CN217155019U - Novel waste heat recovery is energy-conserving device - Google Patents

Abstract

The utility model discloses a novel waste heat recovery is energy-conserving device, including collecting box and heat-conducting plate, the heat-conducting plate slides in the inside and level setting of collecting box, and is equipped with metallurgical waste residue weight and reminds the mechanism bottom the heat-conducting plate, the equal horizontal fixedly connected with slide in collecting box bottom both ends, and the inside coupling mechanism who is used for connecting the heat-conducting plate that all is equipped with of two slides, the inside slip of collecting box has the lagging, and the inside slip of lagging has the slide, the skateboard bottom is passed lagging bottom and butt in the heat-conducting plate top, and the roof is equipped with the canceling release mechanical system who is used for the slide that resets in the lagging, collecting box top level is provided with the conduction board, and the vertical support of installing in collecting box top. The utility model relates to a novel waste heat recovery economizer can make the conduction board preheat materials such as ore, and further can utilize the waste heat, has avoided the waste to the heat resource, and then has improved the energy saving and emission reduction effect of this equipment, has certain practicality.

Description

Novel waste heat recovery is energy-conserving device

Technical Field

The utility model belongs to the technical field of metallurgical auxiliary assembly, concretely relates to novel waste heat recovery is energy-conserving device.

Background

In the metallurgical industry, ferrous metallurgy is a process of extracting metals or metal compounds from iron ores, raw fuels and the like through smelting processing to prepare metal materials with certain properties. In the production and manufacturing process of iron and steel enterprises, waste residues such as iron slag and steel slag are generated during smelting of an iron-making blast furnace and a steel-making converter, and metallurgical waste residues usually have high heat, so that waste heat and complementary energy of the waste residues generated in metallurgy are required to be recycled.

However, the waste heat and the complementary energy of the metallurgical waste residue are generally simply collected and naturally cooled for storage and treatment at present, the heat of the waste residue cannot be effectively recycled, and the energy-saving and emission-reducing work under the current situation is not facilitated.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a novel waste heat recovery energy-saving device has solved at present to the waste heat complementary energy recycle of metallurgical waste residue, can not carry out effective recycle to the heat of waste residue, is unfavorable for the partly problem of energy saving and emission reduction work under the current situation.

The technical proposal adopted by the utility model is that,

the utility model provides a novel waste heat recovery is energy-conserving device, including collecting box and heat-conducting plate, the heat-conducting plate slides and sets up in the inside and level of collecting box, and the heat-conducting plate bottom is equipped with metallurgical waste residue weight and reminds the mechanism, the equal horizontal fixedly connected with slide in collecting box bottom both ends, and two slide inside all are equipped with the coupling mechanism who is used for connecting the heat-conducting plate, the inside slip of collecting box has the lagging, and the inside slip of lagging has the slide, the lagging bottom is passed to the slide bottom and butt in the heat-conducting plate top, and the lagging inside top is equipped with the canceling release mechanical system who is used for the slide that resets, collecting box top level is provided with the conduction board, and the vertical support of installing in collecting box top, the support top is installed in conduction board bottom center department, and the inside cavity that is of conduction board, be equipped with the feed through mechanism who is used for intercommunication collecting box and conduction board on the collecting box.

The utility model is also characterized in that;

the metallurgical waste residue weight reminding mechanism comprises a first copper sheet and a second copper sheet, the first copper sheet is arranged at the center of the bottom of the heat conducting plate, the second copper sheet is arranged at the center of the bottom in the collecting box and is positioned under the first copper sheet, an alarm lamp is arranged on one side of the collecting box, and the first copper sheet and the second copper sheet are both electrically connected with the alarm lamp.

Coupling mechanism includes slider and first spring, and the slider has two and slides respectively inside two slides, and two slider tops all articulate there is the hinge bar, and two hinge bar tops all articulate in heat-conducting plate bottom one side both ends.

The two first springs are horizontally arranged at two ends inside the slide way respectively, two ends, far away from the two first springs, of the two first springs are arranged at two ends inside the slide way respectively, and two opposite ends of the two first springs are arranged on two sides, far away from the two slide blocks, of the two first springs respectively.

The resetting mechanism comprises two spring rods, the two spring rods are arranged at two ends of the top of the sleeve plate respectively, the telescopic ends of the two spring rods are arranged at two ends of the top of the sliding plate respectively, electric telescopic rods are horizontally arranged at two ends of one side of the collecting box, and output shafts of the two electric telescopic rods penetrate through one side of the collecting box and are arranged at two ends of one side of the sleeve plate respectively.

