CN220376130U - Internally-buckled 400L two-barrel mechanical lifting appliance - Google Patents

Abstract

The utility model discloses an inner-buckling 400L two-barrel mechanical lifting appliance which comprises lifting rings, a first mechanical lifting appliance rotating mechanism and a first mechanical lifting appliance translation mechanism, wherein the lifting rings are arranged above the first mechanical lifting appliance rotating mechanism, a control box bracket is arranged below the first mechanical lifting appliance rotating mechanism, dust covers are arranged on the left side and the right side of the control box bracket, the mechanical lifting appliance translation mechanism is arranged on the left side and the right side of the control box bracket, and a mechanical lifting appliance steel barrel grabbing mechanism is arranged below the mechanical lifting appliance translation mechanism. The two-barrel mechanical lifting appliance of the inner-buckling type 400L barrel is provided with the rotating mechanism, and can simultaneously rotate and adjust the angle positions of 2 inner-buckling type 400L barrels, so that the space positions during transportation and disposal are met. The two-barrel mechanical lifting appliance of the inner-buckling type 400L barrel is provided with the grabbing head translation mechanism, and the interval between 2 inner-buckling type 400L barrels can be adjusted, so that the interval between the barrels during transportation and the interval between the barrels during disposal can be simultaneously met.

Description

Internally-buckled 400L two-barrel mechanical lifting appliance

Technical Field

The utility model belongs to the technical field of radioactive waste treatment lifting appliance application, and particularly relates to an inner-buckling type 400L two-barrel mechanical lifting appliance.

Background

The lifting appliance is used as an actuating mechanism of the front lifting machine, so that the added value and the operation function of the front lifting machine can be improved. Along with the increasing of log throughput of all ports and wharfs at home and abroad, the requirements on the grabbing tonnage of the waste bin and the operation efficiency are higher. Currently, common waste bucket operation equipment in the market mainly comprises a waste bucket crane, a wood grabbing machine, a gantry crane grab bucket and the like.

The existing special mechanical lifting appliance for the inner-buckling 400L barrel is a single-barrel mechanical lifting appliance, and the lifting appliance can only hoist one inner-buckling 400L steel barrel at a time. The conventional lifting appliance is a mechanical lifting appliance, and the safety performance of the conventional lifting appliance is superior to that of an electric lifting appliance, but the lifting appliance with a pure mechanical structure is easy to have mechanical faults, and the phenomenon of incapability of remotely unhooking is caused after clamping claws. In order to improve the disposal efficiency and the disposal safety, the design requirement of the inner buckling type 400L two-barrel lifting appliance is provided.

Through current literature retrieval discovery, chinese patent publication No. CN112265901B, the patent application of publication No. 2023, 01 month and 13 days discloses a hoist for machining, which comprises a main board, the top of mainboard is equipped with the roof dish, the top of roof dish is equipped with main mounting panel, and is fixed connection between main mounting panel and the roof dish, the bottom of mainboard is equipped with the cylinder, the terminal fixedly connected with load dish of cylinder, the outside of load dish is equipped with the motor, and is fixed connection between motor and the mainboard, the terminal of motor is equipped with the wire reel, and is fixed connection between wire reel and the motor, the bottom of wire reel is equipped with the cable rope, the terminal of cable rope is equipped with the couple, the outside of cable rope is equipped with thermal-insulated cotton, the outside of thermal-insulated cotton is equipped with the lag. This patent application is mainly through utilizing the cylinder to hang the device that sucking disc and magnet piece are connected, but causes the phenomenon that can't long-range unhook behind its jack catch, barrel spacing when can't satisfy the transportation and barrel spacing when handling, and handling efficiency is not high enough.

Disclosure of Invention

The utility model aims to provide an inner-buckling type 400L two-barrel mechanical lifting appliance which can be unhooked remotely after clamping claws, meets the requirements of barrel spacing during transportation and barrel spacing during disposal and is high in disposal efficiency.

