CN111189327A

CN111189327A - High-efficient intelligent slag reposition of redundant personnel heat transfer device

Info

Publication number: CN111189327A
Application number: CN202010151639.5A
Authority: CN
Inventors: 罗桂海
Original assignee: Individual
Current assignee: Hengzhiyu Trading Co ltd
Priority date: 2020-03-06
Filing date: 2020-03-06
Publication date: 2020-05-22
Anticipated expiration: 2040-03-06
Also published as: CN111189327B

Abstract

The invention discloses a high-efficiency intelligent slag shunting heat exchange device, which comprises a rectangular support frame, wherein a slag moving and conveying device is arranged on one side of the rectangular support frame, a controller is arranged on the side surface of the rectangular support frame, a baffle-adjusting type slag shunting device is arranged on the inner surface of the rectangular support frame, a water circulation heat exchange device is arranged on the side surface of the rectangular support frame, the baffle-adjusting type slag shunting device can separate slag and fall along sliding plates under the action of a plurality of sliding plates, so that the slag is fully dispersed, the effect of shunting heat exchange can be achieved, the sliding plates are driven by a motor to slide, the shunting degree of the slag can be controlled, the effect of adjusting the shunting degree according to the temperature of the slag can be achieved; the water circulation heat exchange device can make the cooling liquid contact the box body in the largest area through the effect of the coil pipe, thereby achieving the effect of maximum heat exchange, and the cooling liquid circulates rapidly through the work of the water pump, so that the effect of rapid cooling is achieved.

Description

High-efficient intelligent slag reposition of redundant personnel heat transfer device

Technical Field

The invention relates to the field related to industrial slag, in particular to a high-efficiency intelligent slag shunting heat exchange device.

Background

The slag can have a large amount of preheats when discharging, need just can discharge in the middle of the natural environment through abundant cooling, and general heat transfer device blows heat radiation through the air current, forms the circulating circulation air current, and its heat exchange efficiency is low, and the cooling is slow.

In 201520872886.9 slag reposition of redundant personnel heat transfer device, can be used to provide the cooling air current through air supply arrangement, retrieve the slag waste heat, air supply arrangement passes through the conveying of cooling tuber pipe, utilizes to be equipped with on the cooling tuber pipe and to blow into the nozzle of cooling air current to heat transfer material bed bottom, and the cooling air current that blows off through the nozzle gets into from the bottom of heat transfer material bed, cools off the heat transfer to the slag.

Above-mentioned patent blows in the air current to heat transfer material bed bottom through the nozzle, can heat air conditioning through the circulation of air conditioning to realize the purpose of heat transfer, but its heat exchange efficiency is low, is blowing to the slag of stacking when carrying out the heat transfer to the slag in addition, leads to the inside temperature of slag not to give off, can not shunt the heat transfer to the slag, finally leads to heat exchange efficiency low.

Disclosure of Invention

The invention aims to solve the problems, designs a high-efficiency intelligent slag shunting heat exchange device, has the function of shunting the slag for heat exchange, solves the problem of low heat exchange efficiency caused by incapability of shunting heat exchange on the slag, can quickly and fully transfer the heat of the slag by maximally dispersing the slag to achieve the shunting effect, so that the heat of the slag can be quickly dissipated, and can improve the practicability of equipment by controlling different shunting degrees.

The technical scheme of the invention is that the device comprises a rectangular support frame, wherein a slag moving and conveying device is arranged on one side of the rectangular support frame, a controller is arranged on the side surface of the rectangular support frame, a baffle plate adjusting type slag shunting device is arranged on the inner surface of the rectangular support frame, and a water circulation heat exchange device is arranged on the side surface of the rectangular support frame;

