CN217867762U - Lifting equipment with double-stage current collector - Google Patents

Abstract

The utility model relates to a lifting equipment from taking doublestage current collector in the wiping line field, including the device body, the top cooperation of device body is provided with the slip track, the device body includes the slide rail subassembly that is connected with the slip track, the lower extreme cooperation of slide rail subassembly is provided with hoisting apparatus, the slide rail subassembly corresponds hoisting apparatus and is provided with a plurality of groups of connection module, and the cooperation is provided with a plurality of groups of current collector subassemblies on this connection module, hoisting apparatus drives through the drive arrangement who sets up in slide rail subassembly one side, hoisting apparatus is connected with drive arrangement through the drive connecting rod; the device has greatly reduced hoisting equipment and has appeared phenomenons such as contact failure in the removal process, guarantees hoisting equipment stability in handling.

Description

Lifting equipment with double-stage current collector

Technical Field

The utility model relates to a wiping line technical field, in particular to lift by crane equipment.

Background

In the existing production process, the volume of production equipment is gradually increased, and the equipment needs to be carried when a subsequent factory is transformed, so that the equipment can be carried in a large-scale factory through hoisting equipment to increase the carrying efficiency, the utilization rate of a travelling crane is greatly increased, the travelling crane often has the phenomena of poor contact of a current collector and the like in the sliding process, the travelling crane cannot move, and the equipment cannot be carried.

SUMMERY OF THE UTILITY MODEL

The utility model aims at the shortcoming that above prior art exists, provide a from taking the lift of doublestage current collector to repair equipment, the device very big degree has reduced the equipment of lifting by crane and has appeared phenomenons such as contact failure at the removal in-process, guarantees to lift by crane the stability of equipment in handling.

The purpose of the utility model is realized like this: the utility model provides a lift by crane equipment from taking doublestage current collector, includes device body (1), and the top cooperation of device body (1) is provided with slip track (2), device body (1) includes the slide rail set spare that is connected with slip track (2), slide rail set spare's lower extreme cooperation is provided with hoisting apparatus (3), slide rail set spare corresponds hoisting apparatus (3) and is provided with a plurality of groups link module (4), and the cooperation is provided with a plurality of groups current collector subassembly on this link module (4), hoisting apparatus (3) drive through setting up in drive arrangement (5) of slide rail set spare one side, hoisting apparatus (3) are connected with drive arrangement (5) through drive connecting rod (6).

The utility model discloses during operation, device body (1) slides on slip track (2) through slide rail set spare, the carbon brush subassembly (10) of current collector subassembly carry out sliding contact with the wiping line and through conduction module (9) to the power supply of drive module core simultaneously, make left side slide rail (12) and right side slide rail (13) continuous work, for solving current collector subassembly contact failure scheduling problem, so set up left side current collector (7) and right side current collector (8), when contact failure appears in arbitrary a set of current collector subassembly in left side current collector (7) and right side current collector (8), remaining a set of current collector subassembly will continue to supply power, with the normal removal of guaranteeing slide rail set spare, when device body (1) removes to suitable position, rotation through pivot (18), carry equipment, simultaneously when using, can adjust the height of conduction module (9) according to the demand, it can to make through-hole (20) of connecting module (4) correspond waist type groove (21) setting of difference on conduction module (9) and fix through the bolt connection.

The utility model has the advantages that: the utility model provides a from hoist machine of taking doublestage current collector repair equipment, the device very big degree has reduced hoisting equipment and has appeared phenomenon such as contact failure at the removal in-process, guarantees the stability of hoisting equipment in handling.

As a further improvement of the utility model, in order to prevent bad contact; the current collector assembly comprises a left side current collector (7) and a right side current collector (8), the left side current collector (7) and the right side current collector (8) are respectively arranged on connecting modules (4) on two sides of the sliding rail assembly, the connecting modules (4) are provided with two groups and are respectively arranged on two sides of the sliding rail assembly, each group of connecting modules (4) is provided with a conduction module (9) corresponding to the current collector assembly, the conduction modules (9) are hinged to be arranged on the outer wall of the connecting modules (4) and are arranged in a hollow mode, one end of each conduction module (9) is provided with a connector corresponding to the current collector assembly, the left side current collector (7) and one end of the right side current collector (8) are correspondingly embedded into the connectors, the bottom end of each group of the conduction modules (9) corresponds to the connecting modules (4) to be provided with through holes (20) in advance, a plurality of groups of waist-shaped grooves (21) are preset on the connecting modules (4) corresponding to the conduction modules (9), the waist-shaped grooves (21) and are integrally formed with the connecting modules (4), and the through holes (20) of the connecting modules (4) are correspondingly arranged and fixed through bolts.