In order to achieve the above object, the present utility model adopts the following technical scheme:

the utility model provides an interior two barrels of knot formula 400L machinery hoist, includes rings, first machinery hoist rotary mechanism and fourth machinery hoist rotary mechanism, first machinery hoist rotary mechanism's top is equipped with rings, control box support is installed to first machinery hoist rotary mechanism's below, control box support's left and right both sides are equipped with the dust cover, control box support's left and right sides is equipped with fourth machinery hoist rotary mechanism, fourth machinery hoist rotary mechanism's below is equipped with fifth machinery hoist rotary mechanism.

According to the characteristics, the right side of the fourth mechanical lifting appliance rotating mechanism is sequentially provided with a second inner hexagonal cylindrical head screw, a limit switch and a third inner hexagonal cylindrical head screw from top to bottom.

In some examples, a monitoring camera of the large ball machine is arranged below the control box support, and a monitoring camera support assembly is arranged on the upper side of the monitoring camera of the large ball machine.

According to the above features, the upper and lower sides of the first mechanical sling rotating mechanism are provided with a first hexagon head bolt and a second hexagon head bolt.

In some examples, a third mechanical spreader rotation mechanism is connected between the fourth mechanical spreader rotation mechanism and a fifth mechanical spreader rotation mechanism on which a second hex head bolt is mounted.

According to the above features, the dust cover is provided with a seventh inner hexagonal socket head cap screw and an eighth inner hexagonal socket head cap screw, and the control box bracket is provided with a fourth inner hexagonal socket head cap screw, a fifth inner hexagonal socket head cap screw and a sixth inner hexagonal socket head cap screw.

In some examples, the left side of rings is equipped with hexagon nut and the first hexagon head bolt complete screw who matches with it, the well below of rings is equipped with the round pin axle, be equipped with first hexagon socket head cap screw on the round pin axle, the right side of rings is equipped with the jacking footing.

According to the above features, the upper left side of the second mechanical sling rotating mechanism is provided with a rotation limit baffle, a lower support sealing cover is arranged right below the second mechanical sling rotating mechanism, a ninth inner hexagonal cylindrical head screw is arranged on the lower support sealing cover, and a control box is arranged on the left side of the lower support sealing cover.

Compared with the prior art, the utility model has the beneficial effects that:

1) According to the utility model, two grabbing heads are designed for the two-barrel mechanical lifting appliance of the inner-buckling type 400L barrel, so that 2 inner-buckling type 400L barrels can be lifted at the same time, and the disposal efficiency is improved.

2) The two-barrel mechanical lifting appliance of the inner-buckling type 400L barrel is provided with the grabbing head translation mechanism, and the interval between 2 inner-buckling type 400L barrels can be adjusted, so that the interval between the barrels during transportation and the interval between the barrels during disposal can be simultaneously met.

3) The two-barrel mechanical lifting appliance of the inner-buckling type 400L barrel is provided with the rotating mechanism, so that the included angles between 2 inner-buckling type 400L barrels and the transfer container or the disposal unit can be adjusted, the angle deviation of two steel barrels during transfer can be met, and the two steel barrels can be placed in a dislocation manner during disposal to save the disposal space.

4) The mechanical claw is provided with the claw mechanical switch and the electric switch, the claw is automatically opened and closed through the mechanical switch under normal working conditions, the operation flow of equipment is simplified, and the electric switch is adopted under abnormal working conditions to remotely realize the opening and closing of the claw.

5) The utility model communicates with the lifting tool through the PLC in the control box on the lifting tool, and feeds back relevant parameters of the lifting tool to the lifting tool in real time, so as to work in cooperation with the lifting tool. Meanwhile, the lifting tool PLC system reads the DB module number in the lifting tool control box and identifies the lifting tool model loaded by the lifting tool PLC system, so that the later-stage full-automatic transformation of the disposal system is facilitated.

Drawings

Fig. 1 is a schematic structural diagram of an inner-buckling type 400L two-barrel mechanical sling according to the present utility model.

Fig. 2 is a schematic structural diagram of another embodiment of the present utility model.

