rotating device includes a base, a carrying tray and a first pushing member, the carrying tray and the first pushing member are disposed on the base at intervals, the carrying tray is rotationally connected with the base, the carrying tray is used for carrying the power equipment, and the first pushing member is used for pushing the carrying tray to rotate so as to drive the power equipment to rotate to the preset angle;

the power equipment transfer assembly further comprises a manual hydraulic pump, the rotating device further comprises a lifting piece connected with the base, the lifting piece comprises a lifting body connected with the base and a roller connected with the lifting body, the base is provided with a through hole for the roller to pass through, the lifting body is used for driving the roller to pass back and forth, the through hole is in contact with the ground or leaves the ground, the manual hydraulic pump is used for controlling the lifting body to drive the roller to pass back and forth, and the through hole is in contact with the ground or leaves the ground.

In some preferred embodiments of power equipment transfer assembly, the jacking device includes horizontal jacking piece, vertical jacking piece, slide and fixing base, the fixing base is used for moving extremely power equipment's below, the slide can for the fixing base removes, horizontal jacking piece sets up on the fixing base, the one end of horizontal jacking piece can be elongated or shorten and with the slide is connected, in order to drive the slide is along horizontal reciprocating motion, thereby makes vertical jacking piece is along horizontal reciprocating motion, the one end setting of vertical jacking piece is in on the slide, the other end of vertical jacking piece can be elongated or shorten and be used for with the power equipment butt, in order to incite somebody to action power equipment jack-up or put down.

The second objective of the present invention is to provide a method for transferring power equipment, which aims to solve the problem that the conventional power equipment transfer is low in working efficiency because a winch is generally manually controlled to drive the power equipment to transfer.

In order to solve the second problem, the present invention provides a power equipment transfer method for transferring power equipment using the power equipment transfer assembly as described above, the power equipment being disposed on a first support, the power equipment transfer method comprising the steps of:

the jacking device moves to the position below the electric equipment and jacks up the electric equipment, and then the first support piece is pulled out;

the rotating device moves to the lower part of the power equipment;

the jacking device lowers the electric equipment so as to place the electric equipment on the rotating device;

the rotating device rotates to drive the power equipment to rotate to the preset angle;

the jacking device jacks up the power equipment again, and then the rotating device is transferred out;

the running gear moves to the lower part of the power equipment;

the jacking device lowers the electric equipment so as to place the electric equipment on the running device;

the operation device moves again to drive the electric equipment to move to the preset position.

In some preferred embodiments of the power equipment transfer method, the power equipment transfer assembly further comprises a pushing assembly for moving into contact with the running means, the pushing assembly further being for pushing the running means to move to the preset position;

the operation that the operation device moves again to drive the power equipment to move to the preset position is as follows:

the pushing assembly moves into contact with the running gear;

the pushing assembly moves again to push the running device to move to the preset position.

In some preferred embodiments of the power equipment transfer method, the rotating device includes a base, a carrying tray, and a first pushing member, the carrying tray and the first pushing member are disposed on the base at intervals, the carrying tray is rotationally connected with the base, the carrying tray is used for carrying the power equipment, and the first pushing member is used for pushing the carrying tray to rotate so as to drive the power equipment to rotate to the preset angle;

the rotation device rotates to drive the power equipment to rotate to the preset angle, and the operation is as follows:

the first pushing piece pushes the bearing disc to rotate so as to drive the power equipment to rotate to the preset angle.

In some preferred embodiments of the power equipment transferring method, the power equipment transferring assembly further comprises a manual hydraulic pump, the rotating device further comprises a lifting member connected with the base, the lifting member comprises a lifting body connected with the base and a roller connected with the lifting body, a through hole for the roller to pass through is formed in the base, the lifting body is used for driving the roller to pass through the through hole back and forth to contact with the ground or leave the ground, and the manual hydraulic pump is used for controlling the lifting body to drive the roller to pass through the through hole back and forth to contact with the ground or leave the ground;

the operation of the rotating device moving to the lower part of the power equipment is as follows:

the manual hydraulic pump controls the lifting body to drive the roller to contact the ground;

and manually pulling the rotating device to move below the power equipment.

In some preferred embodiments of the power equipment transfer method, the jacking device comprises a transverse jacking member, a longitudinal jacking member, a sliding seat and a fixed seat, the fixed seat is used for moving below the power equipment, the sliding seat can move relative to the fixed seat, the transverse jacking member is arranged on the fixed seat, one end of the transverse jacking member can be extended or shortened and is connected with the sliding seat so as to drive the sliding seat to reciprocate along the transverse direction, so that the longitudinal jacking member can reciprocate along the transverse direction, one end of the longitudinal jacking member is arranged on the sliding seat, and the other end of the longitudinal jacking member can be extended or shortened and is used for abutting against the power equipment so as to jack up or lower the power equipment; the power equipment transfer method further comprises the following steps:

the jacking device moves to the preset position, and the longitudinal jacking piece jacks up the power equipment so as to transfer the operating device out;

placing a second support below the power device;

the transverse jacking piece drives the longitudinal jacking piece to do reciprocating motion along the transverse direction so as to perform fine adjustment;

the longitudinal jack releases the electrical equipment, thereby placing the electrical equipment on the second support.

