CN210453884U - Aluminum scrap briquetting device - Google Patents

Abstract

The utility model belongs to the technical field of sweeps recovery processing, concretely relates to aluminium bits briquetting device, including basic frame, material loading subassembly, briquetting upset subassembly, transportation subassembly, briquetting upset subassembly includes 4 push pedal compaction aluminium bits, can improve the fastness of suppression aluminium pig, and difficult the emergence is opened and is scattered in the transportation, and in addition, the device easy operation will suppress the transportation subassembly of the aluminium pig upset of good through the upset subassembly, can reduce workman's intensity of labour, improves suppression efficiency and conveying efficiency, adapts to the production requirement of production line, improves production efficiency.

Description

Aluminum scrap briquetting device

Technical Field

The application relates to the technical field of scrap recovery processing, in particular to an aluminum scrap briquetting device.

Background

No matter die-casting aluminum wheels or forging wheels or other aluminum alloy parts can produce aluminum scraps in machining production, the aluminum scraps can be reused by smelting, materials can be saved by recycling the aluminum scraps, and production cost is reduced. The current aluminum skimming briquetting device generally adopts a pressing plate and a pressure device in one direction, so that the aluminum skimming is not pressed tightly and firmly, the pressed aluminum blocks are likely to be loose in the transferring process, troubles are brought to the transferring, and the conveying efficiency is reduced. On the other hand, the operation of present aluminium pig suppression device is complicated, and degree of automation is not high, can not adapt to the requirement of producing line production, and suppression efficiency and production efficiency are not high.

SUMMERY OF THE UTILITY MODEL

The embodiment of the application provides an aluminium bits briquetting device, can solve the problem that exists among the background art, provides the firm automatic aluminium bits briquetting device of aluminium pig of easy operation, suppression, can reduce workman's intensity of labour, improves suppression efficiency and conveying efficiency, adapts to the production requirement of production line, improves production efficiency.

In order to achieve the above object, the present invention provides the following technical solutions:

the first aspect provides an aluminum scrap briquetting device which comprises a base frame, a feeding assembly, a briquetting overturning assembly and a transportation assembly, wherein the briquetting overturning assembly is fixedly arranged on the base frame and arranged on one side of the base frame; the briquetting overturning assembly comprises an L-shaped briquetting overturning frame, an overturning driving assembly, 4 push plates and 4 pushing and pressing assemblies, wherein one end of the overturning driving assembly is fixed on the base frame, and the other end of the overturning driving assembly is fixed on the L-shaped briquetting overturning frame; the L-shaped briquetting overturning frame comprises a bottom plate and a side plate which form a right-angle included angle, is movably fixed on the base frame through a rotating shaft, and can overturn around the rotating shaft to overturn an aluminum block on the L-shaped briquetting overturning frame onto the conveying assembly under the driving of the overturning driving assembly; on 4 bulldoze the subassembly and fix basic frame, 4 output that bulldoze the subassembly is fixed respectively to the middle part of the one side of the contactless aluminium bits of 4 push pedals, 4 bulldoze the subassembly and can promote 4 push pedal movements respectively, L type briquetting roll-over stand and 4 push pedals can constitute a enclosure space.

In some embodiments, the base frame is a rectangular parallelepiped frame structure comprising a bottom surface, 4 columns, 4 upper beams; the 4 upper cross beams are respectively a first cross beam, a second cross beam, a third cross beam and a fourth cross beam, a rotating shaft is arranged on two stand columns below the first cross beam in parallel with the cross beams, and the L-shaped briquetting turnover frame is movably fixed between the two stand columns through the rotating shaft; three fixed plates are fixed on the other three cross beams, through holes are formed in the middle of the three fixed plates, a pushing and pressing assembly is fixed in the middle of each fixed plate, and the output end of each pushing and pressing assembly penetrates through the through hole in each fixed plate and is fixed on a push plate; two upright posts are fixedly arranged at two ends of one of the beams perpendicular to the first beam, the upper ends of the two upright posts are fixedly connected with a horizontal plate, a through hole is formed in the horizontal plate, a downward pushing and pressing assembly is fixed on the horizontal plate, and the output end of the pushing and pressing assembly penetrates through the through hole in the horizontal plate and is fixed on a downward pushing plate; the 4 pushing and pressing assemblies push the 4 pushing plates to move towards the L-shaped pressing block overturning frame and form a closed space together with the L-shaped pressing block overturning frame. The device relies on 4 to bulldoze the subassembly and drives 4 push pedals and can constitute a enclosure space with L type briquetting roll-over stand and come the compaction aluminium pig, and the structure is ingenious, has solved a plurality of designs that bulldoze the subassembly and coexist, utilizes L type briquetting roll-over stand to solve the transfer problem of aluminium pig from the briquetting step to the transportation step simultaneously.