As a further improvement of the utility model, the continuous driving is convenient; the cooperation of the upper end of left side current collector (7) is provided with carbon brush subassembly (10), and this carbon brush subassembly (10) are circular overlap joint and set up on the wiping line and can rotate, the lower extreme of carbon brush subassembly (10) is connected with left side current collector (7) through the wire, the lower extreme of left side current collector (7) corresponds conduction module (9) and is provided with conduction wire (11), and the one end and the left side current collector (7) of this conduction wire (11) are inside to be linked together, and the other end of conduction wire (11) is linked together with the connector of conduction module (9), right side current collector (8) are the same structure and correspond the wiping line setting with left side current collector (7).

As a further improvement of the utility model, the driving is convenient; the inside of connecting module (4) is the cavity setting and the bottom suit sets up on drive connecting rod (6), sliding rail set spare includes left side slide rail (12) and right side slide rail (13), left side slide rail (12) and right side slide rail (13) symmetry of each other set up in the medial surface of connecting module (4), be connected and rotatory through drive pivot (14) between sliding rail set spare and connecting module (4), drive pivot (14) inside is the cavity setting and has preset drive module, the inside of conduction module (9) corresponds drive module and is provided with the power cord and supplies power to drive module through the power cord.

As a further improvement of the utility model, the equipment is convenient to carry; the hoisting device (3) is connected with the driving connecting rod (6) through a transmission hinge (15), one end of the transmission hinge (15) is integrally formed with the driving connecting rod (6), the other end of the transmission hinge (15) is arranged outside the hoisting device (3) in a surrounding mode and is fixed through bolts, hoisting hinges (16) are arranged on two sides of the hoisting device (3) in a pre-arranged mode, and the hoisting hinges (16) are arranged on two sides of the hoisting device (3) in a surrounding mode and are fixed through bolts in a connecting mode.

As a further improvement of the utility model, the equipment is convenient to lift; the driving device (5) is hinged to one side of the connecting module (4), a rotating shaft (18) is arranged in the middle of the driving connecting rod (6) corresponding to the hoisting device (3), the rotating shaft (18) is integrally formed in the driving connecting rod (6) and can rotate, the driving connecting rod (6) is arranged in a hollow mode and is communicated with the driving device (5) through an electric wire, and the rotating shaft (18) is driven through the driving device (5).

As a further improvement of the utility model, the power supply is convenient; the bottom end of the driving device (5) is provided with a power line (19) in a matched mode, one end of the power line (19) is communicated with the inside of the driving device (5), and the other end of the power line (19) extends towards the ground and is provided with a safety plug in a matched mode.

Drawings

Fig. 1 is a first schematic diagram of the present invention.

Fig. 2 is an enlarged view of the position A of the present invention.

Fig. 3 is a schematic diagram of a conductive module and a connection module.

The device comprises a device body 1, a sliding track 2, a hoisting device 3, a connecting module 4, a driving device 5, a driving connecting rod 6, a left current collector 7, a right current collector 8, a transmission module 9, a carbon brush assembly 10, a transmission lead 11, a left sliding rail 12, a right sliding rail 13, a driving rotating shaft 14, a transmission hinge 15, a hoisting hinge 16, a rotating shaft 18, a power line 19, a through hole 20 and a waist-shaped groove 21.

