CN219474288U - Novel sintering trolley - Google Patents

Abstract

The utility model relates to the technical field of sintering trolleys, and discloses a novel sintering trolley, which comprises a bottom plate, wherein a sliding rail is arranged on the inner side of the bottom plate, a rotating assembly is rotatably connected to the inner side of the sliding rail, a supporting frame is fixedly connected to the outer part of the rotating assembly, a sealing gasket is fixedly connected to the outer part of the supporting frame, and a temperature-resistant brick is fixedly connected to the outer part of the supporting frame; the movable wheels rotate on the inner sides of the sliding rails to enable the supporting frames to move, the supporting frames move to drive the temperature-resistant bricks to move, the bearing rollers move to drive the sintering material to move to the outside of the sintering machine, the iron slide plates slide to enable the pipe body to be opened, the fan blades rotate to enable cold air flow blown to the inner sides of the placing grooves to cool the sintering material to be sucked into the heat dissipation holes to flow into the collecting cavity until the cold air flow enters the inner sides of the pipe body to be discharged through the air pipes, so that waste heat of the material outside the sintering trolley is subjected to air cooling to cool down, the material sintering cooling efficiency is improved, and the functionality of the sintering trolley and the operation efficiency of the sintering machine are improved.

Description

Novel sintering trolley

Technical Field

The utility model relates to the technical field of sintering trolleys, in particular to a novel sintering trolley.

Background

The sintering trolley is a main operation part of the sintering machine, and mainly has the effects that an operation rotary chain is formed between tail wheels of the sintering machine head, a sintering mixture is received at the upper horizontal section, after preheating, sintering, cooling and turning, the material returns to the head wheels to form transmission circulation, the purpose of sintering the material is achieved, the existing sintering trolley is matched with the sintering machine to sinter the material, but the sintering trolley is required to wait for the material to be naturally cooled after the sintering of the material is completed, and then is conveyed away from the sintering machine, so that long-time waiting is required in the process, the service efficiency of the sintering machine is reduced, the residual heat after the sintering of the material is completed by the existing sintering trolley cannot be cooled by air to be rapidly cooled, and the practicability of the sintering trolley is reduced.

Disclosure of Invention

In order to solve the problems that the sintering trolley needs to wait for the material to be naturally cooled and then is conveyed away from the sintering machine after the material is sintered, the process needs to wait for a long time, the service efficiency of the sintering machine is reduced, the residual heat after the material is sintered by the existing sintering trolley cannot be cooled by air, the practicability of the sintering trolley is reduced, and the purposes of air cooling and heat dissipation of the residual heat, high material sintering and cooling efficiency and improvement of the working efficiency of the sintering machine are achieved.

The utility model is realized by the following technical scheme: the novel sintering trolley comprises a bottom plate, a sliding rail is arranged on the inner side of the bottom plate, a rotating assembly is rotatably connected on the inner side of the sliding rail, a supporting frame is fixedly connected on the outer side of the rotating assembly, a sealing gasket is fixedly connected on the outer side of the supporting frame, a temperature-resistant brick is fixedly connected on the outer side of the supporting frame, a placing groove is arranged on the surface of the temperature-resistant brick, a bearing roller is fixedly connected on the inner side of the placing groove, a heat radiation hole is arranged on the inner surface of the placing groove, a collecting cavity is arranged in the heat-resistant brick, a gas transmission assembly for exhausting hot air in the collecting cavity is fixedly connected on the inner side of the supporting frame, a connecting plate is fixedly connected on the outer side of the bottom plate, a lifting rod is fixedly connected on the outer side of the connecting plate, a clamping seat is fixedly connected on the outer side of the lifting rod, the inside of cassette is connected with the cooling board, the venthole has been seted up to the surface of cooling board, the outside fixedly connected with refrigerator of connecting plate, the rotating assembly includes roof, running gear, first motor, the outside fixedly connected with roof of support frame, the outside swing joint of roof has the running gear, the outside fixedly connected with first motor of roof, the gas-supply subassembly includes body, magnet, iron slide, spring, second motor, flabellum, the inboard fixedly connected with body of support frame, the inboard fixedly connected with magnet of body, the inboard sliding seal of body has the iron slide, the outside fixedly connected with spring of iron slide, the outside fixedly connected with second motor of body, the inboard swing joint of body has the flabellum.

Further, the number of the sliding rails is two, the two sliding rails are symmetrically distributed on the inner side of the bottom plate, the number of the movable wheels is four, the four movable wheels are symmetrically distributed on the bottom of the supporting frame respectively, and the first motor is fixedly connected with the movable wheels through connecting shafts.