The figure shows: the anti-dust device comprises a 1-hexagonal nut, a 2-first hexagonal bolt full thread, a 3-lifting ring, a 4-pin shaft limiting plate, a 5-pin shaft, a 6-first inner hexagonal socket head screw, a 7-first mechanical lifting appliance rotating mechanism, an 8-lifting foot, a 9-first hexagonal bolt, a 10-second hexagonal head screw, a 11-rotating limiting baffle, a 12-second mechanical lifting appliance rotating mechanism, a 13-second inner hexagonal socket head screw, a 14-limiting switch, a 15-third inner hexagonal socket head screw, a 16-third mechanical lifting appliance rotating mechanism, a 17-fourth mechanical lifting appliance rotating mechanism, a 18-second hexagonal head screw full thread, a 19-control box, a 20-fifth mechanical lifting appliance rotating mechanism, a 21-control box bracket, a 22-megalobrambus monitoring camera, a 23-monitoring camera bracket assembly, a 24-fourth inner hexagonal socket head screw, a 25-fifth inner hexagonal socket head screw, a 26-sixth inner hexagonal socket head screw, a 27-seventh inner hexagonal socket head screw, a 28-eighth inner hexagonal socket head screw, a 29-lower supporting socket head screw, a 31-nine-head screws.

Detailed Description

Embodiments of the present utility model will be described in more detail below with reference to the accompanying drawings. While embodiments of the present utility model are illustrated in the drawings, it should be understood that the present utility model may be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the utility model to those skilled in the art. Those skilled in the art can derive alternative solutions from the following description without departing from the spirit and scope of the utility model.

Unless defined otherwise, technical or scientific terms used herein should be given the ordinary meaning as understood by one of ordinary skill in the art to which this disclosure belongs. The terms "first," "second," and the like in the description and in the claims, are not used for any order, quantity, or importance, but are used for distinguishing between different elements. Likewise, the terms "a" or "an" and the like do not necessarily denote a limitation of quantity. The word "comprising" or "comprises", and the like, means that elements or items preceding the word are included in the element or item listed after the word and equivalents thereof, but does not exclude other elements or items. The terms "connected" or "connected," and the like, are not limited to physical or mechanical connections, but may include electrical connections, whether direct or indirect. "up", "down", "left", "right" and the like are used only to indicate a relative positional relationship, and when the absolute position of the object to be described is changed, the relative positional relationship may be changed accordingly.

The object of the present utility model is to provide a female 400L two-tub mechanical spreader which overcomes the above-mentioned problems of the prior art and has the following advantages in connection with the following description.

A female 400L two-tub mechanical spreader according to a first embodiment of the present utility model will be further described with reference to fig. 1.

Fig. 1 shows a schematic structural diagram of an inner-buckling type 400L two-barrel mechanical sling according to the present utility model, according to a first embodiment of the present utility model, an inner-buckling type 400L two-barrel mechanical sling includes a hanging ring 3, a first mechanical sling rotating mechanism 7 and a fourth mechanical sling rotating mechanism 17, the hanging ring 3 is disposed above the first mechanical sling rotating mechanism 7, a control box 19 support is mounted below the first mechanical sling rotating mechanism 7, dust covers 29 are disposed on the left and right sides of the control box 19 support, the fourth mechanical sling rotating mechanism 17 is disposed on the left and right sides of the control box 19 support, and a fifth mechanical sling rotating mechanism 20 is disposed below the fourth mechanical sling rotating mechanism 17.

According to the above features, the right side of the fourth mechanical sling rotating mechanism 17 is provided with the second hexagon socket head cap screw 13, the limit switch 14 and the third hexagon socket head cap screw 15 in sequence from top to bottom.

In some examples, a monitoring camera 22 of the large-scale ball machine is arranged below the control box 19 support, and a monitoring camera support assembly 23 is arranged on the upper side of the monitoring camera 22 of the large-scale ball machine.

According to the above features, the upper and lower sides of the first mechanical sling rotation mechanism 7 are provided with a first hexagon head bolt 9 and a second hexagon head bolt 10.

In some examples, a third mechanical spreader rotation mechanism 16 is connected between the fourth mechanical spreader rotation mechanism 17 and a fifth mechanical spreader rotation mechanism 20, and the fifth mechanical spreader rotation mechanism 20 is provided with a full thread 18 of the second hexagon head bolt 10.