In some embodiments, a plurality of foundation support legs are fixedly arranged on the bottom surface of the bottom plate of the foundation frame, and the foundation frame is arranged on the foundation support legs; the foundation support leg comprises a bolt, a lower fixing thread sleeve and a base, the bolt penetrates through the through hole in the bottom plate and the lower fixing thread sleeve, and the lower end of the bolt is fixed on the base; the upper end of the lower fixing thread bush is embedded into the through hole in the bottom plate, and a rotating rod is further arranged on the periphery of the lower fixing thread bush along the diameter direction, so that the base supporting legs can be screwed down and fixed conveniently by hands. The setting up of this basis stabilizer blade makes the bottom surface of basic frame not play the effect of convenient clearance unrestrained aluminium bits on the one hand with ground contact, and on the other hand base can set up to absorbing base, plays absorbing effect, in addition, can carry out the high adjustment effect of integrated device through adjusting bolt and thread bush.

In some embodiments, auxiliary frames are further disposed on two sides of the base frame, and a plurality of base support legs are also disposed at the bottom of the auxiliary frames, and the auxiliary frames are disposed on the base support legs. The auxiliary frame is arranged to ensure that the device is placed more stably on the bottom surface, and the shaking in the operation process can not occur.

In some embodiments, a sizing block is fixedly arranged on the upright post below the cross beam parallel to the first cross beam, and the bottom plate of the L-shaped briquetting overturning frame moves to the sizing block to be kept horizontal. The sizing block plays a supporting role in the L-shaped pressing block overturning frame, and the L-shaped pressing block overturning frame is prevented from being subjected to overlarge pressure to cause deflection and aluminum scrap leakage.

In some embodiments, the bottom plate of the L-shaped briquetting overturning frame extends outwards from the base frame to form a first extending part; the side plate extends to the bottom surface of the base frame to form a second extending part; one end of the overturning driving component is movably connected to the bottom surface of the base frame, and the other end of the overturning driving component is movably connected to the first extending part; the rotating shaft is disposed at the second extension portion. The first extension part and the second extension part are designed to realize the overturning of the L-shaped pressing block overturning frame by utilizing a lever principle and an overturning driving assembly, the structure is simple and reasonable, and the cost of the device is reduced.

In some embodiments, the material loading subassembly includes transmission band, support frame, a plurality of follow driving wheels, action wheel, motor, belt, and the motor is fixed on the material loading subassembly, and the motor passes through the belt and connects the action wheel, and the action wheel is fixed in the transmission band with following driving wheel homodisperse, and the transmission band is fixed on the support frame, and the motor passes through the belt and drives the action wheel rotation, and the action wheel drives the transmission band motion, and the transmission band motion drives and rotates from the driving wheel to drive useless aluminium bits and follow the ascending transportation of transmission band to in. The feeding assembly adopts the design of transmission band can be for briquetting upset subassembly transportation aluminium bits.

In some embodiments, a material conveying hopper is further arranged between the feeding assembly and the briquetting overturning assembly to prevent aluminum scraps from being scattered.

