CN116878274A - Furnace turning equipment for recycling waste aluminum - Google Patents

Abstract

The invention provides a furnace turning device for recycling waste aluminum. The utility model relates to a smelting furnace auxiliary feeding tool technical field, including base, receiving subassembly, drive assembly and upright seat, the support has set firmly on the one end upper surface of base. This scheme finally realizes driving the drive gear through starting first motor and meshing the drive gear and driving the bull stick rotation, the bull stick drives two flat gears synchronous revolution under rotatory state, thereby make the outer wall of two flat gears and the lateral wall meshing of two racks, consequently, two racks can slide at the inner wall of spout, the top of two racks drives the stop collar and slides at the outer wall of second gag lever post simultaneously, can stimulate the second gag lever post and drive the material receiving box and rotate the slope through two first gag lever posts in the one end of support, make the slow slope of turning over material equipment, and then make this turning over material equipment more steady in the course of the work, reduce the striking of equipment, improve the stability and the life of turning over material equipment.

Description

Furnace turning equipment for recycling waste aluminum

Technical Field

The invention relates to the technical field of auxiliary feeding tools of melting furnaces, in particular to a melting furnace turning device for recycling waste aluminum.

Background

Aluminum is a recyclable resource, and is widely applied to the aviation, aerospace, automobile, mechanical manufacturing, ship and chemical industries, waste aluminum is a common name of recovered aluminum, the recovered aluminum can be subjected to melting treatment and reutilization after pretreatment, and before that, the waste aluminum needs to be turned into a melting furnace by using a turning device, so that automatic turning is realized, the situation that molten liquid is easy to splash by the aluminum material to scald workers can be avoided, and the safety of pouring the waste aluminum into the melting furnace is improved.

In the related art, the material turning equipment exists in the use process, when continuous material loading, the telescopic link constantly reciprocates to empty the material turning hopper, and the telescopic link produces the striking repeatedly to the material turning equipment easily in flexible in-process, leads to mechanics feedback to get back to equipment itself striking dynamics big, causes the unstable problem of material turning and equipment part easily not hard up reduction equipment life.

Therefore, it is necessary to provide a furnace turning device for recycling waste aluminum to solve the above technical problems.

Disclosure of Invention

The invention provides a furnace turning device for recycling waste aluminum, which solves the technical problems that in the prior art, a telescopic rod is easy to repeatedly impact the turning device in the telescopic process, so that the turning is unstable, equipment parts are easy to loosen, and the service life of the equipment is prolonged.

In order to solve the technical problems, the furnace turning equipment for recycling waste aluminum comprises a base, a receiving component, a driving component and a vertical seat, wherein a bracket is fixedly arranged on the upper surface of one end of the base;

the material receiving assembly is arranged in the bracket and comprises two first limiting rods, the two first limiting rods are rotationally connected with one end of the bracket through bearings, the two opposite ends of the two first limiting rods are synchronously and fixedly connected with a material receiving box, the outer walls of the two sides of the material receiving box are respectively fixedly provided with two second limiting rods, the two second limiting rods are respectively sleeved with a limiting sleeve, the two limiting sleeves are respectively sleeved with two limiting sleeves, racks are respectively fixedly arranged on the lower surfaces of one ends of the two limiting sleeves, and the two racks are respectively arranged;

the driving assembly is arranged in the bracket and comprises four mounting plates, the four mounting plates are fixedly arranged on the inner walls of the bracket by bolts, fixing plates are synchronously fixed on opposite sides of the four mounting plates and positioned below the material receiving box, sliding grooves are formed in outer walls of two sides of one end of each fixing plate, positioning plates are fixedly arranged on one sides of the sliding grooves on the outer walls of two sides of each fixing plate, two positioning plates are synchronously connected with rotating rods through bearings on opposite sides of the two positioning plates, transmission gears are in spline connection with the middle outer walls of the rotating rods, flat gears are in sliding key connection with the outer walls of two ends of the rotating rods, one side of each transmission gear is connected with a driving gear in a meshed mode, and one end of each driving gear is connected with a first motor through a key groove;

wherein, the stand is fixed in the other end inner wall of base.

