CN218656816U - Charging system of hydrogen crushing furnace - Google Patents

Abstract

The utility model discloses a feeding system of a hydrogen crushing furnace, which comprises a track, a feeding vehicle and a discharging device; the feeding vehicle comprises a moving vehicle body, a feeding device and a driving device, the upper end of the moving vehicle body is obliquely arranged, the driving device is used for driving the feeding device to stretch along the top of the moving vehicle body, and the feeding device comprises a feeding hopper and a spiral feeding mechanism; the material pouring device comprises a fixed frame, a lifting frame, a material pouring hopper, an electric hoist and a turnover mechanism; the fixing frame is vertically arranged, the top of the fixing frame is provided with an electric hoist, and the output end of the electric hoist is provided with a hook part; the lifting frame is provided with a hook groove block matched with the hook of the hook part, and the lifting frame is driven to lift by an electric hoist; the hopper of falling rotationally sets up on the crane, and the fixed tilting mechanism that is provided with on the crane orders about the hopper of falling through tilting mechanism and topples over to the loading hopper towards loading hopper one side upset and with the material in the hopper of falling in, has improved degree of automation, has saved the labour greatly, has improved reinforced efficiency simultaneously greatly.

Description

Charging system of hydrogen crushing furnace

Technical Field

The utility model relates to a hydrogen garrulous stove charging system's technical field, in particular to hydrogen garrulous stove's charging system.

Background

The principle of the hydrogen crushing furnace, also called a hydrogen crushing furnace, is processing equipment for neodymium iron boron alloy materials, and is that the characteristics of grain boundary fracture and transgrain fracture generated by the alloy of rare earth permanent magnetic alloy in the processes of hydrogen absorption and dehydrogenation lead to alloy pulverization, so that alloy powder with a certain particle size is obtained. The neodymium iron boron ingot is processed by the hydrogen crushing furnace and then directly enters the next procedure, namely jet mill crushing, so that the oxidation probability of the material can be effectively reduced.

The material (neodymium iron boron ingot) to be processed needs to be allocated and distributed to the position of the hydrogen crushing furnace through the neodymium iron boron charging vehicle, and the material in the charging hopper is transferred to the hydrogen crushing furnace through the spiral charging rod, such as the charging vehicle of the hydrogen crushing furnace disclosed in the chinese patent (publication number CN 216736066U), but because the material of one charging hopper is about 1.8T, and the height of the charging hopper is high, if a manual charging mode is adopted, the labor intensity is high, the charging efficiency is low, and the charging vehicle is unsafe, on the other hand, the discharging pipe of the charging vehicle is fixedly arranged on the charging vehicle body, so that the discharging pipe needs to be combined with the longitudinal walking and the transverse walking of the charging vehicle to realize the sufficient butt joint of the discharging pipe and the feeding port of the hydrogen crushing furnace, and therefore, the structure of the charging vehicle is complicated, and because the charging vehicle needs to distribute the material of a plurality of charging hydrogen crushing furnaces, a plurality of transverse rails and longitudinal rails need to be arranged, the control of the charging vehicle is complicated, and the cost of the rails is relatively increased, and the charging system of the hydrogen crushing furnace needs to be improved.

Disclosure of Invention

The utility model aims at providing a charging system of hydrogen garrulous stove has improved reinforced degree of automation, has saved the labour greatly, has improved reinforced efficiency simultaneously greatly.

The above technical purpose of the present invention can be achieved by the following technical solutions: a charging system of a hydrogen crushing furnace comprises a transverse rail, a charging vehicle running along the rail and a discharging device fixedly arranged beside the rail;

the feeding vehicle comprises a moving vehicle body, a feeding device and a driving device, the upper end of the moving vehicle body is obliquely arranged, the driving device is used for driving the feeding device to stretch along the top of the moving vehicle body, the feeding device comprises a feeding hopper and a spiral feeding mechanism communicated with a discharge hole of the feeding hopper, and materials in the feeding hopper are conveyed through the spiral feeding mechanism;

the material pouring device comprises a fixed frame, a lifting frame, a material pouring hopper, an electric hoist and a turnover mechanism; the fixing frame is vertically arranged, the top of the fixing frame is provided with an electric hoist, and the output end of the electric hoist is provided with a hook part; the lifting frame is provided with a hook groove block matched with the hook of the hook part, and the lifting frame is driven to lift relative to the fixed frame by the electric hoist; the hopper of falling rotationally sets up on the crane, and the fixed tilting mechanism that is provided with on the crane orders about the hopper of falling through tilting mechanism and topples over to the loading hopper towards loading hopper one side and with the material in the hopper of falling.

