CN202625369U - Novel aluminum alloy bar stacking device - Google Patents

Abstract

The utility model discloses a novel aluminum alloy bar stacking device, which comprises a row-type aluminum alloy bar input guide rail, a row-type aluminum alloy bar clamping device, and a conveying frame, wherein the row-type aluminum alloy bar input guide rail is arranged along a transverse direction; the row-type aluminum alloy bar clamping device is arranged above the row-type aluminum alloy bar input guide rail and is capable of respectively moving along the transverse direction and a longitudinal direction; the conveying frame is arranged below the outside of the row-type aluminum alloy bar input guide rail along the transverse direction; lengths of the row-type aluminum alloy bar input guide rail, the row-type aluminum alloy bar clamping device and the conveying frame are matched with that of a row-type aluminum alloy bar; and a width of the conveying frame is matched with that of the row-type aluminum alloy bar. By the adoption of the structure of the novel aluminum alloy bar stacking device, labor force of a worker is saved, working fatigue of the worker is lightened, the situation of damaging an aluminum metal bar or endangering the personal safety of the worker due to an accident in conveying is avoided, a plurality of aluminum alloy bars can further be clamped and conveyed into the conveying frame once, rolling of the aluminum alloy bars in the conveying frame can be prevented, and the requirement on use of a user is satisfied.

Description

A kind of novel aluminum alloy rod bunching device

Technical field

The utility model relates to aluminium alloy extrusions production and processing technical field, relates in particular to a kind of novel aluminum alloy rod bunching device.

Background technology

In the process that aluminium alloy extrusions is produced, in order to adapt to section bar heating extruding, need earlier the molded aluminum alloy embryo to be carried out sawing at present, the aluminum alloy embryo need be transported to the smelting furnace mechanism of ingot casting heating after cutting.Transport in the process at this; Usually need staff one by one to carry or adopt present S. A. bunching device to become the aluminum alloy embryo (being aluminium alloy bars) of segment one by one to pinch sawing and transport in the framework, artificially then will transport the smelting furnace mechanism that framework is pushed to the ingot casting heating.But these two kinds of stacking methods of shipment respectively have the defective of self, and are specific as follows:

Adopt artificial stacking method of shipment, not only waste workman's labour power, increase the weight of workman's work fatigue degree, and in the carrying engineering, also might cause the aluminium alloy bars damage because of personnel's error, even the personal safety that jeopardizes the workman.

And the S. A. bunching device can only one by one pinch aluminium alloy bars, simultaneously, because the size of aluminium alloy bars is little more than the size of transporting framework; So aluminium alloy bars pinch transport framework after; Can transport in the framework and roll, cause the arrangement difficulty, increase workman's work.

The utility model content

The utility model technical matters to be solved provides a kind of novel aluminum alloy rod bunching device, and it can pinch it with many aluminium alloy bars once and transport in the framework, and can prevent that aluminium alloy bars from rolling in transporting framework.

In order to solve the problems of the technologies described above, the technical scheme content that the utility model adopts is specific as follows:

A kind of novel aluminum alloy rod bunching device, it comprises the row's formula aluminium alloy bars input guide rail along horizontally set; Being located at said row's formula aluminium alloy bars input guide rail top also can be respectively along the horizontal and vertical row's formula aluminium alloy bars holding device that moves around; Along the framework that transports of laterally being located at the outer side-lower of said row's formula aluminium alloy bars input guide rail; And the length of the length of said row's formula aluminium alloy bars input guide rail, row's formula aluminium alloy bars holding device and the length of transporting framework all are complementary with the length of said row's formula aluminium alloy bars; The said width that transports framework also is complementary with the width of said row's formula aluminium alloy bars.

Need to prove that said row's formula aluminium alloy bars is to be formed along laterally arranging one by one by many aluminium alloy bars, the length of wherein arranging the formula aluminium alloy bars equals the diameter sum of said many aluminium alloy bars, and width just equals the length of single aluminium alloy bars.Wherein, the concrete quantity of aluminium alloy bars can be set up on their own according to its actual use needs by the user.

Preferably, the novel aluminum alloy of the utility model rod bunching device also comprises a device frame; Said row's formula aluminium alloy bars input guide rail with transport framework and all be located at device frame inside, said row's formula aluminium alloy bars input guide rail also is fixedly linked with the left surface of device frame; The said framework that transports is positioned at below the right side of said row's formula aluminium alloy bars input guide rail; Said row's formula aluminium alloy bars holding device is located on the top of said device frame.