The embodiment of the invention has the following beneficial effects:

the power equipment transfer assembly is adopted, the jacking device is used for moving to the lower portion of power equipment and jacking or putting down the power equipment, the rotating device is used for moving to the lower portion of the power equipment when the jacking device jacks the power equipment, the rotating device is further used for driving the power equipment to rotate to a preset angle when the jacking device puts down the power equipment, the operation device is used for moving to the lower portion of the power equipment when the jacking device jacks the power equipment, and the operation device is further used for driving the power equipment to move to a preset position when the jacking device puts down the power equipment. In power equipment's transfer process, on transferring power equipment to rotating device from first support piece through jacking device earlier, rotating device rotates in order to drive power equipment and rotates to predetermineeing the angle, and rethread jacking device shifts power equipment to the running device from rotating device on, then the running device removes in order to drive power equipment and removes to predetermineeing the position, and work efficiency is higher.

The existing power equipment transfer is generally realized by manually controlling a winch to drive the power equipment to transfer, and the working efficiency is low. The power equipment transfer assembly of this scheme, at power equipment's transfer in-process, earlier through the jacking device with power equipment from first support piece on transfer to rotating device, rotating device rotates to predetermine the angle in order to drive power equipment rotation, rethread jacking device with power equipment from rotating device on transfer to the operation device, then the operation device removes to predetermineeing the position in order to drive power equipment removal, work efficiency is higher.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Wherein:

fig. 1 is a schematic perspective view of a power equipment transfer assembly according to an embodiment.

Fig. 2 is an enlarged schematic structural view of a rotating device of the power equipment transfer assembly shown in fig. 1.

Fig. 3 is an enlarged exploded view of the rotating device of the power equipment transfer assembly shown in fig. 2.

Fig. 4 is an enlarged view of a first pusher of the turning device of the power equipment transfer assembly as shown in fig. 3.

Fig. 5 is an enlarged structural schematic view of a base of the rotating device of the power equipment transfer assembly shown in fig. 2.

Fig. 6 is an enlarged view of the lifter of the rotating device of the power equipment transfer unit shown in fig. 2.

Fig. 7 is an enlarged schematic structural view of a pushing assembly of the power equipment transfer assembly shown in fig. 1.

Fig. 8 is an enlarged schematic structural diagram of a jacking device of the power equipment transfer assembly shown in fig. 1.

FIG. 9 is a flow diagram of a power equipment transfer method according to an embodiment.

Reference numerals:

100-rotating means, 110-base, 111-receiving groove, 1111-first side wall, 1113-second side wall, 1115-third side wall, 113-through hole, 120-bearing disc, 121-panel, 123-rotating body, 1231-pushing column, 130-first pushing member, 131-fixing portion, 133-pushing portion, 135-guiding portion, 140-second pushing member, 150-lifting member, 151-lifting body, 153-roller, 160-annular traction member;

200-a jacking device, 210-a transverse jacking piece, 230-a longitudinal jacking piece, 250-a sliding seat and 270-a fixed seat;

300-push assembly, 310-guide, 330-slider, 350-push rod, 351-first push portion, 353-second push portion;

400-manual hydraulic pump;

500-hydraulic pressure station.

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.

It should be noted that all the directional indicators (such as upper, lower, left, right, front and rear … …) in the embodiment of the present invention are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indicator is changed accordingly.

In addition, the descriptions relating to "first", "second", etc. in the present invention are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one of the feature described. In addition, technical solutions between various embodiments may be combined with each other, but must be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present invention.

As shown in fig. 1, an embodiment of the present invention provides an electrical equipment transfer assembly, which includes a rotating device 100, a jacking device 200, and a running device, where the jacking device 200 is used to move below an electrical equipment and jack up or down the electrical equipment, the rotating device 100 is used to move below the electrical equipment when the jacking device 200 jacks up the electrical equipment, the rotating device 100 is further used to drive the electrical equipment to rotate to a preset angle when the jacking device 200 puts down the electrical equipment, the running device is used to move below the electrical equipment when the jacking device 200 jacks up the electrical equipment, and the running device is further used to drive the electrical equipment to move to a preset position when the jacking device 200 puts down the electrical equipment.