the baffle plate adjusting type slag shunting device comprises a rectangular box body arranged at the center of the upper end of a rectangular support frame, the rectangular box body is fixedly connected with the rectangular support frame, a feed inlet is arranged on the upper surface of the rectangular box body, the feed inlet is fixedly connected with the rectangular box body, a shunting port is arranged on the lower surface of the rectangular box body, the shunting port is fixedly connected with the rectangular box body, an inverted V-shaped connecting pipe is arranged at the lower end of the shunting port, the upper end of the inverted V-shaped connecting pipe is fixedly connected with the shunting box body, the upper end of the shunting box body is connected with the inverted V-shaped connecting pipe in an inserting manner, the side surface of the shunting box body is fixedly connected with the rectangular support frame, a first mounting box is arranged on the side surface of the shunting box body, the first mounting box is fixedly connected with the shunting box body, a plurality of, the V-shaped sliding plate is connected with the V-shaped through hole in a sliding mode, a supporting block is arranged on the side surface of the flow dividing box body, the supporting block is fixedly connected with the separating box body and corresponds to the position of the V-shaped through hole, a connecting plate is arranged at one end of the V-shaped sliding plate and is fixedly connected with the V-shaped sliding plate, a hydraulic cylinder is arranged on the surface of one side of the mounting box, one end of the hydraulic cylinder is fixedly connected with the first mounting box, and the other end; the lower surface of the flow distribution box body is provided with a discharge hole which is fixedly connected with the flow distribution box body.

The water circulation heat exchange device comprises a cooling pool on the side surface of a rectangular support frame, the cooling pool is fixedly connected with the rectangular support frame, one end of the lower surface of the cooling pool is provided with a plurality of water inlets which are uniformly arranged in a straight line, one side of each water inlet is provided with a confluence pipe, one end of each confluence pipe is fixedly connected with the water inlet, the other end of each confluence pipe is provided with a first water pump, the output end of each first water pump is fixedly connected with the confluence pipe, the side surfaces of an inverted V-shaped connecting pipe and a flow distribution box body are respectively provided with a heat absorption coil; the opposite side surface of water inlet is equipped with the delivery port, delivery port and cooling bath fixed connection, and the cooling bath lower surface is equipped with fixed box, fixed box and cooling bath fixed connection.

The slag removes conveyer includes conveyer belt one of rectangle support frame upper end, conveyer belt one and rectangle support frame fixed connection, and the reposition of redundant personnel box below is equipped with conveyer belt two, conveyer belt two and rectangle support frame fixed connection, and two one ends of conveyer belt are equipped with annular slide rail, annular slide rail and ground fixed connection, and annular slide rail upper surface is equipped with the load wagon, and the load wagon lower surface is equipped with the movable pulley, movable pulley and load wagon fixed connection and with annular slide rail sliding connection, the load wagon be equipped with a plurality ofly and all with distribute.

One end of the loading vehicle is provided with a connecting rod, and the connecting rod is connected with the loading vehicle in an inserting manner.

And an annular support is arranged on one side of the annular slide rail, and a slide plate is arranged at the lower end of the annular support.

And a driving motor is arranged below the loading vehicle, and the driving motor is rotationally connected with the sliding wheel in a transmission way through a gear set.

And a radiator is arranged on the side surface of the lower end of the cooling pool and is fixedly connected with the cooling pool.

And a temperature sensor is arranged on the side surface of the shunt box body.

An opening I is arranged on the lower surface of the mounting box.

According to the efficient and intelligent slag shunting heat exchange device manufactured by the technical scheme, the baffle plate adjusting type slag shunting device enables slag to be separated and fall along the sliding plates under the action of the sliding plates, so that the shunting heat exchange effect can be achieved, the sliding plates are driven by the motor to slide, the shunting degree of the slag can be controlled, and the shunting degree can be adjusted according to the temperature of the slag; the water circulation heat exchange device can make the cooling liquid contact the box body in the largest area through the effect of the coil pipe, thereby achieving the effect of maximum heat exchange, and the cooling liquid circulates rapidly through the work of the water pump, so that the effect of rapid cooling is achieved.