The feed inlet has been seted up to collection box top one end and has been set the apron, and collection box one side is the open-type and articulated have the chamber door, and the chamber door side-mounting has the handle, and transparent observation window is still installed to the chamber door side.

The communicating mechanism comprises an air pump, the air pump is installed on one side of the collecting box, the collecting box at one end of the air pump is communicated with and located below the heat-conducting plate, the other end of the air pump is communicated with the second communicating pipe, one end of the second communicating pipe, which is far away from the air pump, is communicated with the inside of the conducting plate, one side of the conducting plate, which is far away from the second communicating pipe, is communicated with the first communicating pipe, and the other end of the first communicating pipe and the collecting box are communicated with and located below the heat-conducting plate.

The utility model has the advantages that: the utility model relates to a novel waste heat recovery economizer, when needs use this equipment, at first open the apron pour the metallurgical waste residue into the collecting box inside, through the setting of heat-conducting plate, heat on the adsorbable waste residue, the setting through the air pump again, can make the inside hot-air of collecting box get into inside the conduction board through the second communicating pipe to can make the conduction board preheat materials such as ore, further can utilize the waste heat, the waste to the heat resource has been avoided, and then the energy saving and emission reduction effect of this equipment has been improved.

After the waste residue is poured into on the heat-conducting plate, the heat-conducting plate receives the action of gravity of waste residue and can down remove, the heat-conducting plate down removes and can drive hinge bar and first copper sheet and remove, the hinge bar removes and can drive the slider and remove, the slider removes and can make first spring produce elasticity, when first copper sheet and second copper sheet contact, the warning light can light and indicate the staff and need clear up the metallurgical waste residue of collecting box inside, the inside metallurgical waste residue of having avoided the collecting box is filled with the back and can not in time clear up, lead to needing to adorn the condition emergence of getting the unable dress of metallurgical waste residue, and then the result of use of this equipment has been improved.

When needs cleared up the collecting box, drive the lagging through electric telescopic handle and remove, the lagging removes and can drive the slide and remove, then the lagging removes and can clear up the metallurgical waste residue of collecting box inside with the slide, has avoided artifical manual clearance to waste time and energy, the poor problem of clearance effect, and then has improved the practicality of this equipment.

Drawings

Fig. 1 is a schematic structural view of a novel waste heat recovery energy-saving device of the present invention;

FIG. 2 is a schematic sectional view of a collecting box in the novel waste heat recovery energy-saving device of the present invention;

FIG. 3 is a schematic cross-sectional view of the interior of the box and the sleeve plate of the novel waste heat recovery energy-saving device of the present invention;

fig. 4 is a schematic bottom view of the heat conducting plate in the novel waste heat recovery energy-saving device of the present invention.

1. A collection box; 2. a heat conducting plate; 3. a slideway; 4. an alarm light; 5. an electric telescopic rod; 6. a conductive plate; 7. a support; 8. a first communication pipe; 9. a second communicating pipe; 10. an air pump; 11. sheathing; 12. a slide plate; 13. a spring lever; 14. a slider; 15. a hinged lever; 16. a first spring; 17. a first copper sheet; 18. a second copper sheet.

Detailed Description

The following describes the novel waste heat recovery energy-saving device in further detail with reference to the accompanying drawings and the detailed description.

As shown in figures 1-4, a novel waste heat recovery energy-saving device comprises a collection box 1 and a heat-conducting plate 2, wherein the heat-conducting plate 2 slides in the collection box 1 and is horizontally arranged, the bottom of the heat-conducting plate 2 is provided with a metallurgical waste weight reminding mechanism, two ends of the bottom of the collection box 1 are horizontally and fixedly connected with slideways 3, the insides of the two slideways 3 are respectively provided with a connecting mechanism for connecting the heat-conducting plate 2, the collection box 1 is internally provided with a sleeve plate 11 in a sliding manner, the sleeve plate 11 is internally provided with a sliding plate 12 in a sliding manner, the bottom of the sliding plate 12 penetrates through the bottom of the sleeve plate 11 and is abutted against the top of the heat-conducting plate 2, the top of the sleeve plate 11 is provided with a resetting mechanism for resetting the sliding plate 12, a conducting plate 6 is horizontally arranged above the collection box 1, a support 7 is vertically arranged at the top of the collection box 1, the top of the support 7 is arranged at the center of the bottom of the conducting plate 6, the conducting plate 6 is hollow, the collection box 1 is provided with a communicating mechanism for communicating the collection box and the conducting plate 6, can utilize metallurgical slag.