In some embodiments, the transportation assembly is a transportation belt, the transportation belt is positioned lower than a rotating shaft of the L-shaped briquetting overturning frame, and the L-shaped briquetting overturning frame can overturn around the rotating shaft by an angle larger than 90 degrees under the driving of the overturning driving assembly. The angle of overturning is more than 90 degrees, so that the pressed aluminum blocks are transferred to the transportation assembly from the L-shaped pressing block overturning frame.

In some embodiments, an oblique sliding belt is further arranged on the conveying belt close to the L-shaped briquetting overturning frame, and the aluminum blocks can slide from the L-shaped briquetting overturning frame to the conveying belt along the oblique sliding belt.

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

the utility model provides an aluminium bits briquetting device, including basic frame, material loading subassembly, briquetting upset subassembly, transportation subassembly, briquetting upset subassembly includes 4 push pedal compaction aluminium bits, can improve the fastness of suppression aluminium pig, and difficult emergence is opened and is scattered in the transportation, and in addition, the device easy operation will suppress the transportation subassembly of good aluminium pig upset through the upset subassembly, can reduce workman's intensity of labour, improves suppression efficiency and conveying efficiency, adapts to the production requirement of production line, improves production efficiency.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

FIG. 1 is a schematic view of a feeding mechanism of an aluminum scrap briquetting apparatus according to the present application;

FIG. 2 is a schematic diagram of a briquetting apparatus for aluminum scrap in accordance with the present application;

FIG. 3 is a schematic diagram of an aluminum scrap briquetting apparatus according to the present application;

FIG. 4 is a schematic view of a base foot structure of an aluminum scrap briquetting apparatus according to the present application;

FIG. 5 is a schematic structural diagram of an L-shaped briquetting overturning frame and a push plate of the aluminum scrap briquetting device;

wherein: 1-a basic frame, 2-a feeding assembly, 3-a briquetting overturning assembly, 4-a transportation assembly, 5-L-shaped briquetting overturning frames, 6-an overturning driving assembly, 7-a pushing plate, 8-a pushing assembly, 9-a bottom surface, 10-a vertical column, 11-an upper beam, 12-a bolt, 13-a lower fixed threaded sleeve, 14-a base, 15-a rotating rod, 16-an auxiliary frame, 17-a sizing block, 18-a first extending part, 19-a second extending part, 20-a rotating shaft, 21-a transmission belt, 22-a support frame, 23-a motor, 24-a belt, 25-a conveying hopper, 26-an oblique sliding belt and 27-a pressed aluminum block.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some, but not all, embodiments of the present application. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

The terms "first," "second," "third," and "fourth," etc. in the description and claims of this application and in the accompanying drawings are used for distinguishing between different objects and not for describing a particular order. Furthermore, the terms "include" and "have," as well as any variations thereof, are intended to cover non-exclusive inclusions. For example, a process, method, system, article, or apparatus that comprises a list of steps or elements is not limited to only those steps or elements listed, but may alternatively include other steps or elements not listed, or inherent to such process, method, article, or apparatus.

Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment can be included in at least one embodiment of the application. The appearances of the phrase in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. It is explicitly and implicitly understood by one skilled in the art that the embodiments described herein can be combined with other embodiments.

Example 1:

example 1 of the present application is described below with reference to the accompanying drawings 1-5 of the specification:

an aluminum scrap briquetting device comprises a basic frame 1, a feeding assembly 2, a briquetting overturning assembly 3 and a conveying assembly 4.