Preferably, said row's formula aluminium alloy bars holding device comprises support, horizontal mobile device, longitudinal moving device and can be along the vertical hook device that moves; Said support comprises first support and longitudinally runs through second support of said first support; Said hook device is located at the bottom of said second support; Said support is through the top of said horizontal mobile device along horizontal sliding connecting device framework; Said second support passes through said longitudinal moving device said first support of sliding block joint longitudinally.

Preferably, said horizontal mobile device comprises that first motor, first gear and edge are horizontally installed on first tooth bar at said device frame top; Said first motor is arranged on first support; Said first drive of motor connects said first gear; Said first gear is meshed with first tooth bar.

Preferably, said longitudinal moving device comprises second motor, second gear and longitudinally is arranged on second tooth bar on said second support; Said second motor is arranged on first support; Said second drive of motor connects said second gear; Said second gear is meshed with said second tooth bar.

Preferably, said hook device comprise along the vertical cylinder assembly that is provided with and the hook assembly of the equal in length of length and said row's formula aluminium alloy bars; The bottom of the fixed end of cylinder assembly and second support is fixedly linked, and the free end of cylinder assembly links to each other with said hook assembly.

Preferably, said cylinder assembly comprises the cylinder of a plurality of spaced-apart settings; Said hook assembly comprises pipe link and a plurality of hook; Said cylinder is corresponding one by one with said hook; The quantity of said hook is complementary with the length of row's formula aluminium alloy bars; The bottom of the fixed end of said cylinder and second support is fixedly linked, and the free end of said cylinder links to each other with its cooresponding hook; And the spacing between the adjacent hook is less than the diameter of single aluminium alloy bars; Said pipe link is along the middle part that is horizontally through each hook.

Compared with prior art, the utility model has produced following beneficial effect:

Its structure of novel aluminum alloy rod bunching device of the utility model has not only been saved workman's labour power; Alleviate workman's work fatigue degree; Prevent to damage the aluminum metal rod or jeopardize workman's personal safety because of a dead lift meets accident; Transport in the framework but also can once many aluminium alloy bars be pinched it, and can prevent that aluminium alloy bars from rolling in transporting framework, satisfied user's user demand.

Description of drawings

Below in conjunction with the accompanying drawing and the specific embodiment the utility model is done further to describe:

Fig. 1 is the more preferably structural representation of embodiment of the excellent bunching device of the novel aluminum alloy of the utility model.

Wherein, 1, row's formula aluminium alloy bars input guide rail; 2, transport framework; 31, first support; 32, second support; 33, first motor; 34, first gear; 35, second motor; 36, cylinder; 37, pipe link; 38, hook; 4, aluminium alloy bars; 5, device frame.

The specific embodiment

As shown in Figure 1, the novel aluminum alloy rod bunching device of the utility model, it comprises the row's formula aluminium alloy bars input guide rail 1 along horizontally set; Being located at said row's formula aluminium alloy bars input guide rail 1 top also can be respectively along the horizontal and vertical row's formula aluminium alloy bars holding device that moves around; Transport framework 2 along what laterally be located at the outer side-lower of said row's formula aluminium alloy bars input guide rail; And the length of the length of said row's formula aluminium alloy bars input guide rail 1, row's formula aluminium alloy bars holding device and the length of transporting framework 2 all are complementary with the length of said row's formula aluminium alloy bars; The said width that transports framework 2 also is complementary with the width of said row's formula aluminium alloy bars.

Need to prove that said row's formula aluminium alloy bars is to be formed along laterally arranging one by one by many aluminium alloy bars 4, the length of wherein arranging the formula aluminium alloy bars equals the diameter sum of said many aluminium alloy bars 4, and width just equals the length of single aluminium alloy bars 4.Wherein, the concrete quantity of aluminium alloy bars 4 can be set up on their own according to its actual use needs by the user.