Detailed Description

As shown in fig. 1-3, a lifting apparatus with a dual-stage current collector comprises an apparatus body 1, a sliding rail 2 is cooperatively arranged at the top end of the apparatus body 1, the apparatus body 1 comprises a sliding rail assembly connected with the sliding rail 2, a lifting device 3 is cooperatively arranged at the lower end of the sliding rail assembly, the sliding rail assembly is provided with a plurality of groups of connecting modules 4 corresponding to the lifting device 3, the connecting modules 4 are cooperatively provided with a plurality of groups of current collector assemblies, the lifting device 3 is driven by a driving device 5 arranged at one side of the sliding rail assembly, and the lifting device 3 is connected with the driving device 5 by a driving connecting rod 6; the current collector assembly comprises a left current collector 7 and a right current collector 8, the left current collector 7 and the right current collector 8 are respectively arranged on connecting modules 4 on two sides of the sliding rail assembly, the connecting modules 4 are provided with two groups and respectively arranged on two sides of the sliding rail assembly, each group of connecting modules 4 is provided with a conduction module 9 corresponding to the current collector assembly, the conduction modules 9 are hinged to the outer wall of the connecting modules 4 and are arranged in a hollow mode, one end of each conduction module 9 is provided with a connecting port corresponding to the current collector assembly, one ends of the left current collector 7 and the right current collector 8 are correspondingly embedded in the connecting ports, the bottom end of each group of conduction modules 9 corresponds to a preset through hole 20 of the connecting module 4, a plurality of groups of waist-shaped grooves 21 are preset on the connecting modules 4 corresponding to the conduction modules 9, the waist-shaped grooves 21 and the connecting modules 4 are integrally formed, and the through holes 20 of the connecting modules 4 are arranged corresponding to the waist-shaped grooves 21 and fixed through bolts; the upper end of the left current collector 7 is provided with a carbon brush assembly 10 in a matching manner, the carbon brush assembly 10 is circularly lapped on a sliding contact line and can rotate, the lower end of the carbon brush assembly 10 is connected with the left current collector 7 through a wire, the lower end of the left current collector 7 is provided with a conducting wire 11 corresponding to the conducting module 9, one end of the conducting wire 11 is communicated with the inside of the left current collector 7, the other end of the conducting wire 11 is communicated with a connecting port of the conducting module 9, and the right current collector 8 and the left current collector 7 are in the same structure and are arranged corresponding to the sliding contact line; the inside of the connecting module 4 is hollow, the bottom end of the connecting module is sleeved on the driving connecting rod 6, the slide rail assembly comprises a left slide rail 12 and a right slide rail 13, the left slide rail 12 and the right slide rail 13 are symmetrically arranged on the inner side surface of the connecting module 4, the slide rail assembly and the connecting module 4 are connected through a driving rotating shaft 14 and rotate, the driving rotating shaft 14 is hollow and is provided with a driving module in advance, and the inside of the transmission module 9 is provided with a power line corresponding to the driving module and supplies power to the driving module through the power line; the hoisting device 3 is connected with the driving connecting rod 6 through a transmission hinge 15, one end of the transmission hinge 15 is integrally formed with the driving connecting rod 6, the other end of the transmission hinge 15 is arranged outside the hoisting device 3 in a surrounding mode and fixed through bolts, hoisting hinges 16 are arranged on two sides of the hoisting device 3 in advance, and the hoisting hinges 16 are arranged on two sides of the hoisting device 3 in a surrounding mode and fixed through bolts; the driving device 5 is hinged to one side of the connecting module 4, a rotating shaft 18 is arranged in the middle of the driving connecting rod 6 corresponding to the hoisting device 3, the rotating shaft 18 is integrally formed on the driving connecting rod 6 and can rotate, the driving connecting rod 6 is hollow and communicated with the driving device 5 through an electric wire, and the rotating shaft 18 is driven through the driving device 5; the bottom end of the driving device 5 is provided with a power line 19 in a matching way, one end of the power line 19 is communicated with the inside of the driving device 5, and the other end of the power line 19 extends towards the ground and is provided with a safety plug in a matching way.

The utility model discloses the during operation: the device body 1 slides on the sliding rail 2 through the sliding rail assembly, meanwhile, the carbon brush assembly 10 of the current collector assembly is in sliding contact with the sliding contact line and supplies power to the driving module core through the conduction module 9, so that the left sliding rail 12 and the right sliding rail 13 continuously work, and in order to solve the problems of poor contact of the current collector assembly and the like, the left current collector 7 and the right current collector 8 are arranged, namely when any one of the left current collector 7 and the right current collector 8 is in poor contact, the rest current collector assemblies continue to supply power to ensure normal movement of the sliding rail assembly, when the device body 1 moves to a proper position, equipment is carried through rotation of the rotating shaft 18, and meanwhile, the height of the conduction module 9 can be adjusted according to requirements, and the through holes 20 of the connection module 4 are arranged corresponding to different waist-shaped grooves 21 on the conduction module 9 and are connected and fixed through bolts.

The present invention is not limited to the above embodiments, and based on the technical solutions disclosed in the present invention, those skilled in the art can make some substitutions and modifications to some technical features without creative labor, and these substitutions and modifications are all within the protection scope.