The briquetting overturning component 3 is fixedly arranged on the base frame 1, the briquetting overturning component 3 comprises an L-shaped briquetting overturning frame 5, an overturning driving component 6, 4 push plates 7 and 4 pushing components 8, the pushing components 8 and the overturning driving component 6 can be cylinders, hydraulic cylinders or electric cylinders and the like, one end of the overturning driving component 6 is fixed on the base frame 1 through a hinge shaft, and the other end of the overturning driving component 6 is fixed on the L-shaped briquetting overturning frame 5 through the hinge shaft; the L-shaped briquetting overturning frame 5 comprises a bottom plate and a side plate which form a right-angle included angle, the L-shaped briquetting overturning frame 5 is movably fixed on the base frame 1 through a rotating shaft 20, the bottom plate of the L-shaped briquetting overturning frame 5 extends towards the outside of the base frame 1 to form a first extending part 18, the side plate extends towards the bottom surface 9 of the base frame 1 to form a second extending part 19, one end of the overturning driving assembly 6 is movably connected to the bottom surface 9 of the base frame 1, the other end of the overturning driving assembly is movably connected to the first extending part 18, the rotating shaft 20 is arranged on the second extending part 19 and is arranged on the base frame 1, and the L-shaped briquetting overturning frame 5 can overturn around the rotating shaft 20 under the driving of the overturning driving assembly 6 to overturn aluminum blocks on the; 4 bulldoze subassembly 8 and fix to basic frame 1 on, 4 output that bulldoze subassembly 8 is fixed respectively to the middle part of the one side of the contactless aluminium bits of 4 push pedals 7, 4 bulldoze subassembly 8 and can promote 4 push pedals 7 movements respectively, and L type briquetting roll-over stand 5 and 4 push pedals 7 can constitute a enclosure space.

The base frame 1 is of a cuboid frame structure and comprises a bottom surface 9, 4 upright posts 10 and 4 upper cross beams 11; the 4 upper cross beams 11 are respectively a first cross beam, a second cross beam, a third cross beam and a fourth cross beam, the first cross beam is arranged on the left side in the figure 1, the second cross beam is arranged on the front side, the third cross beam is arranged on the right side, the fourth cross beam is arranged on the rear side, a rotating shaft 20 is arranged on two upright posts 10 below the first cross beam in parallel with the cross beams, and the L-shaped briquetting turnover frame 5 is movably fixed between the two upright posts 10 through the rotating shaft 20; three fixed plates are fixed on the other three beams, through holes are formed in the middle of the three fixed plates, pushing and pressing assemblies 8 are respectively fixed in the middle of the three fixed plates, as shown in fig. 1 and 5, the pushing and pressing assemblies 8 are arranged on the front side, the right side and the rear side in fig. 1, in the embodiment, the pushing and pressing assemblies 8 can be air cylinders, hydraulic cylinders or electric cylinders, and the like, and the output ends of the pushing and pressing assemblies 8 penetrate through the through holes in the fixed plates and are respectively fixed on a pushing plate 7; two upright columns 10 are fixedly arranged at two ends of one of the beams perpendicular to the first beam, a horizontal plate is fixedly connected at the upper ends of the two upright columns 10, the upright columns 10 and the horizontal plate are integrally formed to form an upper support frame 22 of the briquetting machine, a through hole is formed in the horizontal plate, a downward pushing and pressing assembly 8 is fixed on the horizontal plate, the output end of the pushing and pressing assembly 8 passes through the through hole in the horizontal plate and is fixed on a downward pushing plate 7, and the pushing and pressing assembly 8 is fixedly arranged at the upper side as shown in fig. 1; the 4 pushing and pressing assemblies 8 push the 4 pushing plates 7 to move towards the L-shaped briquetting overturning frame 5 and form a closed space together with the L-shaped briquetting overturning frame 5. A plurality of foundation support legs are fixedly arranged on the bottom surface 9 of the bottom plate of the foundation frame 1, and the foundation frame 1 is arranged on the foundation support legs; the foundation support leg comprises a bolt 12, a lower fixing threaded sleeve 13 and a base 14, the bolt 12 penetrates through a through hole in the bottom plate and the lower fixing threaded sleeve 13, and the lower end of the bolt 12 is fixed on the base 14; the upper end of the lower fixing thread bush 13 is embedded into the through hole in the bottom plate, and a rotating rod 15 is further arranged on the periphery of the lower fixing thread bush 13 along the diameter direction, so that the base supporting legs can be screwed down and fixed conveniently by hands. The two sides of the base frame 1 are also provided with auxiliary frames 16, the bottom of the auxiliary frame 16 is also provided with a plurality of base support feet, and the auxiliary frames 16 are arranged on the base support feet. The setting up of this basis stabilizer blade makes the bottom surface of basic frame not play the effect of convenient clearance unrestrained aluminium bits on the one hand with ground contact, and on the other hand base can set up to absorbing base, plays absorbing effect, in addition, can carry out the high adjustment effect of integrated device through adjusting bolt and thread bush. A sizing block 17 is fixedly arranged on the upright post 10 below the cross beam parallel to the first cross beam, and the bottom plate of the L-shaped briquetting overturning frame 5 moves to the sizing block 17 to be kept horizontal.