Preferably, the top of stand is equipped with the unloading subassembly, the unloading subassembly includes two first limiting plates, two equal fixed connection of first limiting plate is in the top of stand, two opposite one side of first limiting plate is connected with the unloading case through the synchronous interlude of bolt.

Preferably, the inner wall of one end of the discharging box is fixedly connected with a fixing rod, the outer wall of the fixing rod is sleeved with rotating sleeves, the number of the rotating sleeves is two, and one end of each rotating sleeve is synchronously and fixedly connected with a baffle plate.

Preferably, the fixed blocks are fixedly connected to two sides of the outer wall of one end of the discharging box, the number of the fixed blocks is two, the outer walls of the fixed blocks are fixedly connected with first springs, and the other ends of the first springs are fixedly connected with clamping blocks.

Preferably, the outer walls of two sides of the discharging box are fixedly connected with supporting plates, the number of the supporting plates is two, and the two supporting plates are located on one side of the two first limiting plates.

Preferably, a shovel material component is arranged in the blanking box and comprises a rotating shaft, and two ends of the rotating shaft are rotatably connected with the inner walls of the two supporting plates through bearings.

Preferably, the outer wall of pivot is fixed with the fixed strip, and the quantity of fixed strip has two, two the outer wall equidistance of fixed strip distributes has a plurality of shovel poles, two are run through to the one end of pivot one of them backup pad keyway of backup pad is connected with the second motor, and the second motor with two one of them backup pad fixed mounting of backup pad.

Preferably, the below of fixed plate is equipped with coupling assembling, coupling assembling includes the supporting seat, the both sides outer wall of supporting seat all is fixed with the second limiting plate, the inner wall sliding connection of second limiting plate has first ejector pin, the bottom of first ejector pin is connected with the connecting plate through the bolt interlude.

Preferably, the other end of the connecting plate is connected with a second ejector rod through a bolt in a penetrating way, the inside of the connecting plate is connected with a guide rod in a penetrating way, the guide rod penetrates through the inner wall of the supporting seat, one side of the guide rod is fixedly connected with a second spring on the upper surface of the supporting seat, and the top end of the second spring is fixedly connected with the lower surface of the blanking box.

Compared with the related art, the furnace turning equipment for recycling the waste aluminum has the following beneficial effects:

the first motor is started to rotate the output shaft to drive the driving gear to engage the transmission gear to drive the rotating rod to rotate, the rotating rod drives the two flat gears to synchronously rotate under the rotating state, so that the outer walls of the two flat gears are engaged with the side walls of the two racks, the two racks can slide on the inner walls of the sliding grooves, meanwhile, the top ends of the two racks drive the limiting sleeve to slide on the outer walls of the second limiting rod, the second limiting rod can be pulled to drive the material receiving box to rotate and incline at one end of the support through the two first limiting rods, and the material turning equipment is enabled to slowly incline and turn through the driving of the first motor, the driving gear, the transmission gear, the flat gears and the racks, so that the material turning equipment is enabled to be more stable in the working process, the impact of the equipment is reduced, and the stability and the service life of the material turning equipment are improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and other drawings may be obtained according to the structures shown in these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic view of a preferred structure provided by the present invention;

FIG. 2 is a side view of the present invention;

FIG. 3 is a schematic view of a receiving assembly according to the present invention;

FIG. 4 is a schematic diagram of a driving assembly according to the present invention;

FIG. 5 is a schematic diagram of a material turning flow of the material receiving box shown in FIG. 4, wherein (a) is a front inclined material turning view of the material receiving box, (b) is a front upward sliding view of a flat gear engaged rack, and (c) is a front horizontal resetting view of the material receiving box;

FIG. 6 is a schematic diagram of a blanking assembly provided by the present invention;

FIG. 7 is a schematic view of a shovel assembly according to the present invention;

FIG. 8 is a schematic view of a connection assembly according to the present invention;

fig. 9 is a schematic diagram of a blanking box turning flow shown in fig. 8, wherein (d) is a front view of an initial state of the blanking box, and (e) is a front view of an inclined turning state of the blanking box.