According to the above features, the dust cover 29 is provided with a seventh inner hexagonal socket head cap screw 27 and an eighth inner hexagonal socket head cap screw 28, and the control box 19 is provided with a fourth inner hexagonal socket head cap screw 24, a fifth inner hexagonal socket head cap screw 25 and a sixth inner hexagonal socket head cap screw 26.

In some examples, the left side of the lifting ring 3 is provided with a hexagon nut 1 and a first hexagon head bolt full thread 2 matched with the hexagon nut, a pin shaft 5 is arranged below the middle of the lifting ring 3, a first hexagon socket head cap screw 6 is arranged on the pin shaft 5, and a jacking foot 8 is arranged on the right side of the lifting ring 3.

According to the above features, the rotation limit baffle 11 is disposed on the upper left side of the second mechanical sling rotation mechanism 12, the lower support cover 30 is disposed directly under the second mechanical sling rotation mechanism 12, the ninth hexagon socket head cap screw 31 is disposed on the lower support cover 30, and the control box 19 is disposed on the left side of the lower support cover 30.

According to the utility model, the lifting ring is connected with the lifting tool, so that the lifting tool is fixed; the balance adjustment and the position locking (avoiding shaking) of the lifting appliance are realized by matching the jacking screw on the lifting ring with the hard lifting tool; the servo motor on the rotating mechanism is used for realizing the accurate adjustment of the connecting lines of the 2 inner-buckling 400L barrels and feeding data back to the upper computer end; the adjustment of the distance between the two lifting claws is realized through the horizontal moving mechanism so as to adapt to the grabbing of two inner buckling type 400L steel barrels with different distances, the distance between the two barrels is adjusted through the horizontal moving mechanism after the steel barrels are lifted, and the distance between the barrels is reduced as much as possible so as to save stacking space. The telescopic rod mechanism is used for automatically adjusting the heights of the two clamping claws so as to adapt to the height difference between the two barrels. The signal interaction between the lifting appliance and the lifting tool is realized through the PLC and DB modules in the control box, and the signal interaction comprises in-place signal feedback of the lifting appliance, rotation angle control and feedback of the lifting appliance, lifting appliance model identification and the like.

As shown in figure 1, the two-barrel mechanical lifting appliance of the inner-buckling 400L barrel is 1500 multiplied by 820 multiplied by 1270 in external dimension, and the main body structure is made of 304 stainless steel and comprises a lifting ring, a rotating mechanism, a limit switch, a control box, lifting claws, an alternating self-locking mechanism (mechanical switch), a guide disc, an electric switch and other parts, and meanwhile, 2 mechanical limit parts and electric limit parts are arranged in the positive and negative directions of rotation.

The lifting appliance and the lifting tool can communicate, and the parameters of the lifting appliance can be fed back to the lifting tool system in real time to cooperate with the lifting tool to carry out lifting operation. The lifting tool can read the model of the lifting tool, so that the full-automatic transformation of the disposal system is facilitated. The utility model discloses an inner buckling type 400L barrel two-barrel mechanical lifting appliance which comprises lifting rings, a rotating mechanism, a horizontal moving mechanism, a limit switch, a control box, lifting claws, connecting rods, cross arms, an alternating self-locking mechanism (mechanical switch), a guiding mechanism, an electric switch and other parts. The two grabbing heads realize the function of grabbing two barrels simultaneously, the handling efficiency is very high, the rotating mechanism realizes the adjustment of the connecting line angle of the lifting claw, and the grabbing and placing requirements of different angles are met. The descending feedback signal controls the lifting tool to be automatically stopped when being lowered in place, and the degree of automation of the lifting of the two-barrel mechanical lifting appliance of the inner buckling type 400L barrel is improved. And the configuration of the mechanical switch and the electric switch improves the operation reliability of the lifting appliance. The horizontal movement mechanism adjusts the interval between the two barrels, and is suitable for different barrel interval requirements during the hoisting of the two barrels. And the communication between the lifting appliance and the lifting tool feeds back the lifting appliance parameters to the lifting tool system in real time, the lifting appliance provides an interface for identifying the lifting appliance model by the lifting tool, and an interface for full-automatic call reconstruction of the processing system is reserved.

