CN215863453U - RTO heat accumulation formula oxidation burns burning furnace - Google Patents

Abstract

The utility model discloses an RTO heat accumulating type oxidation incinerator, and relates to the technical field of oxidation furnaces. The utility model comprises a bottom plate, wherein a fixed rod is arranged at the top of the bottom plate, an arc-shaped plate is arranged at the top end of the fixed rod, a top box is arranged at the top of the bottom plate, a sliding plate is arranged in the top box and is in sliding connection with the top box, an oxidation furnace is arranged at the top of the sliding plate, the arc-shaped plate is abutted against the oxidation furnace, a top cover is arranged at the top of the oxidation furnace, and a controller is arranged on the surface of the top cover. The utility model can correspondingly adjust the temperature in the oxidation furnace according to the actual requirement by arranging the top device and the heat storage device, improves the intelligence of the oxidation furnace, simultaneously can improve the use range and the practicability of the oxidation furnace when in use, can rotate the fan blades through the impact action of airflow on the fan blades, further enables the hot airflow to be uniformly distributed in the oxidation furnace, can avoid using a driving motor, avoids causing the waste of electric energy and saves resources.

Description

RTO heat accumulation formula oxidation burns burning furnace

Technical Field

The utility model belongs to the technical field of oxidation furnaces, and particularly relates to an RTO heat accumulating type oxidation incinerator.

Background

The regenerative oxidation furnace is frequently needed when organic waste gas is treated, however, the conventional regenerative oxidation furnace has certain defects when in use, the conventional regenerative oxidation furnace cannot make corresponding adjustment on the temperature in the oxidation furnace according to actual needs when in use, the application range is limited, meanwhile, the conventional regenerative oxidation furnace is simply placed on the ground when in use, a buffer protection device for the regenerative oxidation furnace is not arranged, and the regenerative oxidation furnace can be easily damaged, so that the regenerative oxidation furnace is improved, and the RTO regenerative oxidation incinerator is provided.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an RTO regenerative thermal oxidation incinerator, which solves the existing problems: the temperature in the oxidation furnace can not be made corresponding adjustment according to actual needs when current heat accumulating type oxidation furnace uses, and application range is limited, and current heat accumulating type oxidation furnace is simple when using and places subaerial, does not set up the buffering protector to heat accumulating type oxidation furnace simultaneously, can make heat accumulating type oxidation furnace receive the damage easily.

In order to solve the technical problems, the utility model is realized by the following technical scheme:

the utility model relates to an RTO heat accumulating type oxidation incinerator which comprises a bottom plate, wherein a fixed rod is arranged at the top of the bottom plate, an arc-shaped plate is arranged at the top end of the fixed rod, a top box is arranged at the top of the bottom plate, a sliding plate is arranged in the top box and is in sliding connection with the top box, an oxidation furnace is arranged at the top of the sliding plate, the arc-shaped plate abuts against the oxidation furnace, a top cover is arranged at the top of the oxidation furnace, a controller is arranged on the surface of the top cover, a buffer device is arranged between the oxidation furnace and the bottom plate, a supporting rod is arranged at the top of the fixed rod, a top device is arranged on the side surface of the supporting rod, a heat storage device is arranged between the top device and the oxidation furnace, and the bottom of the heat storage device extends into the oxidation furnace.

Further, the heat storage device comprises an annular groove, the annular groove is formed in the center of the top cover, a rotating rod is arranged in the annular groove, and a plurality of limiting rods distributed in an annular array mode are arranged at the center of each rotating rod on the outer surface of each rotating rod.

Further, the gag lever post rotates with the ring channel to be connected, the bottom of bull stick is provided with the flabellum, the aspiration pump is installed at the top of top cap.

Furthermore, a connecting pipe is arranged in the air extracting pump, and a spray head is arranged at one end of the connecting pipe and is arranged right above the fan blades.

Further, the top device comprises a gas storage box, the gas storage box is arranged on the side face of the supporting rod, a fixing plate is arranged at the top of the gas storage box, a through hole is formed in the bottom of the gas storage box, and the other end of the connecting pipe extends into the gas storage box through the through hole.