Further, spiral feeding mechanism includes sleeve, spiral feeding rod and first drive assembly, and sleeve feed inlet and loading hopper discharge gate intercommunication, spiral feeding rod set up in the sleeve, and first drive assembly connects in spiral feeding rod, and spiral feeding rod will fall into under first drive assembly's effect material in the sleeve is transferred to the sleeve discharge gate.

Further, the sleeve is arranged from the sleeve feeding hole to the sleeve discharging hole in an inclined downward mode, and the inclined direction and the inclined angle of the upper end of the movable trolley body are consistent with those of the sleeve.

Further, drive arrangement includes support frame and the second drive assembly of drive support frame along removing automobile body top removal, loading hopper fixed mounting is at the support frame top, spiral feeding mechanism fixed connection is in the support frame and is located the lower extreme of loading hopper.

Further, the inner wall of loading hopper is equipped with the branch briquetting, divides the first end of briquetting to connect the loading hopper inner wall, divides the second end of briquetting to extend to the loading hopper feed inlet directly over end, divide the upper end inclined plane of briquetting to hold the downward sloping setting from first end towards the second.

Furthermore, the bottom of the moving vehicle body is provided with a limiting part around, and the limiting part is in limiting fit with the track to limit the wheels to be separated from the track.

Further, the opening side of the material pouring hopper is arranged to be a dustpan-shaped structure, and the turnover mechanism can drive the material pouring hopper to turn downwards so that materials to be processed in the material pouring hopper can be discharged along the dustpan-shaped structure.

Furthermore, the outer wall of the sleeve and the bottom of the material pouring hopper are respectively provided with a vibration motor.

Furthermore, the other end of the material pouring hopper, which is opposite to the turnover mechanism, is provided with a balancing weight, and the mass of the balancing weight is matched with that of the turnover mechanism.

Furthermore, the top of the fixed frame is provided with a fixed guide rail perpendicular to the lifting direction, the fixed guide rail extends along the direction of the other side of the dustpan-shaped structure, the electric hoist is arranged on the fixed guide rail in a sliding manner, and the fixed guide rail is provided with a driving unit for driving the electric hoist to run along the fixed guide rail.

To sum up, the utility model discloses following beneficial effect has:

the utility model discloses a feeding system promotes the settlement height and emptys it to the loading hopper of feeding car in through the material pouring device with subaerial material, has saved the labour greatly, and the feeding car removes to the position of corresponding hydrogen garrulous stove through removing the automobile body, utilizes drive arrangement to order about the position removal of feeding device court near hydrogen garrulous stove to make telescopic discharge gate and hydrogen garrulous stove's feed inlet's abundant butt joint, utilize the spiral feeding mechanism to carry the material in the loading hopper at last, consequently the utility model discloses feeding system's degree of automation has been improved greatly, has improved reinforced efficiency simultaneously greatly.

Drawings

Fig. 1 is an overall layout diagram of the present invention.

Fig. 2 is a schematic diagram of the charging car and the discharging device of the present invention.

Fig. 3 is a first view structure diagram of the charging car of the present invention.

Fig. 4 is a second view structure diagram of the charging car of the present invention.

Fig. 5 is a third view structure diagram of the charging car of the present invention.

Fig. 6 is a schematic view of a first viewing angle structure of the material pouring device of the present invention.

Fig. 7 is a second view structural diagram of the material pouring device of the present invention.

Fig. 8 is the structure diagram of the pouring hopper of the present invention installed on the pouring frame.

In the figure: 1. a track; 2. a feeding vehicle; 21. moving the vehicle body; 211. a limiting member; 22. a feeding device; 23. a hopper; 231. pressing blocks separately; 24. a spiral feeding mechanism; 241. a sleeve; 242. a screw feeding rod; 243. a first drive assembly; 25. a support frame; 26. a guide rod; 27. a slider; 3. a material pouring device; 31. a fixed mount; 311. a guide chute; 32. a lifting frame; 321. a hook groove block; 322. a roller; 33. pouring a hopper; 331. a dustpan-like structure; 332. a balancing weight; 34. an electric hoist; 341. a hook portion; 35. a turnover mechanism; 36. fixing the guide rail; 37. a rotating shaft; 4. a vibration motor; 5. a hydrogen crushing furnace; 6. an electric furnace; 7. a vacuum system.

Detailed Description

The present invention will be further described with reference to the accompanying drawings.