Drawings

FIG. 1 is a schematic structural diagram of an efficient and intelligent slag-shunting heat exchange device according to the invention;

FIG. 2 is a schematic side view of the baffle-regulated slag diverter of the present invention;

FIG. 3 is a schematic view of a water cycle heat exchange apparatus according to the present invention;

FIG. 4 is a schematic view of the junction tube of the present invention;

FIG. 5 is a schematic top view of the slag moving conveyor of the present invention;

in the figure, 1, a rectangular support frame; 2. a controller; 3. a rectangular box body; 4. a feed inlet; 5. a shunt port; 6. an inverted V-shaped connecting pipe; 7. a shunt box body; 8. mounting a first box; 9. a V-shaped through hole; 10. a V-shaped sliding plate; 11. a support block; 12. a connecting plate; 13. a hydraulic cylinder; 14. a discharge port; 15. a first opening; 16. a cooling pool; 17. a water inlet; 18. a confluence pipe; 19. a first water pump; 20. a heat absorbing coil; 21. a water outlet; 22. fixing the box body; 23. a first conveyor belt; 24. a second conveyor belt; 25. an annular slide rail; 26. a loading vehicle; 27. a sliding wheel; 28. a connecting rod; 29. an annular support; 30. a wire sliding plate; 31. a heat sink; 32. a temperature sensor; 33. the motor is driven.

Detailed Description

The invention is described in detail below with reference to the drawings, as shown in fig. 1-5.

In this embodiment, the type of the controller slide wire plate 2 is MCS-5, the signal output end of the controller slide wire plate 2 is electrically connected with the signal input ends of the first water pump 19, the first conveyor belt 23, the second conveyor belt 24, the temperature sensor 32 and the driving motor 33, and the power output end of the controller slide wire plate 2 is electrically connected with the power input ends of the first water pump 19, the first conveyor belt 23, the second conveyor belt 24, the temperature sensor 32 and the slide wire plate 30; the power input end of the driving motor 33 is electrically connected with the power output end of the slide wire plate 30.

The invention is characterized in that the structural design of the baffle-adjusting type slag shunting device is combined with the attached drawings 1 and 2, the baffle-adjusting type slag shunting device can control the independent sliding of V-shaped sliding plates between different layers through the extension and retraction of sliding plate 13 of different hydraulic cylinders, so as to control the shunting degree, the falling slag can be dispersed when passing through the structural characteristics of the V-shaped sliding plates, so as to achieve the shunting effect, the baffle-adjusting type slag shunting device comprises a rectangular box body sliding plate 3, the sliding plate 3 of the rectangular box body sliding plate is fixedly connected with the sliding plate 1 of the rectangular support frame sliding plate 3, the upper surface of the sliding plate 3 of the rectangular box body sliding plate is provided with a feed inlet sliding plate 4, the sliding plate 4 of the feed inlet sliding plate is fixedly connected with the sliding plate 3 of the rectangular box body sliding plate, the lower surface of the sliding plate 3 of the rectangular box body sliding plate is provided with a shunting port sliding plate 5, the slide wire plate 5 of the shunting port is fixedly connected with the slide wire plate 3 of the rectangular box body, the lower end of the slide wire plate 5 of the shunting port is provided with a slide wire plate 6 of an inverted V-shaped connecting pipe, the upper end of the slide wire plate 6 of the inverted V-shaped connecting pipe is fixedly connected with the slide wire plate 5 of the shunting port, the lower end of the slide wire plate 6 of the inverted V-shaped connecting pipe is provided with a slide wire plate 7 of the shunting box body, the upper end of the slide wire plate 7 of the shunting box body is connected with the slide wire plate 6 of the inverted V-shaped connecting pipe in an inserting way, the side surface of the slide wire plate 7 of the shunting box body is fixedly connected with the slide wire plate 1 of the rectangular supporting frame, the side surface of the slide wire plate 7 of the shunting box body is provided with a slide wire plate 8 of a mounting box, the slide wire plate 8 of the mounting box is fixedly connected with the slide wire plate 7 of the shunting box body, a slide wire plate 8 of the, the V-shaped through hole slide wire plate 9 is provided with a plurality of slide wire plates arranged in a pyramid shape, the inner surface of the slide wire plate of the V-shaped through hole slide wire plate 9 is provided with a slide wire plate 10 of a V-shaped slide plate, the slide wire plate 10 of the V-shaped slide plate is connected with the slide wire plate 9 of the V-shaped through hole slide wire plate in a sliding manner, the surface of the slide wire plate side of the slide wire plate 7 of the flow dividing box body is provided with a slide wire plate 11 of a support block, the slide wire plate 11 of the support block is fixedly connected with the separating box body and corresponds to the slide wire plate of the V-shaped through hole slide wire plate 9 in position, one end of the slide wire plate 10 of the V-shaped slide plate is provided with a slide wire plate 12 of a connecting plate, the slide wire plate 12 of the connecting plate is fixedly connected with the slide wire plate 10 of the V-shaped slide wire plate, the surface of the slide wire plate 8, the other end of the hydraulic cylinder wire sliding plate 13 is fixedly connected with the wire sliding plate 12 of the connecting plate wire sliding plate; the lower surface of the slide wire plate 7 of the shunting box body is provided with a slide wire plate 14 of a discharge port, and the slide wire plate 14 of the discharge port is fixedly connected with the slide wire plate 7 of the shunting box body, so that the problems that furnace slag cannot be subjected to shunting heat exchange and the heat dissipation effect is poor are solved.