Feeding subassembly 2 sets up and provides the garrulous aluminium bits of processing for this briquetting device on one side of basic frame 1 ground, and feeding subassembly 2's output aluminium bits is to briquetting upset subassembly 3, feeding subassembly 2 includes transmission band 21, support frame 22, a plurality of follow driving wheel, action wheel, motor 23, belt 24, and motor 23 is fixed on feeding subassembly 2, and motor 23 passes through belt 24 and connects the action wheel, and the action wheel is fixed in transmission band 21 with from driving wheel homodisperse, and transmission band 21 fixes on support frame 22, and motor 23 drives the action wheel rotation through belt 24, and the action wheel drives transmission band 21 motion, and transmission band 21 motion drives and rotates from the driving wheel to drive useless aluminium bits and transport in briquetting upset subassembly 3 along transmission band 21 rises. And a material conveying hopper 25 is also arranged between the feeding assembly 2 and the pressing block overturning assembly 3 to prevent aluminum scraps from being scattered.

Transportation subassembly 4 sets up in the upset side of briquetting upset subassembly 3, and transportation subassembly 4 transports away the aluminium pig that briquetting upset subassembly 3 overturned on it, the transportation subassembly is the transportation area, and the transportation area position is less than L type briquetting roll-over stand 5's rotation axis 20, L type briquetting roll-over stand 5 can be greater than 90 degrees around the angle of rotation axis 20 upset under the drive of upset drive assembly 6. An oblique sliding belt 26 is further arranged on the conveying belt close to the L-shaped briquetting overturning frame 5, and the aluminum blocks can slide to the conveying belt from the L-shaped briquetting overturning frame 5 along the oblique sliding belt 26.

In practical use, firstly, the traditional aluminum scrap conveying and feeding assembly 2 arranged on the ground provides aluminum scraps for the aluminum scrap briquetting device, as shown in fig. 1, the right pushing assembly, the front pushing assembly and the rear pushing assembly push the right push plate, the front push plate, the rear push plate and the L-shaped briquetting turnover frame 5 through the piston rods of the pushing assemblies to form an upper-cover-free operation cavity, and the aluminum scrap conveying and feeding assembly 2 provides aluminum scraps for the upper-cover-free operation cavity through the conveying hopper 25. When the sensor (can be for example infrared sensor, proximity switch, weight sensor etc.) judges that the aluminium bits is full of the back at above-mentioned operation cavity, traditional aluminium bits transport material loading subassembly 2 stops carrying the aluminium bits, and the subassembly that bulldozes of upside drives the push pedal of upside through self piston rod and compacts above-mentioned aluminium bits downwards. Suppression aluminium pig 27 compaction back, the subassembly that bulldozes of upside drives the push pedal shrink of upside through self piston rod shrink after that, above-mentioned in-process tradition aluminium bits conveying material loading subassembly 2 can provide the aluminium bits many times, the subassembly that bulldozes of upside drives the push pedal compaction of upside through self piston rod and aluminium bits many times until being full of no upper cover operation cavity, the subassembly that bulldozes of upside drives the push pedal realization shrink of upside through self piston rod shrink after that and rises. Then, the right push component, the front push component and the rear push component are retracted by the piston rod per se to retract the right push plate, the front push plate and the rear push plate respectively. After the aluminum scraps entering the upper-cover-free operation cavity for multiple times are compacted, the piston rod of the turnover driving assembly 6 contracts through the hinge shaft to enable the L-shaped aluminum pressing block turnover frame to rotate through the rotating shaft 20 to turn the compacted aluminum blocks to the conveying assembly 4 for pressing the aluminum blocks 27, and the conveying belt conveys and transports the pressed aluminum blocks 27 away to realize automatic production, so that the pressing process for pressing the aluminum blocks 27 is completed. The above process is repeated to complete a new pressing process of pressing the aluminum block 27. The circuit system of the device comprises a control unit, a sensor, 4 driving units of the pushing assemblies 8, a driving unit of the overturning driving assembly 6, a driving unit of a motor 23 of the feeding assembly 2 and a driving unit of a motor 23 of the transporting assembly 4, wherein the control unit is in signal connection with the sensor, the 4 driving units of the pushing assemblies 8, the driving unit of the overturning driving assembly 6, the driving unit of the motor 23 of the feeding assembly 2 and the driving unit of the motor 23 of the transporting assembly 4, the control unit receives signals of the sensor and then generates control signals to control the 4 driving units of the pushing assemblies 8, the overturning driving assembly 6, the motors 23 of the feeding assembly 2 and the motor 23 of the transporting assembly 4 to operate, so that the automatic operation of the whole device can be realized, and the circuit design is conventional by a person skilled in the art and will not be described in detail herein.