By adopting the power equipment transfer assembly, the jacking device 200 is used for moving to the lower part of the power equipment and jacking or putting down the power equipment, the rotating device 100 is used for moving to the lower part of the power equipment when the jacking device 200 jacks up the power equipment, the rotating device 100 is also used for driving the power equipment to rotate to a preset angle when the jacking device 200 puts down the power equipment, the operating device is used for moving to the lower part of the power equipment when the jacking device 200 jacks up the power equipment, and the operating device is also used for driving the power equipment to move to a preset position when the jacking device 200 puts down the power equipment. In the transferring process of the power equipment, the power equipment is firstly transferred to the rotating device 100 from the first supporting piece through the jacking device 200, the rotating device 100 rotates to drive the power equipment to rotate to a preset angle, then the power equipment is transferred to the operating device from the rotating device through the jacking device 200, then the operating device moves to drive the power equipment to move to a preset position, and the working efficiency is high.

The existing power equipment transfer is generally realized by manually controlling a winch to drive the power equipment to transfer, and the working efficiency is low. The power equipment transfer assembly of this scheme, at power equipment's transfer in-process, earlier through the jacking device with power equipment from first support piece on transfer to rotating device, rotating device rotates to predetermine the angle in order to drive power equipment rotation, rethread jacking device with power equipment from rotating device on transfer to the operation device, then the operation device removes to predetermineeing the position in order to drive power equipment removal, work efficiency is higher.

In some preferred embodiments of the power equipment transfer assembly, the power equipment transfer assembly further comprises a hydraulic station 500, and the jacking device 200, the rotating device 100, the running device and the pushing assembly 300 are all connected with the hydraulic station through hydraulic pipelines.

Specifically, the power equipment transfer assembly further comprises a hydraulic station 500, the jacking device 200, the rotating device 100, the operating device and the pushing assembly 300 are all connected with the hydraulic station through hydraulic pipelines, the jacking device 200, the rotating device 100, the operating device and the pushing assembly 300 can be controlled through the hydraulic station, and the operation is convenient. And, be equipped with the touch-sensitive screen on the hydraulic pressure station 500, relevant control parameter that can be convenient input controls jacking device 200, rotating device 100, running gear and pushing component 300, and operating personnel only need operate on the touch-sensitive screen and can shift power equipment to preset the position, convenient operation to work efficiency is higher.

In some preferred embodiments of the power equipment transfer assembly, the power equipment transfer assembly further comprises a pushing assembly 300, the pushing assembly 300 is used for moving to contact with the running device, and the pushing assembly 300 is also used for pushing the running device to move to the preset position.

Specifically, the power equipment transfer assembly further comprises a pushing assembly 300, the pushing assembly 300 is used for moving to be in contact with the operation device, the pushing assembly 300 is also used for pushing the operation device to move to a preset position, and in the pushing process, the hydraulic station 500 controls the pushing assembly 300 to move the operation device to the preset position, so that the operation is convenient, and the working efficiency is high.

In some preferred embodiments of the power equipment transfer assembly, as shown in fig. 7, the pushing assembly 300 includes two parallel guide rails 310, two sliding blocks 330 and two pushing rods 350, the two sliding blocks 330 are respectively matched with the two guide rails 310 and can reciprocate along the two guide rails 310, two sets of pulleys matched with the two guide rails 310 are respectively arranged on two sides of the bottom surface of the running device, one end of each of the two pushing rods 350 is rotatably connected with the two sliding blocks 330, and the other end of each of the two pushing rods 350 is used for contacting with the running device.

Specifically, the pushing assembly 300 includes two parallel guide rails 310, two sliding blocks 330 and two pushing rods 350, the two sliding blocks 330 and the two pushing rods 350 are both two, the two sliding blocks 330 are respectively matched with the two guide rails 310 and can reciprocate along the two guide rails 310, two sets of pulleys matched with the two guide rails 310 are respectively arranged on two sides of the bottom surface of the operation device, one ends of the two pushing rods 350 are respectively rotatably connected with the two sliding blocks 330, the other ends of the two pushing rods 350 are used for contacting with the operation device, in the pushing process, the operation device is arranged on the two guide rails 310 through the two sets of pulleys, the two pushing rods 350 are contacted with the operation device, the two sliding blocks 330 respectively drive the two pushing rods 350 to move, and thus the two pushing rods 350 can push the operation device to move to a preset position.

In some preferred embodiments of the power equipment transfer assembly, the push lever 350 comprises a first push portion 351 rotatably connected with the slider 330 and a second push portion 353 movably connected with the first push portion 351, the first push portion 351 can be elongated or shortened relative to the second push portion 353, and one end of the second push portion 353 remote from the first push portion 351 is used for contacting with the operating means.