Reference numerals illustrate:

1. a base, a bracket and a support;

3. the material receiving assembly 31, the first limiting rod 32, the material receiving box 33, the second limiting rod 34, the limiting sleeve 35 and the rack;

4. the driving assembly, 41, the mounting plate, 42, the fixing plate, 43, the sliding chute, 44, the locating plate, 45, the rotating rod, 46, the transmission gear, 47, the flat gear, 48, the driving gear, 49 and the first motor;

5. a vertical seat;

6. the blanking assembly, 61, a first limiting plate, 62, a blanking box, 63, a fixed rod, 64, a rotating sleeve, 65, a baffle, 66, a fixed block, 67, a first spring, 68, a clamping block, 69 and a supporting plate;

7. the shovel comprises a shovel component 71, a rotating shaft 72, a fixed strip 73, a shovel rod 74 and a second motor;

8. the connecting assembly, 81, the supporting seat, 82, the second limiting plate, 83, the first ejector rod, 84, the connecting plate, 85, the second ejector rod, 86, the guide rod, 87 and the second spring.

The achievement of the objects, functional features and advantages of the present invention will be further described with reference to the accompanying drawings, in conjunction with the embodiments.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The invention provides a furnace turning device for recycling waste aluminum.

First embodiment:

referring to fig. 1 to 6, a furnace turning device for recycling waste aluminum comprises a base 1, a receiving component 3, a driving component 4 and a vertical seat 5, wherein a bracket 2 is fixedly arranged on the upper surface of one end of the base 1;

the material receiving assembly 3 is arranged in the bracket 2, the material receiving assembly 3 comprises two first limiting rods 31, the two first limiting rods 31 are rotationally connected with one end of the bracket 2 through bearings, the two opposite ends of the first limiting rods 31 are synchronously and fixedly connected with a material receiving box 32, the outer walls of the two sides of the material receiving box 32 are fixedly provided with second limiting rods 33, the number of the second limiting rods 33 is two, limiting sleeves 34 are sleeved outside the two second limiting rods 33, the number of the limiting sleeves 34 is two, racks 35 are fixedly arranged on the lower surface of one end of each limiting sleeve 34, and the number of the racks 35 is two;

the driving assembly 4 is installed in the bracket 2, the driving assembly 4 comprises four mounting plates 41, the four mounting plates 41 are fixedly installed with the inner wall of the bracket 2 by using bolts, the fixed plates 42 are synchronously fixed on opposite sides of the four mounting plates 41, the fixed plates 42 are positioned below the material receiving box 32, sliding grooves 43 are formed in outer walls of two sides of one end of the fixed plates 42, positioning plates 44 are fixedly arranged on outer walls of two sides of the fixed plates 42 and on one side of the sliding grooves 43, two positioning plates 44 are fixedly connected with rotating rods 45 by bearing synchronous rotation on opposite sides of the two positioning plates 44, transmission gears 46 are in spline connection with middle outer walls of the rotating rods 45, flat gears 47 are connected with outer walls of two ends of the rotating rods 45 in a sliding key manner, driving gears 48 are in meshed connection with one sides of the transmission gears 46, and one end of each driving gear 48 is connected with a first motor 49 in a key groove manner;

wherein, the stand 5 is fixedly arranged on the inner wall of the other end of the base 1.

Referring to fig. 4 and 5 again, by starting the first motor 49 to rotate the output shaft to drive the driving gear 48 to engage the transmission gear 46 to drive the rotating rod 45 to rotate, the rotating rod 45 drives the two flat gears 47 to synchronously rotate in a rotating state, so that the outer walls of the two flat gears 47 are engaged with the side walls of the two racks 35, therefore, the two racks 35 can slide on the inner walls of the sliding grooves 43, meanwhile, the top ends of the two racks 35 drive the stop collar 34 to slide on the outer walls of the second stop collar 33, the second stop collar 33 can be pulled to drive the material receiving box 32 to rotate and incline at one end of the bracket 2 through the two first stop collars 31, and the design drives the first motor 49, the driving gear 48, the transmission gear 46, the flat gears 47 and the racks 35 to enable the material turning equipment to slowly incline and turn over, so that the material turning equipment is more stable in the working process, the impact of the equipment is reduced, and the stability and the service life of the material turning equipment are improved;