In summary, the application provides an aluminium bits briquetting device, including basic frame, material loading subassembly, briquetting upset subassembly, transportation subassembly, briquetting upset subassembly includes 4 push pedal compaction aluminium bits, can improve the fastness of suppression aluminium pig, and difficult emergence is opened scattered in the transportation, and in addition, the device easy operation will suppress the transportation subassembly of the aluminium pig upset of good through the upset subassembly, can reduce workman's intensity of labour, improves suppression efficiency and conveying efficiency, adapts to the production requirement of production line, improves production efficiency.

The foregoing detailed description of the embodiments of the present application has been presented to illustrate the principles and implementations of the present application, and the above description of the embodiments is only provided to help understand the method and the core concept of the present application; meanwhile, for a person skilled in the art, according to the idea of the present application, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present application.

Claims (10)

1. The utility model provides an aluminium bits briquetting device, includes basic frame, material loading subassembly, briquetting upset subassembly, transportation subassembly, its characterized in that:

the briquetting overturning component is fixedly arranged on the base frame, the feeding component is arranged on one side of the base frame, the output end of the feeding component outputs aluminum scraps to the briquetting overturning component, the transportation component is arranged on the overturning side of the briquetting overturning component, and the transportation component transports aluminum blocks overturned on the briquetting overturning component away;

the briquetting overturning assembly comprises an L-shaped briquetting overturning frame, an overturning driving assembly, 4 push plates and 4 pushing and pressing assemblies, wherein one end of the overturning driving assembly is fixed on the base frame, and the other end of the overturning driving assembly is fixed on the L-shaped briquetting overturning frame; the L-shaped briquetting overturning frame comprises a bottom plate and a side plate which form a right-angle included angle, is movably fixed on the base frame through a rotating shaft, and can overturn around the rotating shaft to overturn an aluminum block on the L-shaped briquetting overturning frame onto the conveying assembly under the driving of the overturning driving assembly; on 4 bulldoze the subassembly and fix basic frame, 4 output that bulldoze the subassembly is fixed respectively to the middle part of the one side of the contactless aluminium bits of 4 push pedals, 4 bulldoze the subassembly and can promote 4 push pedal movements respectively, L type briquetting roll-over stand and 4 push pedals can constitute a enclosure space.