Further, the sealing gasket is matched with the specifications of the temperature-resistant bricks, the positions of the temperature-resistant bricks and the positions of the supporting frames are corresponding, the specifications of the temperature-resistant bricks and the supporting frames are matched, the number of the bearing rollers is at least ten, and all the bearing rollers are linearly arranged at the inner side of the placing groove at equal intervals.

Further, the radiating holes are uniformly distributed at the bottom of the placing groove, the radiating holes are communicated with the inside of the collecting cavity, the pipe body is communicated with the inside of the collecting cavity, the magnetic ring corresponds to the position of the iron slide plate, the iron slide plate is in sliding sealing connection with the inner side of the pipe body, and the pipe body is connected with the air pipe.

Further, both ends of the spring are respectively fixedly connected to the inner side of the pipe body and the outer part of the iron slide plate, the fan blades are corresponding to the positions of the pipe body and are matched with each other in specification, and the second motor is fixedly connected with the fan blades through a connecting shaft.

Further, the telescopic stroke of lifter and the high position phase-match of temperature resistant brick, cassette rotates spacing being connected with the cooling plate, the cooling plate passes through hose connection with the refrigerator, venthole evenly distributed is on the surface of cooling plate.

The utility model provides a novel sintering trolley. The beneficial effects are as follows:

this novel sintering trolley makes the support frame motion through the running gear inboard rotation at the slide rail, the support frame motion drives the motion of temperature resistant brick, the motion of temperature resistant brick makes the loading roller motion drive sintering material motion sintering machine outside, the refrigerator produces the cold air current and carries out sintering material waste heat forced air cooling through the venthole on cooling plate surface, simultaneously the iron slide slides and makes the body open, the flabellum rotates and makes and blows to the inboard cold air current cooling sintering material of standing groove by inhaling the louvre flow to collect the intracavity portion until getting into the body inside and discharge through the trachea, thereby make the outside material waste heat forced air cooling of sintering trolley cooling, improve material sintering cooling efficiency, improve the functional of sintering trolley and sintering machine's operating efficiency.

Drawings

FIG. 1 is a schematic diagram of the overall appearance and structure of a novel sintering pallet;

FIG. 2 is a schematic diagram of the internal cross-sectional structure of a novel sintering pallet;

FIG. 3 is an enlarged schematic view of the structure of the novel sintering pallet at A in FIG. 2;

FIG. 4 is an enlarged schematic view of the structure of the novel sintering pallet at B in FIG. 2;

FIG. 5 is an enlarged schematic view of the structure of the novel sintering pallet at C in FIG. 2;

fig. 6 is an enlarged schematic view of the structure of the novel sintering pallet at D in fig. 2.

In the figure: 1. a bottom plate; 2. a slide rail; 3. a rotating assembly; 31. a top plate; 32. a movable wheel; 33. a first motor; 4. a support frame; 5. a sealing gasket; 6. a temperature resistant brick; 7. a placement groove; 8. a carrying roller; 9. a heat radiation hole; 10. a collection chamber; 11. a gas delivery assembly; 111. a tube body; 112. a magnetic ring; 113. an iron slide plate; 114. a spring; 115. a second motor; 116. a fan blade; 12. a connecting plate; 13. a lifting rod; 14. a clamping seat; 15. a cooling plate; 16. an air outlet hole; 17. a refrigerating machine.

Detailed Description

In order to better understand the technical solutions in the present application, the following description will clearly and completely describe the technical solutions in the embodiments of the present application with reference to the accompanying drawings.

Please refer to fig. 1-6, a novel sintering trolley, this application has solved the problem that the quick cooling and radiating of forced air cooling of waste heat after the sintering trolley accomplishes the material sintering, including bottom plate 1, slide rail 2 has been seted up to the inboard of bottom plate 1, can make this application remove along the direction of slide rail 2, and it is steady reliable to remove, slide rail 2's inboard rotation is connected with rotating assembly 3, rotating assembly 3's outside fixedly connected with support frame 4, support frame 4's outside fixedly connected with is sealed to fill up 5, support frame 4's outside fixedly connected with refractory brick 6, isolated heat, reduce heat conduction, standing groove 7 has been seted up on refractory brick 6's surface, be used for placing the cooling material, in order to be convenient for remove the cooling material, the inboard fixedly connected with carrier roller 8 of standing groove 7, the sealed to fill up 5 and refractory brick 6's specification phase-match during the specific design, the position of corresponding refractory brick 6 and support frame 4 phase-match, the quantity of carrier roller 8 is ten at least, all carrier roller 8 equidistant linear arrangements are in the inboard of standing groove 7, during operation, support frame 4 motion drives sealed pad 5 motion, carrier roller 4 motion drives the sealed pad 5 motion, carrier roller 6 drives the refractory brick motion and drives the refractory brick 6 and moves into the sealed machine and moves into the inside of the sintering material in order to make the sintering machine motion of refractory brick 6.

