CN220200462U - Adjusting device for integrally and automatically assembling and disassembling aluminum bars - Google Patents

Abstract

The utility model discloses an adjusting device for integrally and automatically assembling and disassembling an aluminum bar, which comprises a transferring device; the device also comprises a height adjusting device, a height adjusting seat, a first hydraulic telescopic device, a hydraulic telescopic device seat, a transverse moving fixing seat, a transverse moving seat, a second hydraulic telescopic device and a transverse connecting plate; a height adjusting device and a first hydraulic telescopic device are arranged at the bottom of the transfer device; the height adjusting device is connected with the transverse moving seat through the height adjusting seat; the first hydraulic telescopic device is connected with the transverse moving seat through a hydraulic telescopic device seat; the transverse moving fixing seat is arranged on the transverse moving fixing seat in a sliding way; one side of the transverse moving fixing seat is provided with a second hydraulic telescopic device, one end of the second hydraulic telescopic device is arranged on the transverse moving fixing seat, and the other end of the second hydraulic telescopic device is arranged on the transverse moving seat; the transverse moving fixing seat, the transverse moving seat and the second hydraulic telescopic device are arranged into at least three groups, and the two transverse moving seats are connected through a transverse moving connecting plate; the device ensures that the whole equipment is better in whole, the adjustment is stable, and the adjustment power is sufficient.

Description

Adjusting device for integrally and automatically assembling and disassembling aluminum bars

Technical Field

The utility model relates to the technical field of logistics transportation equipment, in particular to an adjusting device for integrally and automatically loading and unloading aluminum bars.

Background

The handling of aluminium bars is a technical difficulty in the transportation of aluminium bars, in that aluminium bars are mostly cylindrical, the specification of aluminium bars is from 5800mm x phi 90mm to 5800mm x phi 203mm, in the transportation process, the aluminium bars are bound firstly and then are packaged and transported, and the weight of each bound aluminium bar is between 1.223 tons and 2.614 tons. The aluminum bars are long and heavy in the process of boxing, and the forklift is adopted to load and unload in the process of boxing, and the container is closed and can only be loaded and unloaded from one opening. In the loading and unloading process, more forklifts are used, so that the transportation is inconvenient, accidents are easy to occur, and the whole loading and unloading efficiency is extremely low. The traditional forklift loading and unloading, the aluminum bar loading and unloading of a container needs about 180 minutes, and the loading and unloading can be completed by a high-power forklift, so that the logistics transportation has extremely long time and extremely low efficiency in loading and unloading cargoes. In the loading and unloading process, the loading position of the container is not fixed, so that the whole device needs to be adjusted in certain height and level in the loading and unloading process of aluminum goods, the existing height adjustment is generally carried out by adopting a hydraulic telescopic device, but the tonnage of the whole aluminum goods is large after the whole aluminum goods are loaded, and the simple hydraulic telescopic device is inconvenient to adjust, so that the working efficiency of the whole loading and unloading process is affected.

Disclosure of Invention

The utility model aims to overcome the defects of the prior art and provides an adjusting device for integrally and automatically assembling and disassembling an aluminum bar.

The aim of the utility model is achieved by the following technical scheme: an adjusting device for integrally and automatically assembling and disassembling an aluminum bar comprises a transferring device; the device comprises a height adjusting device, a height adjusting seat, a first hydraulic telescopic device, a hydraulic telescopic device seat, a transverse moving fixing seat, a transverse moving seat, a second hydraulic telescopic device and a transverse connecting plate; a height adjusting device and a first hydraulic telescopic device are arranged at the bottom of the transfer device; the height adjusting device is connected with the transverse moving seat through the height adjusting seat; the first hydraulic telescopic device is connected with the transverse moving seat through a hydraulic telescopic device seat; the transverse moving fixing seat is arranged on the transverse moving fixing seat in a sliding way; one side of the transverse moving fixing seat is provided with a second hydraulic telescopic device, one end of the second hydraulic telescopic device is arranged on the transverse moving fixing seat, and the other end of the second hydraulic telescopic device is arranged on the transverse moving seat; the transverse moving fixing seat, the transverse moving seat and the second hydraulic telescopic device are arranged into at least three groups, and the two transverse moving seats are connected through the transverse moving connecting plate.