Referring to fig. 1 and 4, in a preferred embodiment, the metallurgical slag weight reminding mechanism comprises a first copper sheet 17 and a second copper sheet 18, the first copper sheet 17 is installed at the center of the bottom of the heat conducting plate 2, the second copper sheet 18 is installed at the center of the bottom in the collection box 1 and is located right below the first copper sheet 17, the alarm lamp 4 is installed on one side of the collection box 1, and the first copper sheet 17 and the second copper sheet 18 are both electrically connected with the alarm lamp 4, so that the metallurgical weight in the collection box 1 can be reminded.

Referring to fig. 3, in a preferred embodiment, the connecting mechanism includes two sliding blocks 14 and two first springs 16, and the sliding blocks 14 have two and slide inside two slides 3 respectively, two sliding blocks 14 are hinged with hinge rods 15 at the top, and two hinge rods 15 are hinged at two ends of one side of the bottom of the heat conducting plate 2, the first springs 16 have two and are horizontally arranged at two ends inside the slides 3 respectively, and two ends of the two first springs 16 far away are installed at two ends inside the slides 3 respectively, two opposite ends of the two first springs 16 are installed at two sides of the two sliding blocks 14 far away respectively, and the two ends can connect and support the heat conducting plate 2.

Referring to fig. 3 and 4, in a preferred embodiment, the reset mechanism includes two spring rods 13, and the two spring rods 13 are respectively installed at two ends of the top of the sleeve plate 11, the telescopic ends of the two spring rods 13 are respectively installed at two ends of the top of the sliding plate 12, the two ends of one side of the collecting box 1 are respectively and horizontally installed with the electric telescopic rods 5, and the output shafts of the two electric telescopic rods 5 respectively penetrate through one side of the collecting box 1 and are respectively installed at two ends of one side of the sleeve plate 11, so that the inside of the collecting box 1 can be cleaned.

Referring to fig. 1, in a preferred embodiment, a feed inlet is formed in one end of the top of the collection box 1, a cover plate is arranged on the top of the collection box, one side of the collection box 1 is open and hinged with a box door, a handle is arranged on the side surface of the box door, and a transparent observation window is further arranged on the side surface of the box door, so that metallurgical waste residues can be fed and discharged.

Referring to fig. 1, in a preferred embodiment, the communicating mechanism includes an air pump 10, and the air pump 10 is installed in collecting box 1 one side, air pump 10 one end collecting box 1 communicates and is located heat-conducting plate 2 below, and the air pump 10 other end communicates and has second communicating pipe 9, the second communicating pipe 9 keeps away from the one end of air pump 10 and the inside intercommunication of conducting plate 6, and conducting plate 6 keeps away from one side intercommunication of second communicating pipe 9 has first communicating pipe 8, the first communicating pipe 8 other end and collecting box 1 intercommunication and is located heat-conducting plate 2 below, can make conducting plate 6 and collecting box 1 intercommunication and to waste heat utilization.

The utility model relates to a novel waste heat recovery is energy-conserving device's theory of operation: when the device is used, firstly, the cover plate is opened to pour metallurgical waste residues into the collecting box 1, heat on the waste residues can be absorbed through the arrangement of the heat conducting plate 2, then, through the arrangement of the air pump 10, hot air in the collecting box 1 can enter the conducting plate 6 through the second communicating pipe 9, so that the conducting plate 6 can preheat substances such as ores, the waste heat can be further utilized, waste of heat resources is avoided, the energy-saving and emission-reducing effects of the device are further improved, after the waste residues are poured onto the heat conducting plate 2, the heat conducting plate 2 can move downwards under the action of gravity of the waste residues, the heat conducting plate 2 can drive the hinge rod 15 and the first copper sheet 17 to move downwards, the hinge rod 15 can drive the sliding block 14 to move, the sliding block 14 can drive the first spring 16 to generate elasticity, and when the first copper sheet 17 is contacted with the second copper sheet 18, the alarm lamp 4 can be lighted up to prompt a worker to clean the metallurgical waste residues in the collecting box 1, avoided 1 inside metallurgical waste residue of collecting box to fill the back and can not in time clear up, the condition that leads to needing to adorn and get metallurgical waste residue and can't adorn and get takes place, and then improved the result of use of this equipment, when needs clear up collecting box 1, drive lagging 11 through electric telescopic handle 5 and remove, lagging 11 removes and can drive slide 12 and remove, then lagging 11 and slide 12 remove and can clear up the metallurgical waste residue of 1 inside of collecting box, the manual clearance of staff has been avoided, not only waste time and energy, and the condition that the clearance effect is still poor takes place, and then the practicality of this equipment has been improved.