In some preferred embodiments of the power equipment transfer assembly, as shown in fig. 2 and 3, the rotating device 100 includes a base 110, a carrier tray 120 and a first pushing member 130, the carrier tray 120 and the first pushing member 130 are disposed on the base 110 at intervals, the carrier tray 120 is rotatably connected to the base 110, the carrier tray 120 is used for carrying power equipment, and the first pushing member 130 is used for pushing the carrier tray 120 to rotate so as to drive the power equipment to rotate to a preset angle.

Specifically, the rotating device 100 includes a base 110, a carrying tray 120 and a first pushing member 130, the carrying tray 120 and the first pushing member 130 are disposed on the base 110 at intervals, the carrying tray 120 is rotatably connected to the base 110, the carrying tray 120 is used for carrying electrical equipment, the first pushing member 130 is used for pushing the carrying tray 120 to rotate so as to drive the electrical equipment to rotate to a preset angle, and in the working process, the hydraulic station controls the first pushing member 130 to push the carrying tray 120 to rotate, so that the operation is convenient and the working efficiency is high.

In some preferred embodiments of the power equipment transfer assembly, as shown in fig. 6, the power equipment transfer assembly further includes a manual hydraulic pump 400, the rotating device 100 further includes a lifting member 150 connected to the base 110, the lifting member 150 includes a lifting body 151 connected to the base 110 and a roller 153 connected to the lifting body 151, a through hole 113 for the roller 153 to pass through is formed in the base 110, the lifting body 151 is used for driving the roller 153 to pass through the through hole 113 back and forth to contact with the ground or leave the ground, and the manual hydraulic pump 400 is used for controlling the lifting body 151 to drive the roller 153 to pass through the through hole 113 back and forth to contact with the ground or leave the ground.

Specifically, the power equipment transfer assembly further comprises a manual hydraulic pump 400, the rotating device 100 further comprises a lifting member 150 connected with the base 110, the lifting member 150 comprises a lifting body 151 connected with the base 110 and a roller 153 connected with the lifting body 151, the base 110 is provided with a through hole 113 for the roller 153 to pass through, the lifting body 151 is used for driving the roller 153 to pass through the through hole 113 back and forth to contact with the ground or leave the ground, the manual hydraulic pump 400 is used for controlling the lifting body 151 to drive the roller 153 to pass through the through hole 113 back and forth to contact with the ground or leave the ground, during operation, the manual hydraulic pump 400 controls the lifting body 151 to drive the roller 153 to pass through the through hole 113 to contact with the ground, so that the rotating device 100 can be pulled, and the rotating device 100 is convenient to move.

In some preferred embodiments of the power equipment transfer assembly, as shown in fig. 4, the periphery of the carrier tray 120 is provided with a plurality of pushing posts 1231 arranged at intervals, the first pushing member 130 includes a fixing portion 131 and a pushing portion 133 connected to one end of the fixing portion 131, the pushing portion 133 is extendable and abuts against the pushing posts 1231, so that the pushing portion 133 can push the pushing posts 1231 to rotate, the fixing portion 131 is rotatably connected to the base 110, and the first pushing member 130 can rotate along with the rotation of the pushing posts 1231.

Specifically, the periphery of carrier plate 120 is equipped with a plurality of promotion posts 1231 that the interval set up, first impeller 130 includes fixed part 131 and the pushing part 133 of being connected with fixed part 131 one end, pushing part 133 is extensible and with promote post 1231 butt, thereby make pushing part 133 can promote the rotation of promotion post 1231, fixed part 131 rotates with base 110 to be connected, and then make first impeller 130 can rotate and take place to rotate along with promoting post 1231, pushing part 133 extends and promotes a promotion post 1231 rotation, then pushing part 133 contracts, pushing part 133 extends again and promotes next promotion post 1231 rotation, thereby make carrier plate 120 can be in succession the rotation that does not stop.

In some preferred embodiments of the power equipment transfer assembly, as shown in fig. 5, the first pushing member 130 further includes a guiding portion 135 connected to the pushing portion 133, and the base 110 is provided with a receiving groove 111 for receiving the guiding portion 135.

Specifically, the first pushing member 130 further includes a guiding portion 135 connected to the pushing portion 133, the base 110 is provided with a receiving groove 111 for receiving the guiding portion 135, and the guiding portion 135 moves in the receiving groove 111 to guide the pushing portion 133.

In some preferred embodiments of the power equipment transfer assembly, the receiving groove 111 has an opening facing the carrier tray 120, the receiving groove 111 includes a first sidewall 1111, a second sidewall 1113 and a third sidewall 1115 sequentially connected, the first sidewall 1111 is a plane, the second sidewall 1113 is a first arc, the third sidewall 1115 is a second arc, and the curvature of the second sidewall 1113 is greater than the curvature of the third sidewall 1115.