Preferably, the height adjusting device comprises a movable column, a top connecting plate, a fixed column, a side connecting plate, an adjusting and positioning plate reinforcing plate and a bottom positioning plate; the movable column is a square sleeve, the fixed column is a square column matched with the movable column, and the movable column is connected with the fixed column in a sliding way; a top connecting plate is arranged at the top of the movable column and connected with the transfer device, and a side connecting plate is arranged at the side surface of the bottom of the movable column and connected with the transverse moving connecting plate; a positioning plate is also vertically arranged on the side surface of the bottom of the movable column, and reinforcing plates for adjusting the positioning plate are arranged on two sides of the positioning plate; the bottom of the sliding connection at the fixed column is provided with a rotating shaft, the fixed column is connected to the height adjusting seat through the rotating shaft, the fixed column is provided with a bottom locating plate, and the bottom locating plate is matched with the locating plate of the movable column.

Preferably, the height adjusting seat comprises a bottom connecting plate of the height adjusting device, a fixed column adapter seat reinforcing plate and a first adapter reinforcing cylinder; the height adjusting device bottom connecting plate is arranged to be connected with the transverse moving seat by a plate body, two plates are symmetrically arranged on the height adjusting device bottom connecting plate to form a fixed column adapter, a fixed column adapter reinforcing plate is arranged on the outer side of the fixed column adapter, a first adapter reinforcing cylinder is arranged at a rotating shaft hole of the fixed column adapter, and a rotating shaft of the fixed column is connected to the fixed column adapter.

Preferably, a top connecting disc is arranged at the top of the first hydraulic telescopic body of the first hydraulic telescopic, and the top connecting disc is connected to the bottom of the transfer device; the first hydraulic telescopic body is connected to the hydraulic telescopic seat in a switching way: the hydraulic telescopic device seat comprises a height adjusting seat bottom connecting plate, a hydraulic telescopic cylinder adapter seat, a second switching reinforcing cylinder and a hydraulic telescopic cylinder adapter seat reinforcing plate; the height adjusting base connecting plate is arranged to be connected with the transverse moving base, two plates are arranged on the height adjusting base connecting plate to form a hydraulic telescopic cylinder adapter, a hydraulic telescopic cylinder adapter reinforcing plate is arranged on the outer side of the hydraulic telescopic cylinder adapter, a second adapter reinforcing cylinder is arranged at a rotating shaft hole of the hydraulic telescopic cylinder adapter reinforcing plate, and the bottom of the first hydraulic telescopic body is in the rotating shaft hole through rotating shaft adapter.

Preferably, the sideslip fixing base includes sideslip fixing base bottom plate, sideslip fixing base slide, second hydraulic telescoping device locating plate, and sideslip fixing base bottom plate sets up to a plate body, and sideslip fixing base slide sets up the sideslip fixing base bottom plate that is used for installing second hydraulic telescoping device and removes seat side connecting plate in one side setting of sideslip fixing base bottom plate on the sideslip fixing base, and sideslip fixing base slide is gone up to slip and is moved the seat.

Preferably, the lateral moving seat comprises a moving seat outer cover, a lateral moving pulley seat, a reinforcing plate in the moving seat outer cover and a lateral moving pulley; the movable seat outer cover is set into a square cover, the two side walls of the movable seat outer cover are provided with transverse sliding pulley seats, transverse sliding rollers are arranged in the transverse sliding pulley seats in a switching way, the movable seat outer cover is also internally provided with a reinforcing plate in the movable seat outer cover, and the transverse sliding rollers are arranged on the transverse sliding fixed seat slide ways.

Preferably, the second hydraulic expansion device comprises a second hydraulic expansion device body, a second hydraulic expansion device fixing seat and a second hydraulic expansion device moving seat at two ends, wherein two ends of the second hydraulic expansion device body are respectively connected to the second hydraulic expansion device fixing seat and the second hydraulic expansion device moving seat in a switching mode.

Preferably, the second hydraulic telescopic device fixing seat comprises a second hydraulic telescopic device fixing seat connecting plate, a second hydraulic telescopic device fixing seat rotating shaft seat, a second hydraulic telescopic device fixing seat limiting reinforcing plate and a second hydraulic telescopic device fixing seat reinforcing plate; the second hydraulic expansion joint fixing seat connecting plate is arranged as a plate and is connected with the second hydraulic expansion joint locating plate, two plates are symmetrically arranged on the second hydraulic expansion joint fixing seat connecting plate to serve as a second hydraulic expansion joint fixing seat rotating shaft seat, reinforcing ring rings are arranged outside rotating shaft holes of the second hydraulic expansion joint fixing seat rotating shaft seat, second hydraulic expansion joint fixing seat reinforcing plates are arranged on two sides of the second hydraulic expansion joint fixing seat rotating shaft seat, and a second hydraulic expansion joint fixing seat limiting reinforcing plate which covers a groove is further arranged at one end of the second hydraulic expansion joint fixing seat rotating shaft seat.

