CN218329481U - Ingot casting insulation can with waste heat recovery function - Google Patents

Abstract

The utility model provides an ingot casting insulation can with waste heat recovery function, press from both sides the cover including keeping warm, spiral heat exchange tube and heat conduction stick, the inside spiral heat exchange tube that is provided with of heat preservation clamp cover, spiral heat exchange tube inboard is provided with multiunit heat conduction stick and it runs through the heat preservation inner bag and stretches into inside it, spiral heat exchange tube upper end mouth department is connected with the outlet pipe, mouth department is connected with the inlet tube under the spiral heat exchange tube, original ingot casting insulation can simple structure has been solved in this design, lack the structure that carries out recycle to the waste heat, the inside heat of ingot casting insulation can be in vain giving off the air, its heat energy can not be utilized to the furthest, can cause the waste of the energy, and because the inside temperature of ingot casting insulation can is higher, be difficult to carry out the problem of business turn over material operation to the ingot casting work piece, the utility model discloses rational in infrastructure, through the waste heat recovery structure who adds, can carry out furthest's utilization to the waste heat of ingot casting insulation can, the energy loss has been reduced indirectly, and be convenient for carry out business turn over material operation to the ingot casting work piece.

Description

Ingot casting insulation can with waste heat recovery function

Technical Field

The utility model relates to an ingot casting insulation can with waste heat recovery function belongs to ingot casting insulation can technical field.

Background

The ingot casting refers to a process of pouring molten steel into an ingot mold through a steel containing barrel and condensing the molten steel into the ingot mold, is also called die casting and is the last working procedure of steel making. The qualified molten steel smelted by the steel smelting furnace must be cast into a steel ingot or a casting blank with a certain section shape and size, and then steel products with various purposes can be obtained through plastic processing. The ingot casting comprises a series of processes from tapping of a steel furnace (or finishing of external refining) to demoulding of the steel ingot and conveying to a soaking pit of a blooming mill, namely preparation before casting, demoulding, finishing of the steel ingot or hot conveying and the like. After the molten steel is cast into ingots, the molten steel needs to be transported to a next procedure by using the heat preservation box for processing, the temperature of the cast ingot workpiece can be kept stable by the heat preservation box, and the internal stress of the cast ingots is reduced.

Current ingot casting insulation can simple structure lacks the structure that carries out recycle to the waste heat, and during the inside heat of ingot casting insulation can was given off the air, its heat energy can not obtain furthest and utilizes, can cause the waste of the energy, and because ingot casting insulation can inside temperature is higher, is difficult for carrying out the business turn over material operation to the ingot casting work piece, and the problem that the aforesaid appears is solved to the ingot casting insulation can that has the waste heat recovery function that now urgently needs.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, the utility model aims at providing an ingot casting insulation can with waste heat recovery function to solve the problem that proposes in the above-mentioned background art, the utility model discloses rational in infrastructure, through the waste heat recovery structure of addding, can carry out furthest's utilization to the waste heat of ingot casting insulation can, indirectly reduced the energy loss, and be convenient for carry out the business turn over material operation to the ingot casting work piece.

In order to achieve the above purpose, the present invention is realized by the following technical solution: the utility model provides an ingot casting insulation can with waste heat recovery function, includes sealed lid, business turn over material mouth, insulation can box, waste heat recovery mechanism, base, the mechanism of being convenient for business turn over material and heat preservation inner bag, the base upside is provided with the insulation can box, insulation can box upside is provided with business turn over material mouth, business turn over material mouth upside is equipped with sealed lid, the insulation can box right side is provided with the mechanism of being convenient for business turn over material, the inside heat preservation inner bag that is provided with of insulation can, the inside waste heat recovery mechanism that is provided with of heat preservation inner bag.

Waste heat recovery mechanism includes outlet pipe, valve, heat preservation clamp cover, spiral heat exchange tube, heat conduction stick and inlet tube, the heat preservation clamp cover inlays to be adorned inside the heat preservation inner bag, the inside spiral heat exchange tube that is provided with of heat preservation clamp cover, spiral heat exchange tube inboard is provided with multiunit heat conduction stick and it runs through the heat preservation inner bag and stretches into inside it, spiral heat exchange tube upper end mouth department is connected with the outlet pipe, mouth department is connected with the inlet tube under the spiral heat exchange tube, inlet tube and outlet pipe middle section all are equipped with the valve.