please combine (a), (b) and (c) in fig. 6, wherein (a) is a material receiving box 32 turning state, (b) is that the first motor 49 is started to rotate the driving gear 48 to engage the transmission gear 46 so that the rotating rod 45 drives the two flat gears 47 to rotate anticlockwise, the rack 35 is driven to move upwards under the state that the flat gears 47 rotate anticlockwise, therefore, the stop collar 34 drives the second stop lever 33 to turn the material receiving box 32 leftwards, (c) is that the flat gears 47 continuously rotate anticlockwise so that the rack 35 drives the stop collar 34 to move upwards continuously to pull the second stop lever 33 to drive the material receiving box 32 to turn to a horizontal state, and it can be understood that when the flat gears 47 rotate clockwise to engage the rack 35 to slide downwards, the stop collar 34 is driven to pull one end of the second stop lever 33 to incline and discharge the material receiving box 32.

Second embodiment:

referring to fig. 7 to 8, the top end of the stand 5 is provided with a blanking assembly 6, the blanking assembly 6 includes two first limiting plates 61, the two first limiting plates 61 are fixedly connected to the top end of the stand 5, opposite sides of the two first limiting plates 61 are synchronously connected with a blanking box 62 through bolts in a penetrating manner, one end inner wall of the blanking box 62 is fixedly connected with a fixing rod 63, an outer wall of the fixing rod 63 is sleeved with two rotating sleeves 64, the number of the rotating sleeves 64 is two, one end of each rotating sleeve 64 is synchronously and fixedly connected with a baffle 65, two sides of one end outer wall of the blanking box 62 are fixedly connected with fixing blocks 66, the number of the fixing blocks 66 is two, the outer walls of the two fixing blocks 66 are fixedly connected with first springs 67, the other end of each first spring 67 is fixedly connected with a clamping block 68, two side outer walls of the blanking box 62 are fixedly connected with supporting plates 69, and the number of the two supporting plates 69 are positioned at one side of the two first limiting plates 61;

the inside of unloading case 62 is equipped with shovel material subassembly 7, shovel material subassembly 7 includes pivot 71, the both ends of pivot 71 all pass through the bearing with two the inner wall rotation of backup pad 69 is connected, the outer wall of pivot 71 is fixed with fixed strip 72, and the quantity of fixed strip 72 has two, two the outer wall equidistance of fixed strip 72 distributes has a plurality of shovel poles 73, the one end of pivot 71 runs through two backup pad 69 one of them backup pad 69 keyway is connected with second motor 74, and second motor 74 and two one of them backup pad 69 fixed mounting of backup pad 69.

The clamping blocks 68 can be pulled away by the first springs 67, so that the clamping blocks 68 are far away from the baffle plates 65, when the blanking box 62 rotates and inclines between the two first limiting plates 61 during blanking, the baffle plates 65 rotate on the outer wall of the fixed rod 63 through the two rotating sleeves 64, so that the outlet of the blanking box 62 can be opened, waste aluminum in the blanking box 62 is conveniently poured into a smelting furnace, and when the blanking box 62 is not used, the clamping blocks 68 are attached to the outer parts of the baffle plates 65, and the baffle plates 65 are tensioned through resilience of the first springs 67, so that the blanking box 62 is closed;

in the blanking process, the second motor 74 is started to rotate the output shaft to drive the rotating shaft 71 to rotate, and the rotating shaft 71 drives the two fixing strips 72 and the plurality of shovel rods 73 to turn over in the blanking box 62 in a rotating state, so that the plurality of shovel rods 73 can intermittently push the waste aluminum in the blanking box 62 into the smelting furnace, and the waste aluminum can be effectively prevented from being fed into the smelting furnace to cause stacking.