Preferably, the second hydraulic expansion device moving seat comprises a second hydraulic expansion device moving seat positioning plate, a second hydraulic expansion device moving seat side connecting plate, a second hydraulic expansion device moving seat first reinforcing plate, a second hydraulic expansion device moving seat second reinforcing plate, a second hydraulic expansion device moving seat rotating shaft seat, a second hydraulic expansion device moving seat limiting reinforcing plate and a second hydraulic expansion device moving seat reinforcing plate; the second hydraulic telescopic moving seat positioning plate is arranged as one plate, two plates are symmetrically arranged on the second hydraulic telescopic moving seat positioning plate to serve as second hydraulic telescopic moving seat rotating shafts, second hydraulic telescopic moving seat reinforcing plates are arranged on two sides of the second hydraulic telescopic moving seat rotating shafts, and a second hydraulic telescopic moving seat limiting reinforcing plate is further arranged at one end of the second hydraulic telescopic moving seat rotating shaft seat; the bottom of the second hydraulic expansion device moving seat positioning plate is vertically provided with a second hydraulic expansion device moving seat first reinforcing plate, two sides of the second hydraulic expansion device moving seat first reinforcing plate are provided with second hydraulic expansion device moving seat second reinforcing plates, two sides of the second hydraulic expansion device moving seat first reinforcing plate are vertically provided with second hydraulic expansion device moving seat side connecting plates, and the second hydraulic expansion device moving seat side connecting plates are connected with the transverse moving connecting plates.

The utility model has the following advantages: in the device, at least three groups of corresponding height adjusting and horizontal adjusting devices or mechanisms are arranged to adjust the transfer device at the top of the height adjusting device 31, and the hydraulic system provides enough power to convey and supply corresponding hydraulic retractors to assist the corresponding height adjusting devices, so that the whole device is better in whole, the adjustment is stable, and the adjustment power is also sufficient.

Drawings

Fig. 1 is a schematic structural view of the present utility model.

Fig. 2 is a schematic structural diagram of a height adjusting device according to the present utility model.

Fig. 3 is a schematic diagram of a height adjusting device according to the second embodiment of the present utility model.

Fig. 4 is a schematic structural diagram of a leveling device according to the present utility model.

Fig. 5 is a top view of the leveling device of the present utility model.

Fig. 6 is a schematic structural diagram of a traversing fixing seat according to the present utility model.

Fig. 7 is a schematic view of a base plate structure of a traversing fixing base of the present utility model.

Fig. 8 is a schematic structural view of a traversing moving seat of the present utility model.

Fig. 9 is an enlarged partial view of the traversing carriage of the present utility model.

Fig. 10 is a schematic view of a second hydraulic retractor of the present utility model.

Fig. 11 is a schematic structural view of a second hydraulic jack fixing seat according to the present utility model.

Fig. 12 is a schematic view of a second hydraulic telescopic moving seat according to the present utility model.

In the figure, a height adjusting device (31), a movable column (311), a top connecting plate (312), a fixed column (313), a side connecting plate (314), an adjusting and positioning plate reinforcing plate (315), a bottom positioning plate (316), a height adjusting seat (32), a height adjusting device bottom connecting plate (321), a fixed column adapter (322), a fixed column adapter reinforcing plate (323), a first adapter reinforcing cylinder (324) and a first hydraulic telescopic device (33): a first hydraulic telescopic body (331), a top connecting disc (332) and a hydraulic telescopic seat (34): the height adjustment seat bottom connecting plate (341), the hydraulic telescopic cylinder adapter seat (342), the second adapter reinforcing cylinder (343), the hydraulic telescopic cylinder adapter seat reinforcing plate (344), the transverse moving fixing seat (41), the transverse moving fixing seat bottom plate (411), the transverse moving fixing seat slide way (412), the second hydraulic telescopic device positioning plate (413), the transverse moving seat (42), the transverse moving pulley seat (422), the inner reinforcing plate (423) of the moving seat housing, the transverse moving roller (424), the second hydraulic telescopic device (43), the second hydraulic telescopic device body (431), the second hydraulic telescopic device fixing seat (432), the second hydraulic telescopic device fixing seat connecting plate (4321), the second hydraulic telescopic device fixing seat rotating seat (4322), the second hydraulic telescopic device fixing seat limiting reinforcing plate (4223), the second hydraulic telescopic device fixing seat reinforcing plate (4224), the reinforcing ring (4325), the second hydraulic telescopic device moving seat (433), the second hydraulic telescopic device positioning plate (4331), the second hydraulic telescopic device moving seat side connecting plate (4332), the second hydraulic telescopic device moving seat first reinforcing plate (33), the second telescopic device moving seat second reinforcing plate (4334), the second telescopic device moving seat 4335 and the second telescopic device moving seat rotating seat reinforcing plate (4335), and a traversing connecting plate (44).