As shown in fig. 1-8, a charging system for a hydrogen crushing furnace comprises a rail 1 arranged transversely, a charging vehicle 2 running along the rail 1, and a discharging device 3 fixedly arranged at the side of the rail 1, specifically, a plurality of hydrogen crushing furnaces 5, electric furnaces 6 corresponding to the hydrogen crushing furnaces 5 one by one, and a vacuum system 7 are arranged at the front side or the rear side of the rail 1.

The feeding vehicle 2 is including removing automobile body 21, feeding device 22 and drive arrangement, and the upper end slope that removes automobile body 21 sets up, and drive arrangement is used for driving feeding device 22 and stretches out and draws back along removing automobile body 21 top, feeding device 22 includes loading hopper 23 and the spiral feeding mechanism 24 that is linked together with the discharge gate of loading hopper 23, carry the material in the loading hopper 23 through spiral feeding mechanism 24, through setting up drive arrangement, need not set up vertical track 1, only need remove automobile body 21 along track 1 lateral shifting, it is flexible to order about feeding device 22 through drive arrangement simultaneously, can solve sleeve 241 and lead to its discharge end to interfere with hydrogen fragmentation furnace 5 when removing automobile body 21 lateral shifting, also solved the unable abundant butt joint of 5 feed inlets with hydrogen fragmentation furnace of sleeve 241 feed end, lead to partial material from the problem of leaking between sleeve 241 and the 5 feed inlets of hydrogen fragmentation furnace.

The material pouring device 3 comprises a fixed frame 31, a lifting frame 32, a material pouring hopper 33, an electric hoist 34 and a turnover mechanism 35; the fixing frame 31 is vertically arranged, the top of the fixing frame 31 is provided with an electric hoist 34, and the output end of the electric hoist 34 is provided with a hook part 341; the lifting frame 32 is provided with a hook groove block 321 which is matched with the hook part 341 in a clamping way, and the lifting frame 32 is driven to lift relative to the fixed frame 31 by the electric hoist 34; the dumping hopper 33 is rotationally arranged on the lifting frame 32, the lifting frame 32 is fixedly provided with a turnover mechanism 35, and the dumping hopper 33 is driven to overturn towards one side of the feeding hopper 23 through the turnover mechanism 35 and dump the materials in the dumping hopper 33 into the feeding hopper 23.

Specifically, the material pouring hopper 33 is rotatably arranged on the lifting frame 32 through a rotating shaft 37, the turnover mechanism 35 comprises a motor assembly and a transmission assembly, the motor assembly drives the rotating shaft 37 to rotate relative to the lifting frame 32 through the transmission assembly so as to drive the material pouring hopper 33 to turn, and the motor assembly comprises a motor and a speed reducer connected to the output end of the motor.

In some embodiments, the spiral feeding mechanism 24 includes a sleeve 241, a spiral feeding rod 242 and a first driving assembly 243, the feeding hole of the sleeve 241 is communicated with the discharging hole of the feeding hopper 23, the spiral feeding rod 242 is disposed in the sleeve 241, the first driving assembly 243 is connected to the spiral feeding rod 242, and the spiral feeding rod 242 moves the material falling into the sleeve 241 to the discharging hole of the sleeve 241 under the action of the first driving assembly 243.

Because the spiral feeding rod 242 is arranged in the sleeve 241, when the spiral feeding rod 242 does not rotate, the material falling into the sleeve 241 is blocked by the spiral feeding rod 242 and cannot fall out of the discharge hole of the sleeve 241, and only when the spiral feeding rod 242 rotates, the material can be output from the discharge hole of the sleeve 241.

In some embodiments, the sleeve 241 is disposed obliquely downward from the feeding opening of the sleeve 241 to the discharging opening of the sleeve 241, and the upper end of the moving body 21 is inclined at an angle and direction corresponding to the inclination of the sleeve 241, so as to move the material in the hopper 23 to the discharging opening of the sleeve 241.

In some embodiments, the driving device comprises a support frame 25 and a second driving assembly for driving the support frame 25 to move along the top of the moving body 21, the hopper 23 is fixedly mounted on the top of the support frame 25, and the spiral feeding mechanism 24 is fixedly connected to the support frame 25 and located at the lower end of the hopper 23.

Guide rods 26 are symmetrically arranged on two sides of the top of the moving vehicle body 21, two sides of the sliding block 27 are in sliding fit with the guide rods 26, the sliding block 27 is driven to reciprocate along the top direction of the moving vehicle body 21 through a second driving assembly, the supporting frame 25 is fixedly connected to the upper end of the sliding block 27, and the second driving assembly can be a screw rod mechanism or an electric push rod.