The utility model relates to a novel waste heat recovery economizer through rationally designing, can make the conduction board preheat materials such as ore, and further can utilize the waste heat, has avoided the waste to the heat resource, and then has improved the energy saving and emission reduction effect of this equipment, has certain practicality.

Claims (7)

1. A novel waste heat recovery energy-saving device comprises a collection box (1) and a heat-conducting plate (2), and is characterized in that the heat-conducting plate (2) slides in the collection box (1) and is horizontally arranged, a metallurgical waste residue weight reminding mechanism is arranged at the bottom of the heat-conducting plate (2), slide ways (3) are horizontally and fixedly connected at two ends of the bottom of the collection box (1), a connecting mechanism used for connecting the heat-conducting plate (2) is arranged inside each slide way (3), a sleeve plate (11) slides inside the collection box (1), a slide plate (12) slides inside the sleeve plate (11), the bottom of the slide plate (12) penetrates through the bottom of the sleeve plate (11) and is abutted against the top of the heat-conducting plate (2), a reset mechanism used for resetting the slide plate (12) is arranged at the top inside the sleeve plate (11), a conduction plate (6) is horizontally arranged above the collection box (1), and a support (7) is vertically arranged at the top of the collection box (1), the top of the support (7) is arranged at the center of the bottom of the conduction plate (6), the conduction plate (6) is hollow, and a communicating mechanism for communicating the collecting box with the conduction plate (6) is arranged on the collecting box (1).

2. The novel waste heat recovery energy-saving device is characterized in that the metallurgical waste weight reminding mechanism comprises a first copper sheet (17) and a second copper sheet (18), the first copper sheet (17) is installed at the center of the bottom of the heat conducting plate (2), the second copper sheet (18) is installed at the center of the bottom in the collecting box (1) and is positioned right below the first copper sheet (17), the alarm lamp (4) is installed on one side of the collecting box (1), and the first copper sheet (17) and the second copper sheet (18) are both electrically connected with the alarm lamp (4).

3. The novel waste heat recovery energy-saving device is characterized in that the connecting mechanism comprises two sliding blocks (14) and two first springs (16), the two sliding blocks (14) respectively slide inside the two sliding ways (3), the tops of the two sliding blocks (14) are hinged with hinged rods (15), and the tops of the two hinged rods (15) are hinged with the two ends of one side of the bottom of the heat conducting plate (2).

4. A novel waste heat recovery energy-saving device according to claim 3, wherein two first springs (16) are horizontally arranged at two ends inside the slide way (3), two ends far away from the two first springs (16) are respectively arranged at two ends inside the slide way (3), and two opposite ends of the two first springs (16) are respectively arranged at two sides far away from the two sliding blocks (14).

5. The novel waste heat recovery energy-saving device as claimed in claim 4, wherein the reset mechanism comprises two spring rods (13), the two spring rods (13) are respectively installed at two ends of the top of the interior of the sleeve plate (11), the two telescopic ends of the spring rods (13) are respectively installed at two ends of the top of the sliding plate (12), the two ends of one side of the collecting box (1) are both horizontally provided with the electric telescopic rods (5), and the output shafts of the two electric telescopic rods (5) respectively penetrate through one side of the collecting box (1) and are respectively installed at two ends of one side of the sleeve plate (11).

6. The novel waste heat recovery energy-saving device as claimed in claim 5, wherein one end of the top of the collection box (1) is provided with a feed inlet and is provided with a cover plate, one side of the collection box (1) is open and is hinged with a box door, a handle is arranged on the side surface of the box door, and a transparent observation window is further arranged on the side surface of the box door.

7. The novel waste heat recovery energy-saving device according to claim 6, characterized in that the communicating mechanism comprises an air pump (10), the air pump (10) is installed on one side of the collecting box (1), the collecting box (1) at one end of the air pump (10) is communicated with and located below the heat-conducting plate (2), the other end of the air pump (10) is communicated with a second communicating pipe (9), one end of the second communicating pipe (9), which is far away from the air pump (10), is communicated with the inside of the conducting plate (6), one side of the conducting plate (6), which is far away from the second communicating pipe (9), is communicated with a first communicating pipe (8), and the other end of the first communicating pipe (8) is communicated with the collecting box (1) and located below the heat-conducting plate (2).

Images