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present utility model more apparent, the technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model, and it is apparent that the described embodiments are some embodiments of the present utility model, but not all embodiments. The components of the embodiments of the present utility model generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the utility model, as presented in the figures, is not intended to limit the scope of the utility model, as claimed, but is merely representative of selected embodiments of the utility model. All other embodiments, based on the embodiments of the utility model, which are apparent to those of ordinary skill in the art without inventive faculty, are intended to be within the scope of the utility model.

In addition, the embodiments of the present utility model and the features of the embodiments may be combined with each other without collision.

It should be noted that: like reference numerals and letters denote like items in the following figures, and thus once an item is defined in one figure, no further definition or explanation thereof is necessary in the following figures.

In the description of the present utility model, it should be noted that, directions or positional relationships indicated by terms such as "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., are directions or positional relationships based on those shown in the drawings, or are directions or positional relationships conventionally put in use of the inventive product, or are directions or positional relationships conventionally understood by those skilled in the art, are merely for convenience of describing the present utility model and for simplifying the description, and are not to indicate or imply that the apparatus or element to be referred to must have a specific direction, be constructed and operated in a specific direction, and thus should not be construed as limiting the present utility model. Furthermore, the terms "first," "second," and the like, are used merely to distinguish between descriptions and should not be construed as indicating or implying relative importance.

In the description of the present utility model, it should also be noted that, unless explicitly specified and limited otherwise, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model will be understood in specific cases by those of ordinary skill in the art.

An adjusting device for the whole automatic loading and unloading of aluminum bars as shown in figure 1 comprises a transfer device; further comprises a height adjusting device 31, a height adjusting seat 32, a first hydraulic telescopic device 33, a hydraulic telescopic device seat 34, a traversing fixing seat 41, a traversing moving seat 42, a second hydraulic telescopic device 43 and a traversing connecting plate 44. In the present device, in order to facilitate the adjustment of the height, the present device is provided with a height adjusting device 31 and a first hydraulic telescopic device 33 at the bottom of the transfer device, the first hydraulic telescopic device 33 is used for providing the power output of the height adjustment, the height adjusting device 31 is used as an auxiliary supporting device for the integral adjustment, and particularly in the rest state after the first hydraulic telescopic device 33 returns, the height adjusting device 31 is used as a main supporting component. In order to facilitate the horizontal adjustment while the height adjustment, the height adjusting device 31 of the device is connected with the traversing moving seat 42 through the height adjusting seat 32; the first hydraulic retractor 33 is connected to the traversing carriage 42 via the hydraulic retractor carriage 34. In order to facilitate the horizontal adjustment, the lateral movement fixing seat 41 is slidably connected to the lateral movement fixing seat 41. Meanwhile, in order to provide a driving force for horizontal adjustment, a second hydraulic telescopic device 43 is provided at one side of the traverse fixing base 41, one end of the second hydraulic telescopic device 43 is provided on the traverse fixing base 41, and the other end is provided on the traverse moving base 42. Because the overall weight of the aluminum material is heavy, the traversing fixing seat 41, traversing moving seat 42, second hydraulic telescopic device 43 are arranged in at least three groups, at the same time, for the sake of its stronger integrity, two traversing moving seats 42 are connected by traversing connecting plate 44. In the device, at least three groups of corresponding height adjusting and horizontal adjusting devices or mechanisms are arranged to adjust the transfer device at the top of the height adjusting device 31, and the hydraulic system provides enough power to convey and supply corresponding hydraulic retractors to assist the corresponding height adjusting devices, so that the whole device is better in whole, the adjustment is stable, and the adjustment power is also sufficient.