According to the utility model, the inner surface of the placing groove 7 is provided with the heat radiation holes 9, the inside of the temperature-resistant brick 6 is provided with the collecting cavity 10, the inner side of the supporting frame 4 is fixedly connected with the air transmission component 11 for exhausting hot air in the collecting cavity 10, flowing air flow can be formed in the placing groove 7 for cooling through the air transmission component 11, the outer part of the bottom plate 1 is fixedly connected with the connecting plate 12, the outer part of the connecting plate 12 is fixedly connected with the lifting rod 13, the outer part of the lifting rod 13 is fixedly connected with the clamping seat 14, the inner side of the clamping seat 14 is connected with the cooling plate 15, the height of the cooling plate 15 can be adjusted according to working requirements, rapid cooling can be realized through the cooling plate 15, specifically, the surface of the cooling plate 15 is provided with the air outlet hole 16, the outer part of the connecting plate 12 is fixedly connected with the refrigerator 17, and the air is exhausted through the air outlet hole 16 of the cooling plate 15 through the refrigerant 17 for cooling.

According to the utility model, the movement of the device is mainly driven by the rotating assembly 3, the main rotating assembly 3 comprises a top plate 31, movable wheels 32 and a first motor 33, the top plate 31 is fixedly connected to the outer part of a specific support frame 4, the movable wheels 32 are movably connected to the outer part of the top plate 31, the first motor 33 is fixedly connected to the outer part of the top plate 31, the number of the two sliding rails 2 is two, the two sliding rails 2 are symmetrically distributed on the inner side of the bottom plate 1, the number of the movable wheels 32 is four, the four movable wheels 32 are symmetrically distributed at the bottom of the support frame 4, the first motor 33 is fixedly connected with the movable wheels 32 through a connecting shaft, and when the device works, the first motor 33 is electrified to operate to drive the movable wheels 32 to rotate on the inner side of the sliding rails 2 on the inner side of the bottom plate 1, the movable wheels 32 rotate to drive the top plate 31 to move, and the top plate 31 moves to drive the support frame 4.

In the utility model, the gas transmission assembly 11 comprises a pipe body 111, a magnetic ring 112, an iron slide plate 113, a spring 114, a second motor 115 and fan blades 116, wherein the pipe body 111 is fixedly connected to the inner side of a support frame 4, the magnetic ring 112 is fixedly connected to the inner side of the pipe body 111, the iron slide plate 113 is connected to the inner side of the pipe body 111 in a sliding and sealing manner, when the gas transmission assembly specifically works, the magnetic ring 112 is electrified to generate an electromagnetic field, the iron slide plate 113 is attracted in the electromagnetic field by magnetic force to slide in the pipe body 111 to open the pipe body 111, the spring 114 is fixedly connected to the outer part of the iron slide plate 113, the second motor 115 is fixedly connected to the outer part of the pipe body 111, the fan blades 116 are movably connected to the inner side of the pipe body 111, the iron slide plate 113 slides to enable the spring 114 to compress, and meanwhile, the second motor 115 is electrified to operate to drive the fan blades 116 to rotate in the pipe body 111 to enable air in the pipe body 111 to flow into a gas pipe to be discharged in a directional manner.

In the utility model, the heat dissipation holes 9 are uniformly distributed at the bottom of the placing groove 7, the heat dissipation holes 9 are communicated with the inside of the collecting cavity 10, the pipe body 111 is communicated with the inside of the collecting cavity 10, the temperature of the absorbing material is changed into hot air flow after the cold air flow blown into the inside of the placing groove 7 contacts with the sintering material, the hot air flow is absorbed by the heat dissipation holes 9 and conveyed into the inside of the collecting cavity 10, the magnetic ring 112 corresponds to the iron slide plate 113, the iron slide plate 113 is in sliding sealing connection with the inner side of the pipe body 111, the pipe body 111 is connected with an air pipe, and the hot air is discharged through the air pipe.