The two-barrel mechanical lifting appliance of the inner-buckling type 400L barrel is provided with the two mechanical/electric clamping jaws, 2 inner-buckling type 400L steel barrels can be lifted at the same time, and the disposal efficiency is improved. The utility model discloses an inner buckling type 400L barrel two-barrel mechanical lifting appliance, which is provided with a horizontal moving mechanism, is suitable for adjusting the interval between two barrels, and is provided with an adjusting range of the horizontal mechanism through a limit switch.

The foregoing is merely a specific implementation of the disclosure, but the scope of the embodiments of the disclosure is not limited thereto, and any person skilled in the art may easily think of changes, substitutions or combinations within the technical scope of the embodiments of the disclosure or under the ideas of the embodiments of the disclosure, and all fall within the scope of the embodiments of the disclosure.

Claims (8)

1. The utility model provides an interior knot formula 400L two barrels machinery hoist, includes rings (3), first machinery hoist rotary mechanism (7) and fourth machinery hoist rotary mechanism (17), its characterized in that the top of first machinery hoist rotary mechanism (7) is equipped with rings (3), control box support (21) are installed to the below of first machinery hoist rotary mechanism (7), the left and right both sides of control box support (21) are equipped with dust cover (29), the left and right side of control box support (21) is equipped with fourth machinery hoist rotary mechanism (17), the below of fourth machinery hoist rotary mechanism (17) is equipped with fifth machinery hoist rotary mechanism (20).

2. The inner buckling type 400L two-barrel mechanical sling according to claim 1, wherein a second inner hexagonal socket head cap screw (13), a limit switch (14) and a third inner hexagonal socket head cap screw (15) are sequentially arranged on the right side of the fourth mechanical sling rotating mechanism (17) from top to bottom.

3. The inner buckling type 400L two-barrel mechanical lifting appliance is characterized in that a large-ball machine monitoring camera (22) is arranged below the control box support (21), and a monitoring camera support assembly (23) is arranged on the upper side of the large-ball machine monitoring camera (22).

4. The inner-buckling type 400L two-barrel mechanical sling as defined in claim 1, wherein a first hexagon head bolt (9) and a second hexagon head bolt (10) are arranged on the upper side and the lower side of the first mechanical sling rotating mechanism (7).

5. The inner-buckling type 400L two-barrel mechanical sling as defined in claim 1, wherein a third mechanical sling rotating mechanism (16) is connected between the fourth mechanical sling rotating mechanism (17) and a fifth mechanical sling rotating mechanism (20), and a second hexagon head bolt full thread (18) is arranged on the fifth mechanical sling rotating mechanism (20).

6. The inner buckling type 400L two-barrel mechanical sling as defined in claim 1, wherein a seventh inner hexagonal socket head cap screw (27) and an eighth inner hexagonal socket head cap screw (28) are arranged on the dust cover (29), and a fourth inner hexagonal socket head cap screw (24), a fifth inner hexagonal socket head cap screw (25) and a sixth inner hexagonal socket head cap screw (26) are arranged on the control box bracket (21).

7. The inner buckling type 400L two-barrel mechanical lifting appliance is characterized in that a hexagonal nut (1) and a first hexagonal bolt full thread (2) matched with the hexagonal nut are arranged on the left side of the lifting ring (3), a pin shaft (5) is arranged below the lifting ring (3), a first inner hexagonal socket head cap screw (6) is arranged on the pin shaft (5), and a jacking foot (8) is arranged on the right side of the lifting ring (3).

8. The inner buckling type 400L two-barrel mechanical sling as defined in claim 1, wherein a rotation limit baffle (11) is arranged on the upper left side of a second mechanical sling rotating mechanism (12), a lower supporting sealing cover (30) is arranged right below the second mechanical sling rotating mechanism (12), a ninth hexagon socket head cap screw (31) is arranged on the lower supporting sealing cover (30), and a control box (19) is arranged on the left side of the lower supporting sealing cover (30).