The creation point of the application also comprises the structural design of a water circulation heat exchange device, the device is combined with the attached drawing 1, the attached drawing 3 and the attached drawing 4, the water circulation heat exchange device can exchange heat to slag in a large area under the action of a heat absorption coil pipe 20 to increase the temperature of cooling liquid, the cooling liquid can rapidly circulate through the work of a water pump slide wire plate 19 slide wire plate, so that the effect of rapid heat dissipation is achieved, the water circulation heat exchange device comprises a cooling pool slide wire plate 16 slide wire plate, the cooling pool slide wire plate 16 slide wire plate is fixedly connected with a slide wire plate 1 of a rectangular support frame, one end of the lower surface of the slide wire plate 16 slide wire plate of the cooling pool is provided with a water inlet slide wire plate 17 slide wire plate, a plurality of slide wire plates 17 of water inlet slide wire plates are uniformly arranged in a straight line, one side of the slide wire plate 17 slide wire plate 18 slide wire plate of a flow combining pipe is arranged on one side of the slide wire plate, the other end of the slide wire plate 18 of the confluence pipe is provided with a slide wire plate 19 of a water pump, the output end of the slide wire plate 19 of the water pump is fixedly connected with the slide wire plate 18 of the confluence pipe, the side surfaces of the slide wire plate 6 of the inverted V-shaped connecting pipe and the slide wire plate 7 of the diversion box body are respectively provided with a slide wire plate 20 of the heat dissipation coil, and one end of the slide wire plate 20 of the heat dissipation coil is fixedly connected with the input end of the slide wire plate 19 of the slide wire plate of the water pump; the opposite side surface of water inlet slide fastener 17 slide fastener is equipped with the slide fastener 21 of delivery port, and the slide fastener 21 of delivery

port slides fastener

21 and 16 slide fasteners of cooling bath slide fastener, and 16 slide fasteners lower surfaces of cooling bath slide fastener are equipped with the slide fastener 22 of fixed box body, and the slide fastener 22 of fixed box

body slides fastener

22 and 16 slide fasteners of cooling bath slide fastener fixed connection, has solved after the slag heat transfer, problem that cooling efficiency is low.

This application still includes slag and removes conveyer's structural design, combines figure 1 and figure 5 in this device, and the effect that cyclic motion is around annular slide rail 25 slide rail board to move load wagon slide rail board 26 slide rail board through driving motor slide rail board 33 slide rail board, can make slag automatically move to the factory building outside, has solved the problem that needs a large amount of manual works to its transport.