" length of the length of said row's formula aluminium alloy bars input guide rail 1, row's formula aluminium alloy bars holding device and the length of transporting framework 2 all are complementary with the length of said row's formula aluminium alloy bars "; Specifically be meant the length that " length of row's formula aluminium alloy bars input guide rail 1 " and " arranging the length of formula aluminium alloy bars holding device " will equal to arrange the formula aluminium alloy bars, and " transporting the length of framework 2 " length of the row's of being larger than formula aluminium alloy bars (promptly " length of transporting framework 2 should be got can the row's of making formula aluminium alloy bars just to put into and transported the numerical value that can't roll in the framework 2) just." the said width that transports framework 2 also is complementary with the width of said row's formula aluminium alloy bars " specifically is meant the width (promptly " width that transports framework 2 should be got can the row's of making formula aluminium alloy bars just to put into and transport the numerical value that can't roll in the framework 2) of " width that the transports framework 2 " row of being larger than formula aluminium alloy bars.

Particularly, the novel aluminum alloy of the utility model rod bunching device also comprises a device frame 5; Said row's formula aluminium alloy bars input guide rail 1 with transport framework 2 and all be located at device frame 5 inside, said row's formula aluminium alloy bars input guide rail 1 also is fixedly linked with the left surface of device frame 5; The said framework 2 that transports is positioned at below the right side of said row's formula aluminium alloy bars input guide rail 1; Said row's formula aluminium alloy bars holding device is located on the top of said device frame 5.

Particularly, said row's formula aluminium alloy bars holding device comprises support, horizontal mobile device, longitudinal moving device and can be along the vertical hook device that moves; Said support comprises first support 31 and longitudinally runs through second support 32 of said first support 31; Said hook device is located at the bottom of said second support 32; Said support is through the top of said horizontal mobile device along horizontal sliding connecting device framework 5; Said second support 32 passes through said longitudinal moving device said first support 31 of sliding block joint longitudinally.

Particularly, said horizontal mobile device comprises first motor 33, first gear 34 and along first tooth bar that is horizontally installed on said device frame 5 tops (figure does not show); Said first motor 33 is arranged on first support 31; Said first motor 33 said first gear 34 that is in transmission connection; Said first gear 34 is meshed with first tooth bar.

Particularly, said longitudinal moving device comprises second motor 35, second gear (figure does not show) and longitudinally is arranged on second tooth bar (scheming not show) on said second support 32; Said second motor 35 is arranged on first support 31; Said second motor 35 said second gear that is in transmission connection; Said second gear is meshed with said second tooth bar.

Particularly, said hook device comprise along the vertical cylinder assembly that is provided with and the hook assembly of the equal in length of length and said row's formula aluminium alloy bars; The bottom of the fixed end of cylinder assembly and second support 32 is fixedly linked, and the free end of cylinder assembly links to each other with said hook assembly.

Particularly, said cylinder assembly comprises the cylinder 36 of a plurality of spaced-apart settings; Said hook assembly comprises pipe link 37 and a plurality of hooks 38; Said cylinder 36 is corresponding one by one with said hook 38; The quantity of said hook 38 is complementary with the length of row's formula aluminium alloy bars; The bottom of the fixed end of said cylinder 36 and second support 32 is fixedly linked, and the free end of said cylinder 36 links to each other with its cooresponding hook 38; And the spacing between the adjacent hook 38 is less than the diameter of single aluminium alloy bars 4; Said pipe link 37 is along the middle part that is horizontally through each hook 38.

Need to prove that " quantity of said hook 38 is complementary with the length of row's formula aluminium alloy bars " is meant that specifically the concrete quantity of said hook 38 will get the numerical value that the length that can make mainly the hook assembly of being made up of these hooks 38 equals to arrange the length of formula aluminium alloy bars.

Need to prove that said laterally is the positive and negative both direction of the directions X among the figure, vertically is meant the positive and negative both direction of the Z direction among the figure, vertically is meant the positive and negative both direction of the Y direction among the figure, and horizontal, vertical and vertical three is orthogonal.