Third embodiment:

referring to fig. 9, a connection assembly 8 is disposed below the fixing plate 42, the connection assembly 8 includes a supporting seat 81, second limiting plates 82 are fixed on outer walls of two sides of the supporting seat 81, a first ejector rod 83 is slidably connected to an inner wall of the second limiting plates 82, and a connection plate 84 is connected to a bottom end of the first ejector rod 83 through a bolt.

The other end of the connecting plate 84 is connected with a second ejector rod 85 through a bolt in a penetrating way, the inside of the connecting plate 84 is connected with a guide rod 86 in a penetrating way, the guide rod 86 penetrates through the inner wall of the supporting seat 81, one side of the guide rod 86 is fixedly connected with a second spring 87 on the upper surface of the supporting seat 81, and the top end of the second spring 87 is fixedly connected with the lower surface of the blanking box 62;

please combine (d) and (c) in fig. 9, wherein (d) is an initial state of the blanking box 62, (e) is that the first ejector rod 83 is extruded when the two racks 35 move down, the bottom end of the first ejector rod 83 extrudes the connecting plate 84, so that the connecting plate 84 tilts to drive the other end of the connecting plate 84 to push up the second ejector rod 85, and further the second ejector rod 85 drives the blanking box 62 to tilt the blanking box 62;

it can be appreciated that when the rack 35 is reset away from the first ejector rod 83, the second spring 87 drives the blanking box 62 to reset to the original point through the rebound resilience of the second spring, and the first ejector rod 83 slides vertically and upwards through the limit of the second limit plate 82, so that the blanking hopper can be assisted to produce oblique angle blanking, and the blanking is reset to the original point after being finished, so that the functionality of the material turning device is improved.

Referring to fig. 1 to 8 in combination, the working principle of the furnace turning device for recycling waste aluminum provided by the invention is as follows:

step S1, when a material turning device is used for turning a smelting furnace, firstly, waste aluminum is poured into a material receiving box 32, a first motor 49 is started to rotate a driving gear 48 to engage a transmission gear 46 to drive a rotating rod 45 to rotate, the rotating rod 45 drives two flat gears 47 to synchronously rotate in a rotating state, and the two flat gears 47 drive two racks 35 to pull a limiting sleeve 34 to drag a second limiting rod 33, so that the material receiving box 32 rotates at one end of a bracket 2 through two first limiting rods 31, and the material receiving box 32 tilts to pour the waste aluminum into a material discharging box 62;

step S2, when the two racks 35 slide downwards, the first ejector rod 83 is extruded to drive the connecting plate 84 to incline, so that the other end of the connecting plate 84 pushes the second ejector rod 85 to drive the discharging box 62 to incline, and the discharging box 62 is used for pouring waste aluminum into a smelting furnace;

step S3, simultaneously, the second motor 74 is started to rotate the rotating shaft 71 in the blanking box 62, so that the rotating shaft 71 drives the two fixing strips 72 and the plurality of shovel rods 73 to overturn in the blanking box 62, and the plurality of shovel rods 73 can intermittently push the waste aluminum in the blanking box 62 into the smelting furnace in the overturning process;

step S4, after the turning operation of the melting furnace is completed, the first motor 49 rotates reversely to drive the two racks 35 to pull the material receiving box 32 to reset, and the two racks 35 are far away from the first ejector rod 83 to release the second spring 87, so that the second spring 87 drives the material discharging box 62 to reset to be in a horizontal state through the rebound resilience of the second spring 87.

The foregoing description is only of the preferred embodiments of the present invention and is not intended to limit the scope of the invention, and all equivalent structural changes made by the specification and drawings of the present invention or direct/indirect application in other related technical fields are included in the scope of the present invention.