In another embodiment, to facilitate the telescopic height adjustment of the first hydraulic telescopic 33, and also to provide a stable and sufficient support for the apparatus in its rest position, as shown in fig. 2, a height adjustment device 31 for height adjustment is provided. Specifically, the height adjusting device 31 includes a movable column 311, a top connecting plate 312, a fixed column 313, a side connecting plate 314, an adjusting and positioning plate reinforcing plate 315, and a bottom positioning plate 316. In the device, the movable column 311 is provided as a square sleeve, the fixed column 313 is provided as a square column matched with the movable column 311, and the movable column 311 is slidingly connected with the fixed column 313 to form a sliding structure. In order to facilitate the installation of other devices, a top connecting plate 312 is arranged at the top of the movable column 311 and is connected with the transfer device, the connection is fastened and connected by adopting a screw, a side connecting plate 314 is arranged at the bottom side surface of the movable column 311 and is connected with the transverse moving connecting plate 44, and the connection is fastened and connected by adopting a screw. Meanwhile, a positioning plate is further welded and arranged on the bottom side face of the movable column 311 vertically for positioning relative to the fixed column 313, and an adjusting positioning plate reinforcing plate 315 is welded and arranged on two sides of the positioning plate for reinforcing the supporting strength of the positioning plate. In practice, the conventional support should fix the bottom of the fixed column 313 on the traversing moving seat 42, however, since the whole device bears a large weight, in order to make it have a certain adjustment margin while bearing, a rotating shaft is disposed at the bottom of the sliding connection fixed column 313, the fixed column 313 is connected to the height adjusting seat 32 through the rotating shaft, a bottom positioning plate 316 is disposed on the fixed column 313, and the bottom positioning plate 316 is adapted to the positioning plate of the movable column 311, so that the two positioning plates can contact each other to provide sufficient supporting strength when standing.

In another embodiment, to accommodate the placement of the height adjustment device 31 and the connection of other components, as shown in fig. 2, the height adjustment base 32 includes a height adjustment device bottom connection plate 321, a fixed post adapter 322, a fixed post adapter reinforcement plate 323, and a first adapter reinforcement cylinder 324. The bottom connecting plate 321 of the height adjusting device is formed by a plate body connected with the traversing moving seat 42 through screws, and two plates are symmetrically arranged on the bottom connecting plate 321 of the height adjusting device to form a fixed column adapter 322, and the height adjusting device 31 is connected to the fixed column adapter 322 in a switching way. In order to provide sufficient support strength for the height adjusting base 32, a fixing post adaptor reinforcing plate 323 is disposed on the outer side of the fixing post adaptor 322, a first adaptor reinforcing cylinder 324 is disposed at a rotation shaft hole of the fixing post adaptor 322, and a rotation shaft of the fixing post 313 is adapted to the fixing post adaptor 322.

In another embodiment, in order to accommodate the synchronous adjustment of the height adjustment device 31, as shown in fig. 3, a top connection disc 332 is provided at the top of the first hydraulic retractor body 331 of the first hydraulic retractor 33, the top connection disc 332 is fastened to the bottom of the transfer device by the screw, and the first hydraulic retractor body 331 is connected to the hydraulic retractor seat 34. Specifically, the hydraulic jack 34 includes a height-adjusting jack base connection plate 341, a hydraulic jack adapter 342, a second adapter reinforcement cylinder 343, and a hydraulic jack adapter reinforcement plate 344. The height-adjusting seat bottom connecting plate 341 is set to be a plate body and is connected with the sideslip movable seat 42 through screw fastening, two plates are arranged on the height-adjusting seat bottom connecting plate 341 to form a hydraulic telescopic cylinder adapter seat 342, a hydraulic telescopic cylinder adapter seat reinforcing plate 344 is arranged on the outer side of the hydraulic telescopic cylinder adapter seat 342, a second adapter reinforcing cylinder 343 is arranged at a rotating shaft hole of the hydraulic telescopic cylinder adapter seat reinforcing plate 344, and the bottom of the first hydraulic telescopic body 331 is in a rotating shaft hole through rotating shaft adapter, so that the bottom of the first hydraulic telescopic body 33 also has enough supporting strength when in work.

In another embodiment, to facilitate the adjustment of the movement in the horizontal direction, as shown in fig. 4-9, the present device provides a traverse fixing base 41, which includes a traverse fixing base plate 411, a traverse fixing slide 412, and a second hydraulic retractor positioning plate 413. The base plate 411 is a plate body, the slide fixing rail 412 is disposed on the slide fixing base 41, and the base plate 411 is disposed on one side of the base plate 411 for mounting the second hydraulic telescopic device moving base side connection plate 4332, and the slide fixing rail 412 is slidingly connected with the slide moving base 42. The device also provides a traversing moving seat 42, specifically, the traversing moving seat 42 comprises a moving seat outer cover 421, a traversing pulley seat 422, a reinforcing plate 423 in the moving seat outer cover, and traversing rollers 424. The movable seat outer cover 421 is set as a square cover, the two side walls of the movable seat outer cover 421 are provided with a transverse sliding pulley seat 422, a transverse sliding roller 424 is arranged in the transverse sliding pulley seat 422 in a transferring way, the movable seat outer cover 421 is also internally provided with a movable seat outer cover inner reinforcing plate 423 for reinforcing the supporting strength of the movable seat outer cover, and the transverse sliding roller 424 is arranged on the transverse sliding fixed seat slideway 412. In practice, the device employs a rail track and corresponding rollers that are adapted to each other as moving parts.