Specifically, the receiving groove 111 has an opening facing the carrier tray 120, the receiving groove 111 includes a first sidewall 1111, a second sidewall 1113 and a third sidewall 1115 sequentially connected, the first sidewall 1111 is a plane, the second sidewall 1113 is a first arc, the third sidewall 1115 is a second arc, the curvature of the second sidewall 1113 is greater than that of the third sidewall 1115, and the movement of the guiding portion 135 is as follows: the guiding portion 135 is on the second side wall 1113, and the pushing portion 133 is in a contracted state, and then the pushing portion 133 moves along the first side wall 1111, and then the pushing portion 133 begins to extend to push the carrier tray 120 to rotate, and then the carrier tray 120 rotates a short distance, and then the guiding portion 135 returns to the second side wall 1113 along the third side wall 1115, and then the pushing portion 133 begins to contract.

In some preferred embodiments of the power equipment transfer assembly, the first pushers 130 are two, two first pushers 130 are diagonally disposed and the two first pushers 130 are oppositely oriented.

Specifically, the number of the first pushing members 130 is two, the two first pushing members 130 are arranged diagonally, the orientations of the two first pushing members 130 are opposite, and the two first pushing members 130 work simultaneously to better push the carrier tray 120 to rotate.

In some preferred embodiments of the power equipment transfer assembly, the rotating device further includes a second pushing member 140 disposed on the base 110, the carrier tray 120 and the first pushing member 130 are both disposed at a distance from the second pushing member 140, one end of the second pushing member 140 is extendable and abuts against the carrier tray 120, so that the second pushing member 140 can push the carrier tray 120 to rotate, the other end of the second pushing member 140 is rotatably connected to the base 110, so that the second pushing member 140 can rotate along with the rotation of the carrier tray 120, and the pushing direction of the second pushing member 140 is opposite to the pushing direction of the first pushing member 130.

Specifically, the rotating device further includes a second pushing member 140 disposed on the base 110, the carrier tray 120 and the first pushing member 130 are both disposed at an interval from the second pushing member 140, one end of the second pushing member 140 is extendable and abuts against the carrier tray 120, so that the second pushing member 140 can push the carrier tray 120 to rotate, the other end of the second pushing member 140 is rotatably connected to the base 110, so that the second pushing member 140 can rotate along with the rotation of the carrier tray 120, and the pushing direction of the second pushing member 140 is opposite to the pushing direction of the first pushing member 130, so that the carrier tray 20 can rotate along two directions.

In some preferred embodiments of the power equipment transfer assembly, the first pusher 130 pushes the carrier tray 120 to rotate in a counterclockwise direction, and the second pusher 140 pushes the carrier tray 120 to rotate in a clockwise direction.

It is noted that the first pusher 130 and the second pusher 140 are separated from the carrier tray 120 when they are not yet extended, and only when they are extended, they start to abut the carrier tray 120. When the first pushing member 130 pushes, the second pushing member 140 does not abut against the carrier disc, and certainly, when the second pushing member 140 pushes, the first pushing member 130 does not abut against the carrier disc.

In some preferred embodiments of the power equipment transfer assembly, there are two second pushers 140, two second pushers 140 are diagonally disposed and the orientation of the two second pushers 140 is opposite.

Specifically, two second pushing members 140 are provided, two second pushing members 140 are arranged diagonally, the orientations of the two second pushing members 140 are opposite, and the two second pushing members 140 work simultaneously to better push the carrier tray 20 to rotate.

In some preferred embodiments of the power equipment transfer assembly, a first pusher 130, a second pusher 140, another first pusher 130, and another second pusher 140 are sequentially disposed at four corners of the base 110, respectively.

Specifically, a first pushing member 130, a second pushing member 140, another first pushing member 130, and another second pushing member 140 are sequentially disposed at four corners of the base 110, respectively, so as to save the space of the base 110.

In some preferred embodiments of the power equipment transfer assembly, the carrier tray 120 includes a panel 121, a rotating body 123, and a friction member 125 stacked in sequence, and the friction member 125 is sandwiched between the rotating body 123 and the base 110.

Specifically, the carrier tray 120 includes a panel 121, a rotating body 123, and a friction member 125 stacked in sequence, the friction member 125 is sandwiched between the rotating body 123 and the base 110, and the friction member 125 has a function of wear resistance.

In some preferred embodiments of the power equipment transfer assembly, the friction member 125 is a PTFE friction member.

Specifically, the friction member 125 is a PTFE friction member, which has a good wear resistance.

In some preferred embodiments of the power equipment transfer assembly, the rotating device further comprises a loop traction member 160 for passing the rope therethrough, the loop traction member 160 being rotatably connected to the base 10.