Claims (9)

1. The furnace turning equipment for recycling the waste aluminum is characterized by comprising a base, a receiving component, a driving component and a vertical seat, wherein a bracket is fixedly arranged on the upper surface of one end of the base;

the material receiving assembly is arranged in the bracket and comprises two first limiting rods, the two first limiting rods are rotationally connected with one end of the bracket through bearings, the two opposite ends of the two first limiting rods are synchronously and fixedly connected with a material receiving box, the outer walls of the two sides of the material receiving box are respectively fixedly provided with two second limiting rods, the two second limiting rods are respectively sleeved with a limiting sleeve, the two limiting sleeves are respectively sleeved with two limiting sleeves, racks are respectively fixedly arranged on the lower surfaces of one ends of the two limiting sleeves, and the two racks are respectively arranged;

the driving assembly is arranged in the bracket and comprises four mounting plates, the four mounting plates are fixedly arranged on the inner walls of the bracket by bolts, fixing plates are synchronously fixed on opposite sides of the four mounting plates and positioned below the material receiving box, sliding grooves are formed in outer walls of two sides of one end of each fixing plate, positioning plates are fixedly arranged on one sides of the sliding grooves on the outer walls of two sides of each fixing plate, two positioning plates are synchronously connected with rotating rods through bearings on opposite sides of the two positioning plates, transmission gears are in spline connection with the middle outer walls of the rotating rods, flat gears are in sliding key connection with the outer walls of two ends of the rotating rods, one side of each transmission gear is connected with a driving gear in a meshed mode, and one end of each driving gear is connected with a first motor through a key groove;

wherein, the stand is fixed in the other end inner wall of base.

2. The furnace turning device for recycling waste aluminum according to claim 1, wherein a blanking assembly is arranged at the top end of the stand, the blanking assembly comprises two first limiting plates, the two first limiting plates are fixedly connected to the top end of the stand, and a blanking box is synchronously inserted and connected to opposite sides of the two first limiting plates through bolts.

3. The furnace turning equipment for recycling waste aluminum according to claim 2, wherein a fixing rod is fixedly connected to the inner wall of one end of the blanking box, rotating sleeves are sleeved on the outer wall of the fixing rod, the number of the rotating sleeves is two, and one ends of the two rotating sleeves are synchronously and fixedly connected with a baffle plate.

4. The furnace turning device for recycling waste aluminum according to claim 3, wherein two sides of the outer wall of one end of the discharging box are fixedly connected with fixing blocks, two fixing blocks are arranged, the outer walls of the two fixing blocks are fixedly connected with first springs, and the other ends of the first springs are fixedly connected with clamping blocks.

5. The furnace turning equipment for recycling waste aluminum according to claim 4, wherein the outer walls of two sides of the blanking box are fixedly connected with two supporting plates, the number of the supporting plates is two, and the two supporting plates are located on one side of the two first limiting plates.

6. The furnace turning equipment for recycling waste aluminum according to claim 5, wherein a shovel assembly is arranged in the blanking box and comprises a rotating shaft, and two ends of the rotating shaft are rotatably connected with the inner walls of the two supporting plates through bearings.

7. The furnace turning equipment for recycling waste aluminum according to claim 6, wherein fixing strips are fixed on the outer wall of the rotating shaft, a plurality of shovel rods are distributed on the outer wall of each fixing strip at equal intervals, one end of the rotating shaft penetrates through one of two supporting plate keyways to be connected with a second motor, and the second motor is fixedly installed with one of the two supporting plates.

8. The furnace turning device for recycling waste aluminum according to claim 1, wherein a connecting assembly is arranged below the fixing plate and comprises a supporting seat, second limiting plates are fixed on the outer walls of two sides of the supporting seat, first ejector rods are connected to the inner walls of the second limiting plates in a sliding mode, and connecting plates are connected to the bottom ends of the first ejector rods in a penetrating mode through bolts.

9. The furnace turning equipment for recycling waste aluminum according to claim 8, wherein the other end of the connecting plate is connected with a second ejector rod through a bolt in a penetrating manner, a guide rod is connected in the connecting plate in a penetrating manner and penetrates through the inner wall of the supporting seat, a second spring is fixedly connected to one side of the guide rod and located on the upper surface of the supporting seat, and the top end of the second spring is fixedly connected with the lower surface of the blanking box.