In the utility model, two ends of a spring 114 are respectively and fixedly connected to the inner side of a pipe body 111 and the outer part of an iron slide plate 113, the positions of a fan blade 116 and the pipe body 111 are corresponding and are matched in specification, a second motor 115 is fixedly connected with the fan blade 116 through a connecting shaft, the telescopic stroke of a lifting rod 13 is matched with the height position of a temperature-resistant brick 6, a clamping seat 14 is in rotation limiting connection with a cooling plate 15, the cooling plate 15 is connected with a refrigerator 17 through a hose, air outlets 16 are uniformly distributed on the surface of the cooling plate 15, and the cooling effect is achieved by better utilizing refrigerating gas.

The movable wheels 32 rotate on the inner side of the sliding rail 2 to enable the supporting frame 4 to move, the supporting frame 4 moves to drive the temperature-resistant bricks 6 to move, the temperature-resistant bricks 6 move to enable the bearing rollers 8 to move to drive the sintering materials to move outside the sintering machine, the refrigerator 17 generates cold air flow to perform waste heat air cooling on the sintering materials through the air outlet holes 16 on the surface of the cooling plate 15, meanwhile, the iron sliding plate 113 slides to enable the pipe body 111 to be opened, the fan blades 116 rotate to enable the cold air flow blown to the inner side of the placing groove 7 to cool the sintering materials to be sucked into the heat dissipation holes 9 to flow into the collecting cavity 10 until the sintering materials enter the inside of the pipe body 111 to be discharged through the air pipes, so that waste heat air cooling of the materials outside the sintering trolley is enabled to cool, the material sintering cooling efficiency is improved, and the functionality of the sintering trolley and the operation efficiency of the sintering machine are improved.

Working principle: the first motor 33 is electrified to operate to drive the movable wheel 32 to rotate on the inner side of the sliding rail 2 on the inner side of the bottom plate 1, the movable wheel 32 rotates to drive the top plate 31 to move, the top plate 31 moves to drive the supporting frame 4 to move, the supporting frame 4 moves to drive the sealing gasket 5 to move, the supporting frame 4 moves to drive the temperature-resistant brick 6 to move, the temperature-resistant brick 6 moves to drive the bearing roller 8 to move, the bearing roller 8 moves to drive materials to enter the inside of the sintering machine and perform sealing action on the sealing gasket 5 to enable the temperature-resistant brick 6 and the sintering machine to form a sintering sealing environment, the inside of the material sintering sealing environment is preliminarily cooled to be within 100 ℃ through high-temperature sintering, the user operates the first motor 33 to enable the sintering material to move away from the inside of the sintering machine until the supporting frame 4 moves to the left side of the bottom plate 1, the cooling plate 15 is rotated clockwise outside the clamping seat 14 by manual rotation of the user, the cooling plate 15 rotates clockwise until the cooling plate is horizontally aligned with the placing groove 7 and the lifting rod 13 is adjusted to change the height position of the clamping seat 14, the height position of the clamping seat 14 is changed until the cooling plate 15 is correspondingly matched with the placing groove 7, at the moment, a user operates the refrigerator 17, the magnet ring 112 and the second motor 115 to electrify, the refrigerator 17 is electrified to cool external air and then conveys the external air into the cooling plate 15 through a hose, cold air flow in the cooling plate 15 is blown to the surface of the sintered material outside the bearing roller 8 at the inner side of the placing groove 7 through the air outlet hole 16 to perform preheating cooling, the magnet ring 112 is electrified to generate an electromagnetic field, the iron slide plate 113 is attracted in the electromagnetic field by magnetic force to slide in the tube 111 to open the tube 111, the iron slide plate 113 slides to compress the spring 114, the second motor 115 is electrified to drive the fan blade 116 to rotate in the tube 111 to enable the air in the tube 111 to flow into the air pipe to be discharged in a directional way, after the cold air flow in the placing groove 7 is in contact with the sintering material, the temperature of the absorbing material is changed into hot air flow which is absorbed by the heat dissipation holes 9 and conveyed into the collecting cavity 10, the hot air flow in the collecting cavity 10 flows into the pipe body 111 and is discharged through the air pipe under the driving of the fan blades 116, after the sintering material is cooled, the user operates the cooling plate 15 to rotate anticlockwise to leave the place groove 7, and the user can conveniently take the sintering material.

Other embodiments of the present application will be apparent to those skilled in the art from consideration of the specification and practice of the application disclosed herein. This application is intended to cover any variations, uses, or adaptations of the application following, in general, the principles of the application and including such departures from the present disclosure as come within known or customary practice within the art to which the application pertains. It is intended that the specification and examples be considered as exemplary only, with a true scope of the application being indicated by the following claims.