2. An aluminum scrap briquetting apparatus as set forth in claim 1, wherein: the base frame is of a cuboid frame structure and comprises a bottom surface, 4 stand columns and 4 upper cross beams; the 4 upper cross beams are respectively a first cross beam, a second cross beam, a third cross beam and a fourth cross beam, a rotating shaft is arranged on two stand columns below the first cross beam in parallel with the cross beams, and the L-shaped briquetting turnover frame is movably fixed between the two stand columns through the rotating shaft; three fixed plates are fixed on the other three cross beams, through holes are formed in the middle of the three fixed plates, a pushing and pressing assembly is fixed in the middle of each fixed plate, and the output end of each pushing and pressing assembly penetrates through the through hole in each fixed plate and is fixed on a push plate; two upright posts are fixedly arranged at two ends of one of the beams perpendicular to the first beam, the upper ends of the two upright posts are fixedly connected with a horizontal plate, a through hole is formed in the horizontal plate, a downward pushing and pressing assembly is fixed on the horizontal plate, and the output end of the pushing and pressing assembly penetrates through the through hole in the horizontal plate and is fixed on a downward pushing plate; the 4 pushing and pressing assemblies push the 4 pushing plates to move towards the L-shaped pressing block overturning frame and form a closed space together with the L-shaped pressing block overturning frame.

3. An aluminum scrap briquetting apparatus as set forth in claim 2, wherein: the bottom surface of the bottom plate of the foundation frame is fixedly provided with a plurality of foundation support legs, and the foundation frame is arranged on the foundation support legs; the foundation support leg comprises a bolt, a lower fixing thread sleeve and a base, the bolt penetrates through the through hole in the bottom plate and the lower fixing thread sleeve, and the lower end of the bolt is fixed on the base; the upper end of the lower fixing thread bush is embedded into the through hole in the bottom plate, and a rotating rod is further arranged on the periphery of the lower fixing thread bush along the diameter direction, so that the base supporting legs can be screwed down and fixed conveniently by hands.

4. An aluminum scrap briquetting apparatus as set forth in claim 3, wherein: the two sides of the basic frame are also provided with auxiliary frames, the bottom of each auxiliary frame is also provided with a plurality of basic support legs, and the auxiliary frames are arranged on the basic support legs.

5. An aluminum scrap briquetting apparatus as set forth in claim 2, wherein: and a sizing block is fixedly arranged on the upright post below the cross beam parallel to the first cross beam, and the bottom plate of the L-shaped pressing block overturning frame moves to the sizing block to keep horizontal.

6. An aluminum scrap briquetting apparatus as set forth in any one of claims 1 to 5, wherein: a bottom plate of the L-shaped pressing block overturning frame extends towards the outside of the base frame to form a first extending part; the side plate extends to the bottom surface of the base frame to form a second extending part; one end of the overturning driving component is movably connected to the bottom surface of the base frame, and the other end of the overturning driving component is movably connected to the first extending part; the rotating shaft is disposed at the second extension portion.

7. An aluminum scrap briquetting apparatus as set forth in any one of claims 1 to 5, wherein: the material loading subassembly includes transmission band, support frame, a plurality of follow driving wheels, action wheel, motor, belt, and the motor is fixed on the material loading subassembly, and the motor passes through the belt and connects the action wheel, and the action wheel is fixed in the transmission band with from driving wheel homodisperse, and the transmission band is fixed on the support frame, and the motor passes through the belt and drives the action wheel rotation, and the action wheel drives the transmission band motion, and the transmission band motion drives from the driving wheel rotation to drive useless aluminium bits and follow the ascending transportation of transmission band to in the.

8. An aluminum scrap briquetting apparatus as set forth in claim 7, wherein: still be provided with defeated hopper between material loading subassembly and briquetting upset subassembly, prevent that the aluminium bits is unrestrained.

9. An aluminum scrap briquetting apparatus as set forth in any one of claims 1 to 5 and 8, wherein: the conveying assembly is a conveying belt, the position of the conveying belt is lower than a rotating shaft of the L-shaped pressing block overturning frame, and the L-shaped pressing block overturning frame can overturn around the rotating shaft under the driving of the overturning driving assembly by an angle larger than 90 degrees.

10. An aluminum scrap briquetting apparatus as set forth in claim 9, wherein: an oblique sliding belt is further arranged on the conveying belt close to the L-shaped pressing block overturning frame, and the aluminum blocks can slide to the conveying belt from the L-shaped pressing block overturning frame along the oblique sliding belt.

Images