In another embodiment, the power for the adjustment is provided for providing sufficient horizontal movement of the drive device. The device adopts the hydraulic expansion joint to be used as driving power, and the second hydraulic expansion joint 43 comprises a second hydraulic expansion joint body 431, a second hydraulic expansion joint fixing seat 432 and a second hydraulic expansion joint moving seat 433 at two ends, and two ends of the second hydraulic expansion joint body 431 are respectively connected to the second hydraulic expansion joint fixing seat 432 and the second hydraulic expansion joint moving seat 433 in a switching mode. Meanwhile, in order to provide sufficient connection strength, specifically, the second hydraulic jack fixing base 432 includes a second hydraulic jack fixing base connection plate 4321, a second hydraulic jack fixing base pivot seat 4322, a second hydraulic jack fixing base limiting reinforcing plate 4223, and a second hydraulic jack fixing base reinforcing plate 4224. The second hydraulic telescopic device fixing base connection plate 4321 is set to be a plate and is fixedly connected with the second hydraulic telescopic device positioning plate 413 through screws, two plates are symmetrically arranged on the second hydraulic telescopic device fixing base connection plate 4321 to serve as second hydraulic telescopic device fixing base rotating shaft seats 4322, and bearing ends of the two plates are set to be triangular, as shown in fig. 12, so that enough stress support can be provided when the hydraulic telescopic device acts. The outer side of the shaft hole of the second hydraulic expansion joint fixing seat 4322 is provided with a reinforcing ring 4325 for reinforcing the strength of the second hydraulic expansion joint fixing seat 4322 to avoid crushing, the two sides of the second hydraulic expansion joint fixing seat 4322 are provided with second hydraulic expansion joint fixing seat reinforcing plates 4224 for improving the strength, and one end of the second hydraulic expansion joint fixing seat 4322 is also provided with a second hydraulic expansion joint fixing seat limiting reinforcing plate 4223 for covering a groove for reinforcing the integral connecting strength.

In another embodiment, in order to provide sufficient connection strength for the horizontal movement adjustment of the driving apparatus, the second hydraulic jack moving seat 433 includes a second hydraulic jack moving seat positioning plate 4331, a second hydraulic jack moving seat side connecting plate 4332, a second hydraulic jack moving seat first reinforcing plate 4333, a second hydraulic jack moving seat second reinforcing plate 4334, a second hydraulic jack moving seat rotating shaft seat 4335, a second hydraulic jack moving seat limit reinforcing plate 4336, and a second hydraulic jack moving seat reinforcing plate 4337. In this device, the second hydraulic jack moving seat positioning plate 4331 is set as a plate, two plates are symmetrically set on the second hydraulic jack moving seat positioning plate 4331 as second hydraulic jack moving seat rotating shaft seats 4335, the bearing ends of the two plates are set as triangles, as shown in fig. 11, two sides of the second hydraulic jack moving seat rotating shaft seats 4335 are provided with second hydraulic jack moving seat reinforcing plates 4337 for reinforcing the strength thereof, and one end of the second hydraulic jack moving seat rotating shaft seats 4335 is further provided with a second hydraulic jack moving seat limiting reinforcing plate 4336 for improving the integrity. The bottom of the second hydraulic expansion device moving seat positioning plate 4331 is vertically provided with a second hydraulic expansion device moving seat first reinforcing plate 4333, two sides of the second hydraulic expansion device moving seat first reinforcing plate 4333 are provided with second hydraulic expansion device moving seat second reinforcing plates 4334, two sides of the second hydraulic expansion device moving seat first reinforcing plate 4333 are vertically provided with second hydraulic expansion device moving seat side connecting plates 4332, and the second hydraulic expansion device moving seat side connecting plates 4332 are connected with the transverse moving connecting plates 44.

Although the present utility model has been described with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements and changes may be made without departing from the spirit and principles of the present utility model.