Furthermore, an electric telescopic rod is installed in the air storage box, a sealing plate is arranged at the end of the electric telescopic rod, and the sealing plate is arranged right above the through hole.

Further, buffer includes the connecting plate, the connecting plate sets up the top at the bottom plate, the table wall is provided with first rubber ball in the connecting plate, be provided with the movable plate in the connecting plate.

Further, the movable plate is connected with the connecting plate in a sliding mode, a second rubber ball is arranged on the surface of the movable plate and abuts against the first rubber ball, and a buffer spring is arranged between the movable plate and the connecting plate.

Furthermore, a round rod is arranged between the moving plate and the bottom of the oxidation furnace, and two ends of the round rod are respectively in rotating connection with the moving plate and the oxidation furnace.

Furthermore, the bottom of the bottom plate is provided with universal wheels, and the universal wheels are movably connected with the bottom plate.

The utility model has the following beneficial effects:

1. the utility model can correspondingly adjust the temperature in the oxidation furnace according to the actual requirement by arranging the top device and the heat storage device, improves the intelligence of the oxidation furnace, simultaneously can improve the use range and the practicability of the oxidation furnace when in use, can rotate the fan blades through the impact action of airflow on the fan blades, further enables the hot airflow to be uniformly distributed in the oxidation furnace, can avoid using a driving motor, avoids causing the waste of electric energy and saves resources.

2. The utility model can protect the oxidation furnace by arranging the buffer device, avoid the severe collision between the oxidation furnace and the ground when the oxidation furnace is impacted, comprehensively protect the oxidation furnace, avoid the damage of the oxidation furnace and further prolong the service life of the oxidation furnace.

Of course, it is not necessary for any product in which the utility model is practiced to achieve all of the above-described advantages at the same time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a bottom view of the present invention;

FIG. 3 is a top view of the present invention;

FIG. 4 is a schematic view of the internal structure of the gas cartridge of the present invention;

FIG. 5 is a schematic view showing the internal structure of an oxidation furnace according to the present invention;

FIG. 6 is a schematic view of a connection structure of the base plate and the buffering device according to the present invention.

In the drawings, the components represented by the respective reference numerals are listed below:

1. a base plate; 2. a universal wheel; 3. fixing the rod; 4. an arc-shaped plate; 5. an oxidation furnace; 6. a top cover; 7. a set-top box; 8. a slide plate; 9. a controller; 10. a top assembly; 1001. a gas storage box; 1002. a fixing plate; 1003. a through hole; 1004. a sealing plate; 1005. an electric telescopic rod; 11. a heat storage device; 1101. an air pump; 1102. a rotating rod; 1103. a connecting pipe; 1104. a fan blade; 1105. a spray head; 1106. an annular groove; 1107. a limiting rod; 12. a support bar; 13. a buffer device; 1301. a connecting plate; 1302. a first rubber ball; 1303. a buffer spring; 1304. moving the plate; 1305. a second rubber ball; 1306. a round bar.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-6, the utility model is an RTO heat accumulating type oxidation incinerator, comprising a bottom plate 1, a fixing rod 3 is arranged on the top of the bottom plate 1, an arc plate 4 is arranged on the top of the fixing rod 3, a top box 7 is arranged on the top of the bottom plate 1, a sliding plate 8 is arranged in the top box 7, the sliding plate 8 is connected with the top box 7 in a sliding manner, an oxidation furnace 5 is arranged on the top of the sliding plate 8, the arc plate 4 is abutted against the oxidation furnace 5, a top cover 6 is arranged on the top of the oxidation furnace 5, a controller 9 is arranged on the surface of the top cover 6, a buffer 13 is arranged between the oxidation furnace 5 and the bottom plate 1, a support rod 12 is arranged on the top of the fixing rod 3, a top device 10 is arranged on the side surface of the support rod 12, a heat accumulating device 11 is arranged between the top device 10 and the oxidation furnace 5, the bottom of the heat accumulating device 11 extends into the oxidation furnace 5, the heat accumulating device 11 comprises an annular groove 1106, the annular groove 1106 is arranged at the center of the top cover 6, a rotating rod 1102 is arranged in an annular groove 1106, a plurality of limiting rods 1107 distributed around the rotating rod 1102 in an annular array are arranged on the outer surface of the rotating rod 1102, the limiting rods 1107 are rotatably connected with the annular groove 1106, fan blades 1104 are arranged at the bottom of the rotating rod 1102, an air suction pump 1101 is arranged at the top of a top cover 6, a connecting pipe 1103 is arranged in the air suction pump 1101, a nozzle 1105 is arranged at one end of the connecting pipe 1103, the nozzle 1105 is arranged right above the fan blades 1104, a top device 10 comprises an air storage box 1001, the air storage box 1001 is arranged on the side surface of a supporting rod 12, a fixing plate 1002 is arranged at the top of the air storage box 1001, a through hole 1003 is arranged at the bottom of the air storage box 1001, the other end of the connecting pipe 1103 extends into the air storage box 1001 through the through hole 1003, an electric telescopic rod is arranged in the air storage box 1001, a sealing plate 1004 is arranged at the end part of the electric telescopic rod 1005, the sealing plate 1004 is arranged right above the through hole 1003, and the buffer device 13 comprises a connecting plate 1301, the connecting plate 1301 is arranged on the top of the bottom plate 1, the first rubber ball 1302 is arranged on the inner surface wall of the connecting plate 1301, the moving plate 1304 is arranged in the connecting plate 1301, the moving plate 1304 is slidably connected with the connecting plate 1301, the second rubber ball 1305 is arranged on the surface of the moving plate 1304, the second rubber ball 1305 abuts against the first rubber ball 1302, the buffer spring 1303 is arranged between the moving plate 1304 and the connecting plate 1301, the round rod 1306 is arranged between the moving plate 1304 and the bottom of the oxidation furnace 5, two ends of the round rod 1306 are respectively rotatably connected with the moving plate 1304 and the oxidation furnace 5, the universal wheel 2 is arranged on the bottom of the bottom plate 1, the universal wheel 2 is movably connected with the bottom plate 1, the top device 10 and the heat storage device 11 can correspondingly adjust the temperature in the oxidation furnace 5 according to actual requirements, the intelligence of the oxidation furnace 5 can be improved, the using range and the practicability of the oxidation furnace 5 can also be improved, and the fan blades 1104 can be rotated through the impact effect of air flow on the fan blades 1104, and then make even distribution of hot gas flow in oxidation furnace 5, can avoid using driving motor, avoid causing the waste of electric energy, resources are saved, buffer 13 can protect oxidation furnace 5, avoids oxidation furnace 5 and takes place violent collision with ground when receiving the impact, carries out comprehensive protection to oxidation furnace 5, avoids oxidation furnace 5 to damage, and then can prolong oxidation furnace 5's life.

One specific application of this embodiment is: introducing waste gas into an oxidation furnace 5, then opening a switch of an air suction pump 1101, when the air suction pump 1101 works, introducing hot gas in an air storage box 1001 into the oxidation furnace 5 through a connecting pipe 1103, at the moment, fan blades 1104 at the bottom of a rotating rod 1102 start to rotate under the impact action of the air flow, uniformly dispersing the hot gas flow into the oxidation furnace 5, when the temperature in the oxidation furnace 5 reaches a specified value, opening the switch of an electric telescopic rod 1005 through a controller 9, closing the switch of the air suction pump 1101, driving a sealing plate 1004 to move through the electric telescopic rod 1005, and plugging a through hole 1003 through the sealing plate 1004 to prevent the hot gas from entering the oxidation furnace 5, when the oxidation furnace 5 is impacted, at the moment, the oxidation furnace 5 drives a moving plate 1304 to slide in a connecting plate 1301 through a round rod 1306, and buffering and damping are performed on the connecting plate 1301 and the oxidation furnace 5 through a buffering spring 1303 at the end of the connecting plate 1301, the oxidation furnace 5 is prevented from being damaged.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the utility model. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The preferred embodiments of the utility model disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the utility model to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the utility model and the practical application, to thereby enable others skilled in the art to best utilize the utility model. The utility model is limited only by the claims and their full scope and equivalents.