Slag can reach the upper end of the rectangular box body 3 through the transmission of the first transmission belt 23 and then enters the rectangular box body 3 through the feed inlet 4, the slag can enter the flow dividing box body 7 through the inverted V-shaped connecting pipe 6 by utilizing the factor of gravity, the controller 2 controls the hydraulic cylinders 13 to extend and retract according to the induction of the temperature sensor 32, when the temperature of the slag is lower, the hydraulic cylinder 13 at the lowest end is controlled to shorten, the shortening of the hydraulic cylinder 13 directly drives the connecting plate 12 to move to one side, the movement of the connecting plate 12 simultaneously drives the V-shaped sliding plates 10 to slide, as the V-shaped through holes 9 can play the role of the pivot, the sliding of the V-shaped sliding plates 10 is smoother, as the support blocks 11 can enable the two ends of the V-shaped sliding plates 10 to have the pivot, the structure of the V-shaped sliding plates 10 is more stable, and when the temperature of the slag is higher, the V-shaped sliding plates 10 participate in shunting work, so that heat of slag is transmitted to the shunting box body 7 and the V-shaped sliding plates 10 to the maximum degree, when the V-shaped sliding plates 10 slide, partial slag is brought into the first mounting box 8 through the V-shaped through holes 9 under the sliding effect of the V-shaped sliding plates 10 and then flows to the outside through the first opening 15, accumulation of the slag is avoided, most of heat is absorbed away after shunting heat exchange of the slag, and finally the slag falls to the upper surface of the second conveyor belt 24 through the discharge hole 14 to be conveyed.

When slag is shunted, the controller 2 controls the first water pump 19 to work, the first water pump 19 works to enable negative pressure to be generated near the water outlet 21, cooling liquid in the cooling pool 16 is enabled to circulate through the water outlet 21, the heat absorption coil 20 and the first water pump 19, when cooling is circulated near the shunt box body 7, heat of the slag is transferred into the cooling liquid through a contact transfer process, and then the purpose of rapid cooling can be achieved through the movement of the cooling liquid under the action of the cooling pool 16 and the radiator 31; a certain flow of water can be generated in the cooling bath by the action of the fixed box body 22, thereby enhancing the heat dissipation effect.

After the slag is subjected to shunting heat exchange, the slag can be conveyed to one side of the loading vehicle 26 through the movement of the second conveying belt 24, the second conveying belt 24 continuously conveys the slag into the loading vehicle 26, when a certain amount of slag exists, the controller 2 controls the driving motor 33 to rotate, the rotation of the driving motor 33 drives the sliding wheel 27 to rotate through the gear set, the sliding wheel 27 directly drives the loading vehicle to move through rotation, the slag is driven to move to one side, the temperature is reduced again, the sliding line plate 30 can provide power transmission for the annular movement of the loading vehicle 26, and the effect of infinite rotation can be achieved.

The technical solutions described above only represent the preferred technical solutions of the present invention, and some possible modifications to some parts of the technical solutions by those skilled in the art all represent the principles of the present invention, and fall within the protection scope of the present invention.

Claims

1. The efficient and intelligent slag shunting heat exchange device comprises a rectangular support frame (1), wherein a slag moving and conveying device is arranged on one side of the rectangular support frame (1), and a controller (2) is arranged on the side surface of the rectangular support frame (1), and is characterized in that a baffle plate adjusting type slag shunting device is arranged on the inner surface of the rectangular support frame (1), and a water circulation heat exchange device is arranged on the side surface of the rectangular support frame (1);

the baffle plate adjusting type slag shunting device comprises a rectangular box body (3) arranged at the center of the upper end of a rectangular support frame (1), the rectangular box body (3) is fixedly connected with the rectangular support frame (1), a feed inlet (4) is formed in the upper surface of the rectangular box body (3), the feed inlet (4) is fixedly connected with the rectangular box body (3), a shunting port (5) is formed in the lower surface of the rectangular box body (3), the shunting port (5) is fixedly connected with the rectangular box body (3), an inverted V-shaped connecting pipe (6) is arranged at the lower end of the shunting port (5), the upper end of the inverted V-shaped connecting pipe (6) is fixedly connected with the shunting port (5), a shunting box body (7) is arranged at the lower end of the inverted V-shaped connecting pipe (6), the upper end of the shunting box body (7) is connected with the inverted V-shaped connecting pipe (6) in a plug-in mode, the, the mounting box I (8) is fixedly connected with the shunt box body (7), a V-shaped through hole (9) is formed between the mounting box I (8) and the shunt box body (7), the V-shaped through hole (9) is provided with a plurality of pyramid-shaped arrangement, a V-shaped sliding plate (10) is arranged on the inner surface of the V-shaped through hole (9), the V-shaped sliding plate (10) is slidably connected with the V-shaped through hole (9), a supporting block (11) is arranged on the side surface of the shunt box body (7), the supporting block (11) is fixedly connected with the separation box body and corresponds to the V-shaped through hole (9), one end of the V-shaped sliding plate (10) is provided with a connecting plate (12), the connecting plate (12) is fixedly connected with the V-shaped sliding plate (10), a hydraulic cylinder (13) is arranged on the side surface of the mounting box I (8), one end of the hydraulic cylinder (13) is fixedly connected with; and a discharge port (14) is formed in the lower surface of the flow distribution box body (7), and the discharge port (14) is fixedly connected with the flow distribution box body (7).