Specifically, the rotating device further comprises a ring-shaped traction member 160 for passing the rope, the ring-shaped traction member 160 is rotatably connected with the base 10, the rope passes through the ring-shaped traction member 160, and an operator can move the rotating device by pulling the rope.

In some preferred embodiments of the power equipment transfer assembly, as shown in fig. 8, the jacking device 200 includes a transverse jacking member 210, a longitudinal jacking member 230, a sliding base 250 and a fixing base 270, the fixing base 270 is used for moving below the power equipment, the sliding base 250 is movable relative to the fixing base 270, the transverse jacking member 210 is disposed on the fixing base 270, one end of the transverse jacking member 210 can be extended or shortened and is connected with the sliding base 250 to drive the sliding base 250 to reciprocate along the transverse direction, so that the longitudinal jacking member 230 reciprocates along the transverse direction, one end of the longitudinal jacking member 230 is disposed on the sliding base 250, and the other end of the longitudinal jacking member 230 can be extended or shortened and is used for abutting against the power equipment to jack up or lower the power equipment.

Specifically, the jacking device 200 comprises a transverse jacking member 210, a longitudinal jacking member 230, a sliding base 250 and a fixed base 270, the fixed base 270 is used for moving below the electric equipment, the sliding base 250 can move relative to the fixed base 270, the transverse jacking member 210 is arranged on the fixed base 270, one end of the transverse jacking member 210 can be extended or shortened and is connected with the sliding base 250 to drive the sliding base 250 to reciprocate along the transverse direction, so that the longitudinal jacking member 230 can reciprocate along the transverse direction, one end of the longitudinal jacking member 230 is arranged on the sliding base 250, the other end of the longitudinal jacking member 230 can be extended or shortened and is used for abutting against the electric equipment to jack up or lower the electric equipment, the electric equipment can be jacked up or lowered through the longitudinal jacking member 230, the transverse jacking member 210 can drive the longitudinal jacking member 230 to move along the transverse direction, so that the electric equipment can be finely adjusted along the transverse direction, so that the electrical equipment can be accurately placed on the second support.

An embodiment of the present invention provides an electrical equipment transfer method, as shown in fig. 9, in which an electrical equipment is transferred by using the electrical equipment transfer assembly as described above, the electrical equipment is disposed on a first support, and the electrical equipment transfer method includes the following steps:

s10, the jacking device 200 moves to the lower part of the electric equipment and jacks up the electric equipment, and then the first support is drawn out.

S20, the rotating device 100 moves to the lower side of the power equipment.

S30, the jacking device 200 lowers the electric equipment, thereby placing the electric equipment on the rotating device 100.

S40, the rotating device 100 rotates to drive the power equipment to rotate to a predetermined angle.

S50, the jacking device 200 jacks up the power equipment again, and then the rotating device 100 is transferred out;

and S60, moving the operating device to the lower part of the electric equipment.

S70, the jacking device 200 lowers the electric equipment, thereby placing the electric equipment on the running device.

And S80, moving the operation device again to drive the power equipment to move to the preset position.

In some preferred embodiments of the power equipment transferring method, the power equipment transferring assembly further comprises a manual hydraulic pump 400, the rotating device 100 further comprises a lifting member 150 connected to the base 110, the lifting member 150 comprises a lifting body 151 connected to the base 110 and a roller 153 connected to the lifting body 151, a through hole 113 for the roller 153 to pass through is formed in the base 110, the lifting body 151 is used for driving the roller 153 to pass through the through hole 113 back and forth to contact with the ground or leave the ground, and the manual hydraulic pump 400 is used for controlling the lifting body 151 to drive the roller 153 to pass through the through hole 113 back and forth to contact with the ground or leave the ground.

S20 specifically includes: s21, controlling the lifting body 151 to drive the roller 153 to contact the ground by the manual hydraulic pump 400; and S22, manually pulling the rotating device 100 to move to the lower part of the power equipment.

In some preferred embodiments of the power equipment transferring method, the rotating device 100 includes a base 110, a carrier tray 120 and a first pushing member 130, the carrier tray 120 and the first pushing member 130 are disposed on the base 110 at intervals, the carrier tray 120 is rotatably connected to the base 110, the carrier tray 120 is used for carrying the power equipment, and the first pushing member 130 is used for pushing the carrier tray 120 to rotate so as to drive the power equipment to rotate to a preset angle.

S40, the operation of rotating the rotating device 100 to drive the power equipment to rotate to the preset angle is:

the first pushing member 130 pushes the carrier tray 120 to rotate, so as to drive the electrical equipment to rotate to a predetermined angle.

In some preferred embodiments of the power equipment transfer method, the power equipment transfer assembly further comprises a pushing assembly 300, the pushing assembly 300 is used for moving to contact with the running device, and the pushing assembly 300 is also used for pushing the running device to move to the preset position.