Claims (9)

1. An adjusting device for integrally and automatically assembling and disassembling an aluminum bar comprises a transferring device; the method is characterized in that: the device comprises a height adjusting device (31), a height adjusting seat (32), a first hydraulic telescopic device (33), a hydraulic telescopic device seat (34), a traversing fixing seat (41), a traversing moving seat (42), a second hydraulic telescopic device (43) and a traversing connecting plate (44); a height adjusting device (31) and a first hydraulic telescopic device (33) are arranged at the bottom of the transferring device; the height adjusting device (31) is connected with the transverse moving seat (42) through the height adjusting seat (32); the first hydraulic telescopic device (33) is connected with the transverse moving seat (42) through the hydraulic telescopic device seat (34); the transverse moving fixing seat (41) is arranged on the transverse moving fixing seat (41) in a sliding way; one side of the transverse moving fixing seat (41) is provided with a second hydraulic telescopic device (43), one end of the second hydraulic telescopic device (43) is arranged on the transverse moving fixing seat (41), and the other end of the second hydraulic telescopic device is arranged on the transverse moving seat (42); the transverse moving fixing seats (41), the transverse moving seats (42) and the second hydraulic retractors (43) are arranged into at least three groups, and the two transverse moving seats (42) are connected through the transverse moving connecting plate (44).

2. An adjusting device for the overall automatic loading and unloading of aluminum bars according to claim 1, characterized in that: the height adjusting device (31) comprises a movable column (311), a top connecting plate (312), a fixed column (313), a side connecting plate (314), an adjusting and positioning plate reinforcing plate (315) and a bottom positioning plate (316); the movable column (311) is provided with a square sleeve, the fixed column (313) is provided with a square column matched with the movable column (311), and the movable column (311) is connected with the fixed column (313) in a sliding way; a top connecting plate (312) is arranged at the top of the movable column (311) and is connected with the transfer device, and a side connecting plate (314) is arranged at the side surface of the bottom of the movable column (311) and is connected with a transverse moving connecting plate (44); a positioning plate is also vertically arranged on the side surface of the bottom of the movable column (311), and two sides of the positioning plate are provided with adjusting positioning plate reinforcing plates (315); the bottom of the sliding connection fixed column (313) is provided with a rotating shaft, the fixed column (313) is connected to the height adjusting seat (32) through the rotating shaft in a switching mode, the fixed column (313) is provided with a bottom locating plate (316), and the bottom locating plate (316) is matched with the locating plate of the movable column (311).

3. An adjusting device for the overall automatic loading and unloading of aluminum bars according to claim 2, characterized in that: the height adjusting seat (32) comprises a height adjusting device bottom connecting plate (321), a fixed column adapter seat (322), a fixed column adapter seat reinforcing plate (323) and a first adapter reinforcing cylinder (324); the height adjusting device bottom connecting plate (321) is arranged to be connected with the transverse moving seat (42), two plates are symmetrically arranged on the height adjusting device bottom connecting plate (321) to form a fixed column adapter (322), a fixed column adapter reinforcing plate (323) is arranged on the outer side of the fixed column adapter (322), a first adapter reinforcing cylinder (324) is arranged at a rotating shaft hole of the fixed column adapter (322), and a rotating shaft of the fixed column (313) is connected to the fixed column adapter (322).

4. An adjusting device for the overall automatic loading and unloading of aluminum bars according to claim 1, characterized in that: a top connecting disc (332) is arranged at the top of a first hydraulic telescopic body (331) of the first hydraulic telescopic device (33), and the top connecting disc (332) is connected to the bottom of the transferring device; the first hydraulic telescopic body (331) is switched on the hydraulic telescopic seat (34): the hydraulic telescopic device seat (34) comprises a height-adjusting seat bottom connecting plate (341), a hydraulic telescopic cylinder adapter seat (342), a second adapter reinforcing cylinder (343) and a hydraulic telescopic cylinder adapter seat reinforcing plate (344); the height-adjusting base connecting plate (341) is arranged to be connected with the transverse moving base (42) through a plate body, two plates are arranged on the height-adjusting base connecting plate (341) to form a hydraulic telescopic cylinder adapter (342), a hydraulic telescopic cylinder adapter reinforcing plate (344) is arranged on the outer side of the hydraulic telescopic cylinder adapter (342), a second adapter reinforcing cylinder (343) is arranged at a rotating shaft hole of the hydraulic telescopic cylinder adapter reinforcing plate (344), and the bottom of the first hydraulic telescopic body (331) is in a rotating shaft hole through rotating shaft adapter.

5. An adjusting device for the overall automatic loading and unloading of aluminum bars according to claim 1, characterized in that: the transverse moving fixing seat (41) comprises a transverse moving fixing seat bottom plate (411), a transverse moving fixing seat slide rail (412) and a second hydraulic telescopic device locating plate (413), wherein the transverse moving fixing seat bottom plate (411) is arranged as a plate body, the transverse moving fixing seat slide rail (412) is arranged on the transverse moving fixing seat (41), and the transverse moving fixing seat bottom plate (411) used for installing the second hydraulic telescopic device moving seat side connecting plate (4332) is arranged on one side of the transverse moving fixing seat bottom plate (411), and the transverse moving fixing seat slide rail (412) is connected with the transverse moving seat (42) in a sliding mode.