In some embodiments, the inner wall of the hopper 23 is provided with a partial pressure block 231, a first end of the partial pressure block 231 is connected to the inner wall of the hopper 23, a second end of the partial pressure block 231 extends to a position right above the feed opening of the hopper 23, an upper end inclined surface of the partial pressure block 231 is arranged to be inclined downwards from the first end to the second end, the partial pressure block 231 is used for dividing the weight of the material so as to reduce the pressure applied to the spiral feeding rod 242, and therefore the spiral feeding rod 242 can be prevented from being pressed and bent.

In some embodiments, the limiting member 211 is disposed around the bottom of the moving car body 21, the limiting member 211 is a limiting roller 322, the limiting member 211 is in limiting fit with the rail 1 to limit the wheel to be separated from the rail 1, when the feeding device 22 formed by the feeding hopper 23 and the spiral feeding mechanism 24 moves relative to the moving car body 21, the center of gravity of the feeding device shifts, and the limiting member 211 is in limiting fit with the rail 1 to limit the traverse car to be separated from the rail 1, so as to prevent the traverse car from falling.

In some embodiments, the open side of the dumping bin 33 is configured as a dustpan-shaped structure 331, and the turning mechanism 35 can drive the dumping bin 33 to turn downward, so that the material to be processed in the dumping bin 33 is discharged along the dustpan-shaped structure 331, so that the dumping bin 33 is butted against the loading bin 23 of the loading trolley 2, so that the material to be processed in the dumping bin 33 can be smoothly poured into the loading bin 23, and the problem of material leakage during pouring can be effectively prevented.

In some embodiments, the vibration motor 4 is respectively disposed on the outer wall of the sleeve 241 and the bottom of the material pouring hopper 33, and the vibration motor 4 vibrates in a pulse manner to solve the problem that the material cannot be smoothly discharged due to the accumulation or adhesion of the material on the inner walls of the sleeve 241 and the material pouring hopper 33.

In some embodiments, a weight 332 is disposed at the other end of the material pouring hopper 33 opposite to the turnover mechanism 35, and the weight 332 has a mass matching with that of the turnover mechanism 35 to balance the mass of the two sides of the material pouring hopper 33, so as to prevent the material pouring hopper 33 from being jammed due to tilting during the lifting process.

In some embodiments, the top of the fixed frame 31 is provided with a fixed rail 36 perpendicular to the lifting direction, the fixed rail 36 extends along the other side direction relative to the dustpan-like structure 331, the electric hoist 34 is slidably disposed on the fixed rail 36, the fixed rail 36 is provided with a driving unit for driving the electric hoist 34 to move along the fixed rail 36, by this arrangement, after the dumping is completed, the dumping bin 33 descends into the pit under the action of the electric hoist 34, at this time, the operator takes the hook 341 out of the hook groove block 321, the driving unit tends to move the electric hoist 34 outwards along the fixed rail 36, and the operator can use the electric hoist 34 to move the feeding bin upwards so as to dump the material to be processed in the feeding bin into the dumping bin 33.

In some embodiments, the periphery of the fixing frame 31 is provided with the guide sliding grooves 311 which are vertically arranged, the periphery of the lifting frame 32 is respectively provided with at least one group of rollers 322 which are in sliding fit with the guide sliding grooves 311, so that the lifting frame 32 can be prevented from shifting in the lifting process, specifically, two groups of connecting blocks which are arranged at intervals are respectively arranged around the material pouring hopper 33, the outer sides of the connecting blocks are rotatably connected with the rollers 322, and the lifting frame 32 can be lifted more smoothly and stably through the arrangement.

The utility model discloses a feeding system promotes the settlement height and emptys it to the loading hopper 23 of feeding car 2 in through pouring device 3 subaerial material, has saved the labour greatly, and feeding car 2 removes to the position that corresponds garrulous stove 5 of hydrogen through removing automobile body 21, utilizes drive arrangement to order about feeding device 22 and removes towards the position that is close to garrulous stove 5 of hydrogen to make the abundant butt joint of the discharge gate of sleeve 241 and the feed inlet of garrulous stove 5 of hydrogen, utilize spiral feeding mechanism 24 to carry the material in the loading hopper 23 at last, consequently the utility model discloses improved feeding system's degree of automation greatly, improved feeding efficiency simultaneously greatly.

The above is only the preferred embodiment of the present invention, so all the equivalent changes or modifications made by the structure, features and principles in accordance with the claims of the present invention are included in the claims of the present invention.