S80 specifically includes: s81, the pushing component 300 moves to contact with the running device; s82, the pushing assembly 300 moves again to push the operation device to move to the preset position.

By adopting the above power equipment transfer method, the jacking device 200 is used for moving to the lower part of the power equipment and jacking or putting down the power equipment, the rotating device 100 is used for moving to the lower part of the power equipment when the jacking device 200 jacks up the power equipment, the rotating device 100 is also used for driving the power equipment to rotate to a preset angle when the jacking device 200 puts down the power equipment, the operating device is used for moving to the lower part of the power equipment when the jacking device 200 jacks up the power equipment, and the operating device is also used for driving the power equipment to move to a preset position when the jacking device 200 puts down the power equipment. In the transferring process of the power equipment, the power equipment is firstly transferred to the rotating device 100 from the first supporting piece through the jacking device 200, the rotating device 100 rotates to drive the power equipment to rotate to a preset angle, then the power equipment is transferred to the operating device from the rotating device through the jacking device 200, then the operating device moves to drive the power equipment to move to a preset position, and the working efficiency is high.

The existing power equipment transfer is generally realized by manually controlling a winch to drive the power equipment to transfer, and the working efficiency is low. According to the electric power equipment transfer method, in the transfer process of the electric power equipment, the electric power equipment is transferred to the rotating device from the first supporting piece through the jacking device, the rotating device rotates to drive the electric power equipment to rotate to the preset angle, then the electric power equipment is transferred to the operating device from the rotating device through the jacking device, then the operating device moves to drive the electric power equipment to move to the preset position, and the working efficiency is high.

In some preferred embodiments of the power equipment transfer method, the jacking device 200 includes a transverse jacking member 210, a longitudinal jacking member 230, a sliding seat 250 and a fixed seat 270, the fixed seat 270 is used for moving below the power equipment, the sliding seat 250 is movable relative to the fixed seat 270, the transverse jacking member 210 is disposed on the fixed seat 270, one end of the transverse jacking member 210 can be extended or shortened and is connected with the sliding seat 250 to drive the sliding seat 250 to reciprocate along the transverse direction, so that the longitudinal jacking member 230 reciprocates along the transverse direction, one end of the longitudinal jacking member 230 is disposed on the sliding seat 250, and the other end of the longitudinal jacking member 230 can be extended or shortened and is used for abutting against the power equipment to jack up or lower the power equipment. The power equipment transfer method further comprises the following steps:

s90, the jacking device 200 moves to the preset position, and the longitudinal jacking piece 230 jacks up the electric equipment, so as to transfer the operation device out.

S100, placing a second support piece below the power equipment.

S110, the transverse lifting piece 210 drives the longitudinal lifting piece 230 to reciprocate along the transverse direction so as to perform fine adjustment.

S120, the longitudinal jack 230 releases the power equipment, thereby placing the power equipment on the second support.

The above disclosure is only for the purpose of illustrating the preferred embodiments of the present invention, and it is therefore to be understood that the invention is not limited by the scope of the appended claims.

Claims (10)

1. The utility model provides a power equipment shifts subassembly which characterized in that, includes rotating device, jacking device and operation device, the jacking device is used for moving to the below of power equipment and will power equipment jack-up or put down, rotating device is used for the jacking device will move to the below of power equipment when power equipment jacks up, just rotating device still is used for the jacking device will power equipment drives when putting down power equipment the power equipment rotates to predetermineeing the angle, the operation device is used for moving to the below of power equipment when the jacking device will power equipment jacks up, and the operation device still is used for the jacking device will power equipment drives when putting down power equipment the power equipment moves to predetermineeing the position.

2. The power equipment transfer assembly of claim 1 further comprising a pushing assembly for moving into contact with the running means, the pushing assembly further for pushing the running means to move to the preset position.

3. The power equipment transfer assembly of claim 2, wherein the pushing assembly comprises two parallel guide rails, two sliding blocks and two pushing rods, the two sliding blocks are respectively matched with the two guide rails and can reciprocate along the two guide rails, two sets of pulleys matched with the two guide rails are respectively arranged on two sides of the bottom surface of the running device, one ends of the two pushing rods are respectively connected with the two sliding blocks in a rotating manner, and the other ends of the two pushing rods are used for being in contact with the running device.