Claims (10)

1. The utility model provides a RTO heat accumulation formula oxidation burns burning furnace, includes bottom plate (1), its characterized in that: the top of the bottom plate (1) is provided with a fixed rod (3), the top end of the fixed rod (3) is provided with an arc-shaped plate (4), the top of the bottom plate (1) is provided with a top box (7), a sliding plate (8) is arranged in the top box (7), the sliding plate (8) is in sliding connection with the top box (7), the top of the sliding plate (8) is provided with an oxidation furnace (5), the arc-shaped plate (4) is abutted against the oxidation furnace (5), the top of the oxidation furnace (5) is provided with a top cover (6), the surface of the top cover (6) is provided with a controller (9), a buffer device (13) is arranged between the oxidation furnace (5) and the bottom plate (1), the top of the fixed rod (3) is provided with a supporting rod (12), the side of the supporting rod (12) is provided with a top device (10), and a heat storage device (11) is arranged between the top device (10) and the oxidation furnace (5), the bottom of the heat storage device (11) extends into the oxidation furnace (5).

2. An RTO regenerative thermal oxidizer as set forth in claim 1 wherein: the heat storage device (11) comprises an annular groove (1106), the annular groove (1106) is formed in the center of the top cover (6), a rotating rod (1102) is arranged in the annular groove (1106), and a plurality of limiting rods (1107) distributed in an annular array mode are arranged at the centers of the rotating rods (1102) on the outer surface of the rotating rod (1102).

3. An RTO regenerative thermal oxidation incinerator according to claim 2 wherein: the limiting rod (1107) is rotatably connected with the annular groove (1106), the bottom of the rotating rod (1102) is provided with fan blades (1104), and the top of the top cover (6) is provided with an air suction pump (1101).

4. An RTO regenerative thermal oxidizer as set forth in claim 3 wherein: a connecting pipe (1103) is arranged in the air suction pump (1101), a spray head (1105) is arranged at one end of the connecting pipe (1103), and the spray head (1105) is arranged right above the fan blades (1104).

5. An RTO regenerative thermal oxidizer as set forth in claim 4 wherein: the top device (10) comprises a gas storage box (1001), the gas storage box (1001) is arranged on the side face of the support rod (12), a fixing plate (1002) is arranged at the top of the gas storage box (1001), a through hole (1003) is formed in the bottom of the gas storage box (1001), and the other end of the connecting pipe (1103) extends into the gas storage box (1001) through the through hole (1003).

6. An RTO regenerative thermal oxidizer as set forth in claim 5 wherein: an electric telescopic rod (1005) is installed in the gas storage box (1001), a sealing plate (1004) is arranged at the end part of the electric telescopic rod (1005), and the sealing plate (1004) is arranged right above the through hole (1003).

7. An RTO regenerative thermal oxidizer as set forth in claim 1 wherein: the buffer device (13) comprises a connecting plate (1301), the connecting plate (1301) is arranged at the top of the bottom plate (1), a first rubber ball (1302) is arranged on the inner surface wall of the connecting plate (1301), and a moving plate (1304) is arranged in the connecting plate (1301).

8. An RTO regenerative thermal oxidizer as set forth in claim 7 wherein: the movable plate (1304) is connected with the connecting plate (1301) in a sliding mode, a second rubber ball (1305) is arranged on the surface of the movable plate (1304), the second rubber ball (1305) abuts against the first rubber ball (1302), and a buffer spring (1303) is arranged between the movable plate (1304) and the connecting plate (1301).

9. An RTO regenerative thermal oxidation incinerator according to claim 8 wherein: a round bar (1306) is arranged between the moving plate (1304) and the bottom of the oxidation furnace (5), and two ends of the round bar (1306) are respectively in rotating connection with the moving plate (1304) and the oxidation furnace (5).

10. An RTO regenerative thermal oxidizer as set forth in claim 1 wherein: the bottom of the bottom plate (1) is provided with universal wheels (2), and the universal wheels (2) are movably connected with the bottom plate (1).

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