Claims (10)

1. The utility model provides a charging system of hydrogen garrulous stove which characterized in that: comprises a track (1), a charging vehicle (2) running along the track (1) and a discharging device (3) fixedly arranged at the side of the track (1);

the feeding vehicle (2) comprises a moving vehicle body (21), a feeding device (22) and a driving device, the upper end of the moving vehicle body (21) is obliquely arranged, the driving device is used for driving the feeding device (22) to stretch out and draw back along the top of the moving vehicle body (21), the feeding device (22) comprises a feeding hopper (23) and a spiral feeding mechanism (24) communicated with a discharge hole of the feeding hopper (23), and materials in the feeding hopper (23) are conveyed through the spiral feeding mechanism (24);

the material pouring device (3) comprises a fixed frame (31), a lifting frame (32), a material pouring hopper (33), an electric hoist (34) and a turnover mechanism (35); the fixing frame (31) is vertically arranged, the top of the fixing frame (31) is provided with an electric hoist (34), and the output end of the electric hoist (34) is provided with a hook part (341); the lifting frame (32) is provided with a hook groove block (321) matched with the hook part (341) in a clamping way, and the lifting frame (32) is driven to lift relative to the fixed frame (31) through the electric hoist (34); pouring hopper (33) rotationally sets up on crane (32), fixedly on crane (32) be provided with tilting mechanism (35), orders about pouring hopper (33) through tilting mechanism (35) and topples over towards loading hopper (23) one side and with the material in pouring hopper (33) to in loading hopper (23).

2. The charging system of a hydrogen pulverizer as defined in claim 1, wherein: spiral feed mechanism (24) include sleeve (241), spiral feeding rod (242) and first drive assembly (243), and sleeve (241) feed inlet and loading hopper (23) discharge gate intercommunication, spiral feeding rod (242) set up in sleeve (241), and first drive assembly (243) are connected in spiral feeding rod (242), and spiral feeding rod (242) will fall into under the effect of first drive assembly (243) the material in sleeve (241) is transferred to sleeve (241) discharge gate.

3. The charging system of a hydrogen pulverizer as defined in claim 2, wherein: the sleeve (241) is obliquely and downwards arranged from the feed port of the sleeve (241) to the discharge port of the sleeve (241), and the inclination direction and the inclination angle of the upper end of the movable vehicle body (21) are consistent with those of the sleeve (241).

4. The charging system of a hydrogen pulverizer as defined in claim 1, wherein: the driving device comprises a supporting frame (25) and a second driving assembly for driving the supporting frame (25) to move along the top of the moving vehicle body (21), the feeding hopper (23) is fixedly installed at the top of the supporting frame (25), and the spiral feeding mechanism (24) is fixedly connected to the supporting frame (25) and located at the lower end of the feeding hopper (23).

5. The charging system of a hydrogen pulverizer as defined in claim 1, wherein: the inner wall of loading hopper (23) is equipped with partial pressure piece (231), and loading hopper (23) inner wall is connected to the first end of partial pressure piece (231), and the second end of partial pressure piece (231) extends to loading hopper (23) feed inlet directly over end, the upper end inclined plane of partial pressure piece (231) sets up from first end towards second end downward sloping.

6. The charging system of a hydrogen pulverizer as defined in claim 1, wherein: the bottom of the moving vehicle body (21) is provided with a limiting part (211) all around, and the limiting part (211) is in limiting fit with the track (1) to limit the wheels to be separated from the track (1).

7. The charging system of a hydrogen pulverizer as defined in claim 1, wherein: the opening side of the material pouring hopper (33) is arranged to be a dustpan-shaped structure (331), and the turnover mechanism (35) can drive the material pouring hopper (33) to turn downwards so as to enable the material to be processed in the material pouring hopper (33) to be discharged along the dustpan-shaped structure (331).

8. The charging system of a hydrogen pulverizer as defined in claim 2, wherein: and the outer wall of the sleeve (241) and the bottom of the pouring hopper (33) are respectively provided with a vibration motor (4).

9. The charging system of a hydrogen pulverizer as defined in claim 1, wherein: the other end of the material pouring hopper (33) opposite to the turnover mechanism (35) is provided with a balancing weight (332), and the mass of the balancing weight (332) is matched with the mass of the turnover mechanism (35).

10. The charging system of a hydrogen pulverizer as defined in claim 7, wherein: the top of the fixed frame (31) is provided with a fixed guide rail (36) perpendicular to the lifting direction, the fixed guide rail (36) extends along the direction of the other side of the dustpan-shaped structure (331), the electric hoist (34) is arranged on the fixed guide rail (36) in a sliding mode, and a driving unit for driving the electric hoist (34) to run along the fixed guide rail (36) is arranged on the fixed guide rail (36).

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