6. An adjusting device for the overall automatic loading and unloading of aluminum bars according to claim 1 or 3 or 4, characterized in that: the transverse moving seat (42) comprises a moving seat outer cover (421), a transverse moving pulley seat (422), a reinforcing plate (423) in the moving seat outer cover and a transverse moving pulley (424); the movable seat outer cover (421) is arranged as a square cover, the two side walls of the movable seat outer cover (421) are provided with transverse sliding pulley seats (422), transverse sliding rollers (424) are arranged in the transverse sliding pulley seats (422) in a rotating way, the movable seat outer cover (421) is internally provided with a reinforcing plate (423) in the movable seat outer cover, and the transverse sliding rollers (424) are arranged on the transverse sliding fixed seat slide ways (412).

7. An adjusting device for the overall automatic loading and unloading of aluminum bars according to claim 1, characterized in that: the second hydraulic telescopic device (43) comprises a second hydraulic telescopic device body (431) and second hydraulic telescopic device fixing seats (432) and second hydraulic telescopic device moving seats (433) at two ends, and two ends of the second hydraulic telescopic device body (431) are respectively connected to the second hydraulic telescopic device fixing seats (432) and the second hydraulic telescopic device moving seats (433) in a switching mode.

8. The adjusting device for integrally and automatically assembling and disassembling an aluminum bar according to claim 7, wherein: the second hydraulic telescopic device fixing seat (432) comprises a second hydraulic telescopic device fixing seat connecting plate (4321), a second hydraulic telescopic device fixing seat rotating shaft seat (4322), a second hydraulic telescopic device fixing seat limiting reinforcing plate (4223) and a second hydraulic telescopic device fixing seat reinforcing plate (4224); the second hydraulic expansion joint fixing seat connecting plate (4321) is arranged to be a plate and is connected with the second hydraulic expansion joint locating plate (413), two plates are symmetrically arranged on the second hydraulic expansion joint fixing seat connecting plate (4321) to serve as second hydraulic expansion joint fixing seat rotating shafts (4322), reinforcing ring rings (4325) are arranged on the outer sides of rotating shaft holes of the second hydraulic expansion joint fixing seat rotating shafts (4322), second hydraulic expansion joint fixing seat reinforcing plates (4224) are arranged on two sides of the second hydraulic expansion joint fixing seat rotating shafts (4322), and a second hydraulic expansion joint fixing seat limiting reinforcing plate (4223) covering grooves is further arranged at one end of the second hydraulic expansion joint fixing seat rotating shafts (4322).

9. An adjusting device for the overall automatic loading and unloading of aluminum bars according to claim 7 or 8, characterized in that: the second hydraulic telescopic moving seat (433) comprises a second hydraulic telescopic moving seat positioning plate (4331), a second hydraulic telescopic moving seat side connecting plate (4332), a second hydraulic telescopic moving seat first reinforcing plate (4333), a second hydraulic telescopic moving seat second reinforcing plate (4334), a second hydraulic telescopic moving seat rotating shaft seat (4335), a second hydraulic telescopic moving seat limiting reinforcing plate (4336) and a second hydraulic telescopic moving seat reinforcing plate (4337); the second hydraulic telescopic moving seat positioning plate (4331) is arranged as one plate, two plates are symmetrically arranged on the second hydraulic telescopic moving seat positioning plate (4331) to serve as second hydraulic telescopic moving seat rotating shaft seats (4335), second hydraulic telescopic moving seat reinforcing plates (4337) are arranged on two sides of the second hydraulic telescopic moving seat rotating shaft seats (4335), and a second hydraulic telescopic moving seat limiting reinforcing plate (4336) is further arranged at one end of each second hydraulic telescopic moving seat rotating shaft seat (4335); the bottom of the second hydraulic expansion device moving seat positioning plate (4331) is vertically provided with a second hydraulic expansion device moving seat first reinforcing plate (4333), two sides of the second hydraulic expansion device moving seat first reinforcing plate (4333) are provided with second hydraulic expansion device moving seat second reinforcing plates (4334), two sides of the second hydraulic expansion device moving seat first reinforcing plate (4333) are vertically provided with second hydraulic expansion device moving seat side connecting plates (4332), and the second hydraulic expansion device moving seat side connecting plates (4332) are connected with the transverse moving connecting plates (44).