It is to be understood that the present application is not limited to the precise arrangements and instrumentalities shown in the drawings, which have been described above, and that various modifications and changes may be effected without departing from the scope thereof. The above-described embodiments of the present application are not intended to limit the scope of the present application.

Claims (7)

1. The utility model provides a novel sintering pallet, includes bottom plate (1), its characterized in that: slide rail (2) have been seted up to the inboard of bottom plate (1), the inboard rotation of slide rail (2) is connected with rotating assembly (3), the outside fixedly connected with support frame (4) of rotating assembly (3), the outside fixedly connected with of support frame (4) is sealed fills up (5), the outside fixedly connected with temperature resistant brick (6) of support frame (4), standing groove (7) have been seted up on the surface of temperature resistant brick (6), the inboard fixedly connected with loading roller (8) of standing groove (7), louvre (9) have been seted up to the internal surface of standing groove (7), collect chamber (10) have been seted up to the inside of temperature resistant brick (6), the inboard fixedly connected with of support frame (4) is used for discharging and collects gas transmission subassembly (11) of chamber (10) inside hot air, the outside fixedly connected with connecting plate (12) of bottom plate (1), the outside fixedly connected with lifter (13) of connecting plate (12), the outside fixedly connected with cassette (14) of lifter (13), the air outlet plate (15) of cassette (14) are connected with connecting plate (15), cooling machine (17) have cooling plate (16) to be seted up.

2. The novel sintering pallet of claim 1, wherein: the rotating assembly (3) comprises a top plate (31), a movable wheel (32) and a first motor (33), the top plate (31) is fixedly connected with the outside of the supporting frame (4), the movable wheel (32) is movably connected with the outside of the top plate (31), the first motor (33) is fixedly connected with the outside of the top plate (31), the gas transmission assembly (11) comprises a pipe body (111), a magnet ring (112), an iron slide plate (113), a spring (114), a second motor (115) and fan blades (116), the pipe body (111) is fixedly connected with the inner side of the supporting frame (4), the magnet ring (112) is fixedly connected with the inner side of the pipe body (111), the iron slide plate (113) is fixedly connected with the outer side of the iron slide plate (113), the second motor (115) is fixedly connected with the outer side of the pipe body (111), and the fan blades (116) are movably connected with the inner side of the pipe body (111).

3. A novel sintering pallet according to claim 2, characterized in that: the number of the sliding rails (2)) is two, the two sliding rails (2)) are symmetrically distributed on the inner side of the bottom plate (1), the number of the movable wheels (32) is four, the four movable wheels (32) are symmetrically distributed on the bottom of the supporting frame (4) respectively, and the first motor (33) is fixedly connected with the movable wheels (32) through a connecting shaft.

4. The novel sintering pallet of claim 1, wherein: the sealing gasket (5) is matched with the specifications of the temperature-resistant bricks (6), the positions of the temperature-resistant bricks (6) and the supporting frames (4) are corresponding and the specifications are matched, the number of the bearing rollers (8) is at least ten, and all the bearing rollers (8) are linearly arranged at the inner side of the placing groove (7) at equal intervals.

5. A novel sintering pallet according to claim 2, characterized in that: the heat dissipation holes (9) are uniformly distributed at the bottom of the placing groove (7), the heat dissipation holes (9) are communicated with the inside of the collecting cavity (10), the pipe body (111) is communicated with the inside of the collecting cavity (10), the magnetic ring (112) corresponds to the iron slide plate (113), the iron slide plate (113) is in sliding sealing connection with the inner side of the pipe body (111), and the pipe body (111) is connected with the air pipe.

6. A novel sintering pallet according to claim 2, characterized in that: the two ends of the spring (114) are respectively and fixedly connected to the inner side of the pipe body (111) and the outer part of the iron slide plate (113), the positions of the fan blades (116) and the pipe body (111) are corresponding and the specifications of the fan blades are matched, and the second motor (115) is fixedly connected with the fan blades (116) through a connecting shaft.

7. The novel sintering pallet of claim 1, wherein: the telescopic travel of the lifting rod (13) is matched with the height position of the temperature-resistant brick (6), the clamping seat (14) is in rotation limiting connection with the cooling plate (15), the cooling plate (15) is connected with the refrigerator (17) through a hose, and the air outlets (16) are uniformly distributed on the surface of the cooling plate (15).