Further, be convenient for business turn over material mechanism includes bottom plate, stand, support xarm, motor, wind-up roll, steel wire hawser, guide pulley and lifting hook, bottom plate welded fastening is on the insulation box right side, the bottom plate upside is provided with the stand, stand upper end welded fastening has the support xarm, it has the wind-up roll to support the xarm last fixed surface, the wind-up roll rear side is connected with the motor, support the xarm down the terminal surface left side and install guide pulley, the wind-up roll passes through the steel wire hawser with guide pulley and is connected, steel wire hawser end-to-end connection has the lifting hook.

Furthermore, a shaft seat is arranged at the joint of the upright column and the bottom plate, a bearing is assembled at the joint of the upright column and the shaft seat, and the upright column is rotatably connected with the shaft seat through the bearing.

Furthermore, a triangular reinforcing support is welded and fixed on the upper side of the supporting cross arm, a through hole is formed in the left side of the inside of the supporting cross arm, the through hole is of an inclined structure, and the through hole is parallel to the steel wire cable rope.

Further, the inside storing subassembly that is provided with of insulation can box, the storing subassembly includes limit baffle, hangs a handle, a heat preservation section of thick bamboo, fixed plate and landing leg, the fixed plate sets up inside the heat preservation inner bag, the fixed plate bottom is provided with the landing leg with heat preservation inner bag junction, a heat preservation section of thick bamboo has been placed to the fixed plate upside, heat preservation section of thick bamboo upside is connected and is provided with hangs the handle, and hangs and be arc protruding structure, the fixed plate left and right sides all is provided with limit baffle.

Further, a plurality of groups of heat conducting fins are welded on the annular side face of the heat conducting rod at equal intervals, the heat conducting rod is made of copper alloy materials, and the heat conducting fins are made of aluminum alloy materials.

By adopting the technical scheme, the beneficial effects of the utility model are that: the utility model discloses an ingot casting insulation can with waste heat recovery function, press from both sides the cover through the heat preservation that sets up, spiral heat exchange tube, the heat conduction stick, the wind-up roll, the steel wire hawser, leading pulley and lifting hook, this project organization is reasonable, through the waste heat recovery structure who adds, can carry out furthest's utilization to the waste heat of ingot casting insulation can, the energy loss has been reduced indirectly, and be convenient for carry out the business turn over material operation to the ingot casting work piece, original ingot casting insulation can simple structure has been solved, lack the structure that carries out recycle to the waste heat, the inside heat of ingot casting insulation can be in vain and give off the air, its heat energy can not obtain furthest and utilize, can cause the waste of the energy, and because the inside temperature of ingot casting insulation can is higher, be difficult to carry out the problem of business turn over material operation to the ingot casting work piece, the utility model discloses an effect of waste heat recovery is improved.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is a schematic structural view of an ingot casting incubator with a waste heat recovery function of the present invention;

FIG. 2 is a front sectional view of the ingot incubator with waste heat recovery function of the present invention;

fig. 3 is a schematic structural view of a storage assembly in an ingot incubator with a waste heat recovery function according to the present invention;

fig. 4 is a schematic structural view of a heat conducting rod in an ingot casting incubator with a waste heat recovery function of the present invention;

in the figure: 1-sealing cover, 2-feeding and discharging port, 3-insulation box body, 4-waste heat recovery mechanism, 41-water outlet pipe, 42-valve, 43-insulation jacket, 44-spiral heat exchange pipe, 45-heat conduction rod, 451-heat conduction fin, 46-water inlet pipe, 5-base, 6-mechanism facilitating feeding and discharging, 61-bottom plate, 62-shaft seat, 621-bearing, 63-upright post, 64-supporting cross arm, 641-triangular reinforcing support, 65-motor, 66-wind-up roller, 67-steel wire cable rope, 671-through hole, 68-guide pulley, 69-lifting hook, 7-insulation inner container, 8-storage component, 81-limit baffle, 82-lifting handle, 83-insulation cylinder, 84-fixing plate and 85-supporting leg.

Detailed Description

In order to make the utility model realize, the technical means, the creation characteristics, the achievement purpose and the efficacy are easy to understand and understand, the utility model is further explained by combining the specific implementation mode.

Referring to fig. 1-4, the present invention provides a technical solution: the utility model provides an ingot casting insulation can with waste heat recovery function, including sealed lid 1, feed inlet and outlet 2, the insulation can box 3, waste heat recovery mechanism 4, a pedestal 5, be convenient for feed inlet and outlet 6 and heat preservation inner bag 7, 5 upsides of base are provided with insulation can box 3, 3 upsides of insulation can box are provided with feed inlet and outlet 2, 2 upsides of feed inlet and outlet are equipped with sealed lid 1, the insulation can right side is provided with the feed inlet and outlet mechanism 6 of being convenient for, the inside heat preservation inner bag 7 that is provided with of insulation can, the inside waste heat recovery mechanism 4 that is provided with of heat preservation inner bag 7.