4. The power equipment transfer assembly according to any one of claims 1 to 3, wherein the rotating device includes a base, a carrier tray and a first pushing member, the carrier tray and the first pushing member are disposed on the base at an interval, the carrier tray is rotatably connected to the base, the carrier tray is used for carrying the power equipment, and the first pushing member is used for pushing the carrier tray to rotate so as to drive the power equipment to rotate to the preset angle;

the power equipment transfer assembly further comprises a manual hydraulic pump, the rotating device further comprises a lifting piece connected with the base, the lifting piece comprises a lifting body connected with the base and a roller connected with the lifting body, the base is provided with a through hole for the roller to pass through, the lifting body is used for driving the roller to pass back and forth, the through hole is in contact with the ground or leaves the ground, the manual hydraulic pump is used for controlling the lifting body to drive the roller to pass back and forth, and the through hole is in contact with the ground or leaves the ground.

5. The power equipment transfer assembly of claim 4, wherein the jacking device comprises a transverse jacking member, a longitudinal jacking member, a sliding seat and a fixed seat, the fixed seat is used for moving below the power equipment, the sliding seat can move relative to the fixed seat, the transverse jacking member is arranged on the fixed seat, one end of the transverse jacking member can be extended or shortened and is connected with the sliding seat so as to drive the sliding seat to reciprocate along the transverse direction, so that the longitudinal jacking member reciprocates along the transverse direction, one end of the longitudinal jacking member is arranged on the sliding seat, and the other end of the longitudinal jacking member can be extended or shortened and is used for being abutted against the power equipment so as to jack up or put down the power equipment.

6. An electrical equipment transfer method for transferring an electrical equipment provided on a first support member by using the electrical equipment transfer assembly according to any one of claims 1 to 5, the electrical equipment transfer method comprising the steps of:

the jacking device moves to the position below the electric equipment and jacks up the electric equipment, and then the first support piece is pulled out;

the rotating device moves to the lower part of the power equipment;

the jacking device lowers the electric equipment so as to place the electric equipment on the rotating device;

the rotating device rotates to drive the power equipment to rotate to the preset angle;

the jacking device jacks up the power equipment again, and then the rotating device is transferred out;

the running gear moves to the lower part of the power equipment;

the jacking device lowers the electric equipment so as to place the electric equipment on the running device;

the operation device moves again to drive the electric equipment to move to the preset position.

7. The electrical equipment transfer method of claim 6 wherein the electrical equipment transfer assembly further comprises a pushing assembly for moving into contact with the running means, the pushing assembly further for pushing the running means to move to the preset position;

the operation that the operation device moves again to drive the power equipment to move to the preset position is as follows:

the pushing assembly moves into contact with the running gear;

the pushing assembly moves again to push the running device to move to the preset position.

8. The power equipment transferring method according to claim 7, wherein the rotating device includes a base, a carrier tray and a first pushing member, the carrier tray and the first pushing member are disposed on the base at an interval, the carrier tray is rotatably connected to the base, the carrier tray is used for carrying the power equipment, and the first pushing member is used for pushing the carrier tray to rotate so as to drive the power equipment to rotate to the preset angle;

the rotation device rotates to drive the power equipment to rotate to the preset angle, and the operation is as follows:

the first pushing piece pushes the bearing disc to rotate so as to drive the power equipment to rotate to the preset angle.

9. The power equipment transfer method according to claim 8, wherein the power equipment transfer assembly further comprises a manual hydraulic pump, the rotating device further comprises a lifting member connected with the base, the lifting member comprises a lifting body connected with the base and a roller connected with the lifting body, a through hole for the roller to pass through is formed in the base, the lifting body is used for driving the roller to pass through the through hole back and forth to contact with the ground or leave the ground, and the manual hydraulic pump is used for controlling the lifting body to drive the roller to pass through the through hole back and forth to contact with the ground or leave the ground;

the operation of the rotating device moving to the lower part of the power equipment is as follows:

the manual hydraulic pump controls the lifting body to drive the roller to contact the ground;

and manually pulling the rotating device to move below the power equipment.

10. The power equipment transfer method according to claim 9, wherein the jacking device comprises a transverse jacking member, a longitudinal jacking member, a slide seat and a fixed seat, the fixed seat is used for moving to the lower part of the power equipment, the slide seat can move relative to the fixed seat, the transverse jacking member is arranged on the fixed seat, one end of the transverse jacking member can be extended or shortened and is connected with the slide seat so as to drive the slide seat to reciprocate along the transverse direction, so that the longitudinal jacking member can reciprocate along the transverse direction, one end of the longitudinal jacking member is arranged on the slide seat, and the other end of the longitudinal jacking member can be extended or shortened and is used for abutting against the power equipment so as to jack up or put down the power equipment; the power equipment transfer method further comprises the following steps:

the jacking device moves to the preset position, and the longitudinal jacking piece jacks up the power equipment so as to transfer the operating device out;

placing a second support below the power equipment;

the transverse jacking piece drives the longitudinal jacking piece to do reciprocating motion along the transverse direction so as to perform fine adjustment;

the longitudinal jack releases the electrical equipment, thereby placing the electrical equipment on the second support.

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