2. The efficient and intelligent slag shunting heat exchange device of claim 1, the water circulation heat exchange device comprises a cooling pond (16) on the side surface of a rectangular support frame (1), the cooling pond (16) is fixedly connected with the rectangular support frame (1), one end of the lower surface of the cooling pond (16) is provided with a water inlet (17), the water inlets (17) are provided with a plurality of water merging pipes which are uniformly arranged in a straight line shape, one side of each water inlet (17) is provided with a merging pipe (18), one end of each merging pipe (18) is fixedly connected with the corresponding water inlet (17), the other end of each merging pipe (18) is provided with a first water pump (19), the output end of each first water pump (19) is fixedly connected with the corresponding merging pipe (18), the side surfaces of an inverted V-shaped connecting pipe (6) and a flow dividing box body (7) are respectively provided with a; the opposite side surface of water inlet (17) is equipped with delivery port (21), delivery port (21) and cooling bath (16) fixed connection, and cooling bath (16) lower surface is equipped with fixed box (22), fixed box (22) and cooling bath (16) fixed connection.

3. The efficient and intelligent slag shunt heat exchange device according to claim 1, wherein the slag mobile transportation device comprises a first conveyor belt (23) at the upper end of the rectangular support frame (1), the first conveyor belt (23) is fixedly connected with the rectangular support frame (1), a second conveyor belt (24) is arranged below the shunt box body (7), the second conveyor belt (24) is fixedly connected with the rectangular support frame (1), one end of the second conveyor belt (24) is provided with an annular slide rail (25), the annular slide rail (25) is fixedly connected with the ground, the upper surface of the annular slide rail (25) is provided with a loading vehicle (26), the lower surface of the loading vehicle (26) is provided with a sliding wheel (27), the sliding wheel (27) is fixedly connected with the loading vehicle (26) and is slidably connected with the annular slide rail (25), and the loading vehicle (26) is provided with a plurality of belts and is.

4. The efficient and intelligent slag shunting heat exchange device according to claim 1, wherein a connecting rod (28) is arranged at one end of the loading vehicle (26), and the connecting rod (28) is connected with the loading vehicle (26) in a plug-in manner.

5. The efficient and intelligent slag shunting heat exchange device according to claim 1, wherein an annular bracket (29) is arranged on one side of the annular slide rail (25), and a slide line plate (30) is installed at the lower end of the annular bracket (29).

6. The efficient and intelligent slag shunting heat exchange device according to claim 1, wherein a driving motor (33) is installed below the loading vehicle (26), and the driving motor (33) is in transmission connection with the sliding wheel (27) through a gear set in a rotating mode.

7. The efficient and intelligent slag shunting heat exchange device according to claim 1, wherein a radiator (31) is arranged on the side surface of the lower end of the cooling pool (16), and the radiator (31) is fixedly connected with the cooling pool (16).

8. The efficient and intelligent slag shunting heat exchange device according to claim 1, characterized in that a temperature sensor (32) is installed on the side surface of the shunting box body (7).

9. The efficient and intelligent slag shunting heat exchange device is characterized in that a first opening (15) is formed in the lower surface of the first mounting box (8).