The waste heat recovery mechanism 4 comprises a water outlet pipe 41, a valve 42, a heat preservation jacket 43, a spiral heat exchange pipe 44, heat conducting rods 45 and a water inlet pipe 46, the heat preservation jacket 43 is embedded inside the heat preservation liner 7, the spiral heat exchange pipe 44 is arranged inside the heat preservation jacket 43, a plurality of groups of heat conducting rods 45 are arranged on the inner side of the spiral heat exchange pipe 44 and penetrate through the heat preservation liner 7 to extend into the heat preservation liner, the water outlet pipe 41 is connected to the upper end of the spiral heat exchange pipe 44, the water inlet pipe 46 is connected to the lower end of the spiral heat exchange pipe 44, the valve 42 is assembled between the water inlet pipe 46 and the water outlet pipe 41, the design solves the problems that the original ingot casting incubator is simple in structure and lacks of waste heat recovery and utilization, the heat inside the ingot casting incubator is dissipated into the air, the heat cannot be utilized to the maximum extent, energy waste can be caused, and the problem that the temperature inside the ingot casting incubator is high, and the feeding and discharging operation of ingot casting workpieces is difficult to be carried out is solved.

Mechanism 6 includes bottom plate 61, stand 63, support xarm 64, motor 65, wind-up roll 66, steel wire cable 67, leading pulley 68 and lifting hook 69, bottom plate 61 welded fastening is in the insulation can right side, bottom plate 61 upside is provided with stand 63, stand 63 upper end welded fastening has support xarm 64, support xarm 64 upper surface is fixed with wind-up roll 66, wind-up roll 66 rear side is connected with motor 65, the terminal surface left side is installed leading pulley 68 under the support xarm 64, wind-up roll 66 passes through steel wire cable 67 with leading pulley 68 and is connected, steel wire cable 67 end-to-end connection has lifting hook 69, this design can carry out the business turn over material operation to the ingot casting work piece through the mechanism 6 of being convenient for that sets up of business turn over.

The shaft seat 62 is arranged at the joint of the upright post 63 and the bottom plate 61, the bearing 621 is arranged at the joint of the upright post 63 and the shaft seat 62, the upright post 63 is rotatably connected with the shaft seat 62 through the bearing 621, and the design can enable the upright post 63 to rotate through the arranged shaft seat 62 and the bearing 621, so that the supporting cross arm 64 is driven to rotate to change the position of the hook 69.

The triangular reinforcing support 641 is arranged on the upper side of the supporting cross arm 64, the structural supporting strength of the supporting cross arm 64 can be enhanced through the arranged triangular reinforcing support 641, the supporting stability of the supporting cross arm 64 is improved, the penetrating through hole 671 is arranged on the left side inside the supporting cross arm 64, the penetrating through hole 671 is of an inclined structure, the penetrating through hole 671 is parallel to the steel wire rope 67, and the steel wire rope 67 can be conveniently routed through the arranged penetrating through hole 671.

Inside storing subassembly 8 that is provided with of insulation can box 3, storing subassembly 8 includes limit baffle 81, hang 82, a heat preservation section of thick bamboo 83, fixed plate 84 and landing leg 85, fixed plate 84 sets up inside heat preservation inner bag 7, fixed plate 84 bottom and heat preservation inner bag 7 junction are provided with landing leg 85, a heat preservation section of thick bamboo 83 has been placed to fixed plate 84 upside, a heat preservation section of thick bamboo 83 upside connection is provided with hangs 82, and hang 82 and be the arc protruding structure, the fixed plate 84 left and right sides all is provided with limit baffle 81, can store the ingot casting work piece through the storing subassembly 8 that sets up and place, and then be convenient for keep warm to the ingot casting work piece.

The multiple groups of heat conducting fins 451 are arranged on the annular side face of the heat conducting rod 45, the heat conducting rod 45 is made of copper alloy materials, the heat conducting fins 451 are made of aluminum alloy materials, the waste heat inside the heat preservation liner 7 can be absorbed and conducted through the multiple groups of heat conducting fins 451 which are arranged, the waste heat recovery efficiency is improved, meanwhile, the aluminum alloy and the copper alloy have excellent heat conductivity, and the heat conducting effect of the heat conducting rod 45 is further improved.