The principle of work of the utility model is specific as follows: placing aluminium alloy rod 4 one by one in row's formula aluminium alloy bars input guide rail 1; Aluminium alloy bars 4 has formed described row's formula aluminium alloy bars along laterally being arranged in a row in row's formula aluminium alloy bars input guide rail 1, the direction that first motor, 33 driving arms are imported guide rail 1 in the upper edge, top of device frame 5 towards row's formula aluminium alloy bars moves laterally; When support move to row's formula aluminium alloy bars input guide rail 1 directly over the time, second motor 35 drives second support 32 and vertically moves along the direction towards row's formula aluminium alloy bars together with the hook device; When hook device during near row's formula aluminium alloy bars, cylinder assembly just drives the hook assembly and does vertical moving, and the hook 38 of hook assembly just can the row's of catching formula aluminium alloy bars along the axial rotation of pipe link 37; Then first motor, 33 driving arms in the upper edge, top of device frame 5 opposite direction make cross motion; When support reach transport framework 2 directly over the time, second motor 35 drive second support 32 together with hook device and row's formula aluminium alloy bars along vertically moving towards the direction of transporting framework 2; When row's formula aluminium alloy bars arrives when transporting framework 2, the hook 38 of hook assembly is decontroled said row's formula aluminium alloy bars under the effect of pipe link 37, transports in the framework 2 thereby said row's formula aluminium alloy bars is placed on.Second motor 35 drives second support 32 and travels longitudinally along the direction towards the top of device frame 5 and reset then; First motor 33 driving arm again moves laterally along the direction towards row's formula aluminium alloy bars input guide rail 1 and resets, so that grasp another row's formula aluminium alloy bars.

For a person skilled in the art, can make other various corresponding changes and distortion, and these all changes and distortion should belong within the protection domain of the utility model claim all according to the technical scheme and the design of above description.

Claims (7)

1. novel aluminum alloy rod bunching device, it is characterized in that: it comprises the row's formula aluminium alloy bars input guide rail along horizontally set; Being located at said row's formula aluminium alloy bars input guide rail top also can be respectively along the horizontal and vertical row's formula aluminium alloy bars holding device that moves around; Along the framework that transports of laterally being located at the outer side-lower of said row's formula aluminium alloy bars input guide rail; And the length of the length of said row's formula aluminium alloy bars input guide rail, row's formula aluminium alloy bars holding device and the length of transporting framework all are complementary with the length of said row's formula aluminium alloy bars; The said width that transports framework also is complementary with the width of said row's formula aluminium alloy bars.

2. novel aluminum alloy rod bunching device as claimed in claim 1 is characterized in that: also comprise a device frame; Said row's formula aluminium alloy bars input guide rail with transport framework and all be located at device frame inside, said row's formula aluminium alloy bars input guide rail also is fixedly linked with the left surface of device frame; The said framework that transports is positioned at below the right side of said row's formula aluminium alloy bars input guide rail; Said row's formula aluminium alloy bars holding device is located on the top of said device frame.

3. novel aluminum alloy as claimed in claim 2 rod bunching device is characterized in that: said row's formula aluminium alloy bars holding device comprises support, horizontal mobile device, longitudinal moving device and can be along the vertical hook device that moves; Said support comprises first support and longitudinally runs through second support of said first support; Said hook device is located at the bottom of said second support; Said support is through the top of said horizontal mobile device along horizontal sliding connecting device framework; Said second support passes through said longitudinal moving device said first support of sliding block joint longitudinally.

4. novel aluminum alloy rod bunching device as claimed in claim 3 is characterized in that: said horizontal mobile device comprises that first motor, first gear and edge are horizontally installed on first tooth bar at said device frame top; Said first motor is arranged on first support; Said first drive of motor connects said first gear; Said first gear is meshed with first tooth bar.

5. novel aluminum alloy rod bunching device as claimed in claim 3, it is characterized in that: said longitudinal moving device comprises second motor, second gear and longitudinally is arranged on second tooth bar on said second support; Said second motor is arranged on first support; Said second drive of motor connects said second gear; Said second gear is meshed with said second tooth bar.

6. like any one described novel aluminum alloy rod bunching device of claim 3-5, it is characterized in that: said hook device comprise along the vertical cylinder assembly that is provided with and the hook assembly of the equal in length of length and said row's formula aluminium alloy bars; The bottom of the fixed end of cylinder assembly and second support is fixedly linked, and the free end of cylinder assembly links to each other with said hook assembly.

7. novel aluminum alloy rod bunching device as claimed in claim 6, it is characterized in that: said cylinder assembly comprises the cylinder of a plurality of spaced-apart settings; Said hook assembly comprises pipe link and a plurality of hook; Said cylinder is corresponding one by one with said hook; The quantity of said hook is complementary with the length of row's formula aluminium alloy bars; The bottom of the fixed end of said cylinder and second support is fixedly linked, and the free end of said cylinder links to each other with its cooresponding hook; And the spacing between the adjacent hook is less than the diameter of single aluminium alloy bars; Said pipe link is along the middle part that is horizontally through each hook.

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