Claims (7)

1. The utility model provides a lift by crane equipment from taking doublestage current collector, includes device body (1), and the top cooperation of device body (1) is provided with slip track (2), its characterized in that: the device body (1) comprises a sliding rail assembly connected with a sliding rail (2), a hoisting device (3) is arranged in the matching mode of the lower end of the sliding rail assembly, the sliding rail assembly corresponds to the hoisting device (3) and is provided with a plurality of groups of connecting modules (4), a plurality of groups of current collector assemblies are arranged on the connecting modules (4) in the matching mode, the hoisting device (3) is driven through a driving device (5) arranged on one side of the sliding rail assembly, and the hoisting device (3) is connected with the driving device (5) through a driving connecting rod (6).

2. The hoisting device with its own dual stage current collector as claimed in claim 1, wherein: the collector assembly comprises a left side collector (7) and a right side collector (8), the left side collector (7) and the right side collector (8) are respectively arranged on the connecting modules (4) at two sides of the sliding rail assembly, the connecting modules (4) are provided with two groups and are respectively arranged at two sides of the sliding rail assembly, each group of connecting modules (4) is provided with a conduction module (9) corresponding to the collector assembly, the conduction module (9) is hinged to the outer wall of the connecting module (4) and is arranged in a hollow manner, the one end of conduction module (9) corresponds the current collector subassembly and is provided with the connector, left side current collector (7) corresponds the embedding with the one end of right side current collector (8) and sets up in this connector, and the bottom of every group conduction module (9) corresponds link module (4) and predetermines through-hole (20), it has a plurality of groups waist type groove (21) to correspond conduction module (9) on link module (4) and has preset, this waist type groove (21) and link module (4) integrated into one piece, through-hole (20) of link module (4) correspond waist type groove (21) and set up and fix through bolted connection.

3. The apparatus of claim 2 with its own dual stage current collector, wherein: the cooperation of the upper end of left side current collector (7) is provided with carbon brush subassembly (10), and this carbon brush subassembly (10) are circular overlap joint and set up on the wiping line and can rotate, the lower extreme of carbon brush subassembly (10) is connected with left side current collector (7) through the wire, the lower extreme of left side current collector (7) corresponds conduction module (9) and is provided with conduction wire (11), and the one end and the left side current collector (7) of this conduction wire (11) are inside to be linked together, and the other end of conduction wire (11) is linked together with the connector of conduction module (9), right side current collector (8) are the same structure and correspond the wiping line setting with left side current collector (7).

4. The hoisting device with its own dual stage current collector as claimed in claim 2, wherein: the inside of connecting module (4) is the cavity setting and the bottom suit sets up on drive connecting rod (6), sliding rail set spare includes left side slide rail (12) and right side slide rail (13), left side slide rail (12) and right side slide rail (13) symmetry of each other set up in the medial surface of connecting module (4), be connected and rotatory through drive pivot (14) between sliding rail set spare and connecting module (4), drive pivot (14) inside is the cavity setting and has preset drive module, the inside of conduction module (9) corresponds drive module and is provided with the power cord and supplies power to drive module through the power cord.

5. The hoisting device with its own dual stage current collector as claimed in claim 4, wherein: the hoisting device (3) is connected with the driving connecting rod (6) through a transmission hinge (15), one end of the transmission hinge (15) is integrally formed with the driving connecting rod (6), the other end of the transmission hinge (15) is arranged outside the hoisting device (3) in a surrounding mode and is fixed through bolts, hoisting hinges (16) are arranged on two sides of the hoisting device (3) in a pre-arranged mode, and the hoisting hinges (16) are arranged on two sides of the hoisting device (3) in a surrounding mode and are fixed through bolts in a connecting mode.

6. The hoisting device with its own dual stage current collector as claimed in claim 2, wherein: the driving device (5) is hinged to one side of the connecting module (4), a rotating shaft (18) is arranged in the middle of the driving connecting rod (6) corresponding to the hoisting device (3), the rotating shaft (18) is integrally formed in the driving connecting rod (6) and can rotate, the driving connecting rod (6) is arranged in a hollow mode and is communicated with the driving device (5) through an electric wire, and the rotating shaft (18) is driven through the driving device (5).

7. The apparatus of claim 6 wherein: the bottom end of the driving device (5) is provided with a power line (19) in a matched mode, one end of the power line (19) is communicated with the inside of the driving device (5), and the other end of the power line (19) extends towards the ground and is provided with a safety plug in a matched mode.

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