As an embodiment of the present invention: when the waste heat in the insulation box body 3 needs to be recycled, firstly, the water inlet pipe 46 is connected with an external water pump, the water outlet pipe 41 is connected with external water storage equipment, then the valve 42 is opened, cold water is conveyed into the spiral heat exchange pipe 44 through the water inlet pipe 46, the waste heat in the insulation inner container 7 is absorbed through the heat conduction fin 451 and the heat conduction plate, the heat is conducted into the spiral heat exchange pipe 44, the cold water in the spiral heat exchange pipe 44 absorbs the heat, the cold water is heated to form hot water, and then the hot water is discharged through the water outlet pipe 41, so that the waste heat can be recycled;

when feeding and discharging operations of the ingot casting workpiece are needed, the sealing cover 1 is opened, then the lifting hook 69 is hooked on the lifting handle 82 of the heat preservation cylinder 83, the starting motor 65 drives the winding roller 66 to rotate, the steel wire cable 67 is wound through the winding roller 66, the heat preservation cylinder 83 is pulled out of the heat preservation box body 3 through the steel wire cable 67, then the ingot casting workpiece is placed in the heat preservation cylinder 83, the heat preservation cylinder 83 is placed on the fixing plate 84, feeding operations of the ingot casting workpiece are further completed, and when the ingot casting workpiece needs to be taken out, the operation steps are operated in a reverse direction.

The basic principles and the main features of the invention and the advantages of the invention have been shown and described above, it will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, but that the invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (6)

1. The utility model provides an ingot casting insulation can with waste heat recovery function, includes sealed lid, business turn over material mouth, insulation can box, waste heat recovery mechanism, base, the business turn over material mechanism and the heat preservation inner bag of being convenient for, its characterized in that: the heat preservation box body is arranged on the upper side of the base, the feed and discharge port is arranged on the upper side of the heat preservation box body, the sealing cover is assembled on the upper side of the feed and discharge port, the mechanism facilitating feeding and discharging is arranged on the right side of the heat preservation box body, the heat preservation inner container is arranged in the heat preservation box body, and the waste heat recovery mechanism is arranged in the heat preservation inner container;

waste heat recovery mechanism includes outlet pipe, valve, heat preservation clamp cover, spiral heat exchange tube, heat conduction stick and inlet tube, the heat preservation clamp cover inlays to be adorned inside the heat preservation inner bag, the inside spiral heat exchange tube that is provided with of heat preservation clamp cover, spiral heat exchange tube inboard is provided with multiunit heat conduction stick and it runs through the heat preservation inner bag and stretches into inside it, spiral heat exchange tube upper end mouth department is connected with the outlet pipe, mouth department is connected with the inlet tube under the spiral heat exchange tube, inlet tube and outlet pipe middle section all are equipped with the valve.

2. The ingot casting incubator with the waste heat recovery function of claim 1, wherein: mechanism of being convenient for business turn over material includes bottom plate, stand, support xarm, motor, wind-up roll, steel wire cable rope, guide pulley and lifting hook, bottom plate welded fastening is on the insulation box right side, the bottom plate upside is provided with the stand, stand upper end welded fastening has the support xarm, support xarm last fixed surface has the wind-up roll, the wind-up roll rear side is connected with the motor, support the horizontal underarm terminal surface left side and install guide pulley, the wind-up roll passes through the steel wire cable rope with guide pulley and is connected, steel wire cable rope end-to-end connection has the lifting hook.

3. The ingot casting incubator with the waste heat recovery function according to claim 2, wherein: the upright post is connected with the bottom plate through a bearing, and the upright post is rotatably connected with the shaft seat through the bearing.

4. The ingot casting incubator with the waste heat recovery function of claim 2, wherein: a triangular reinforcing support is welded and fixed on the upper side of the supporting cross arm, a through hole is formed in the left side of the inside of the supporting cross arm, the through hole is of an inclined structure, and the through hole is parallel to the steel wire cable rope.

5. The ingot casting incubator with the waste heat recovery function according to claim 1, wherein: the storage assembly is arranged inside the heat insulation box body and comprises a limiting baffle, a hanging handle, a heat insulation barrel, a fixed plate and supporting legs, the fixed plate is arranged inside the heat insulation inner container, the supporting legs are arranged at the joint of the bottom of the fixed plate and the heat insulation inner container, the heat insulation barrel is placed on the upper side of the fixed plate, the hanging handle is arranged on the upper side of the heat insulation barrel in a connected mode and is of an arc-shaped protruding structure, and the limiting baffle is arranged on the left side and the right side of the fixed plate.

6. The ingot casting incubator with the waste heat recovery function according to claim 1, wherein: the annular side of the heat conduction rod is equidistantly welded with a plurality of groups of heat conduction fins, the heat conduction rod is made of copper alloy materials, and the heat conduction fins are made of aluminum alloy materials.

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