CN216049344U - Heat accumulation assembly of heat accumulation type combustion furnace - Google Patents

Abstract

The utility model discloses a heat storage component of a heat storage type combustion furnace, which comprises a heat storage type combustion furnace, wherein a heat storage structure is arranged in the heat storage type combustion furnace; wherein, the heat accumulation structure includes: the heat-accumulating brick comprises a radiating fin, a heat-accumulating box, a cover body, a left clapboard, a right clapboard, a steel plate, heat-accumulating bricks, a pair of first hanging rings, a pair of second hanging rings, a pair of first springs and a popup component; the utility model relates to the technical field of regenerative combustion furnaces, and solves the problems that a regenerative medium cannot be taken out when the conventional regenerative combustion furnace is used for accumulating heat, and the regenerative medium is difficult to take out due to overheating.

Description

Heat accumulation assembly of heat accumulation type combustion furnace

Technical Field

The utility model relates to the technical field of regenerative combustion furnaces, in particular to a regenerative component of a regenerative combustion furnace.

Background

The regenerative combustion furnace is a device for storing heat in the combustion furnace, and has remarkable energy-saving and environment-friendly effects compared with the traditional combustion furnace, and the existing regenerative combustion furnace cannot take out a heat storage medium during heat storage and has the problem of difficulty in taking out the heat storage medium due to overheating.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects of the prior art, the utility model provides a heat storage component of a regenerative combustion furnace, which solves the problems that a heat storage medium cannot be taken out when the conventional regenerative combustion furnace is used for storing heat, and the heat storage medium is difficult to take out due to overheating.

In order to achieve the purpose, the utility model is realized by the following technical scheme: a heat accumulation assembly of a heat accumulation type combustion furnace comprises the heat accumulation type combustion furnace, wherein a heat accumulation structure is arranged in the heat accumulation type combustion furnace;

wherein, the heat accumulation structure includes: the heat-accumulating brick comprises a radiating fin, a heat-accumulating box, a cover body, a left clapboard, a right clapboard, a steel plate, heat-accumulating bricks, a pair of first hanging rings, a pair of second hanging rings, a pair of first springs and a popup component;

the fin is installed on heat accumulation combustion furnace, the heat accumulation case is installed on the fin, the lid is installed on the heat accumulation case, left baffle is installed in the heat accumulation case, right baffle is installed in the heat accumulation case, the steel sheet is placed in the heat accumulation case, the steel sheet is located between left baffle and the right baffle, the heat accumulation brick is placed on the steel sheet, a pair of first link is installed respectively on left baffle and right baffle, a pair of second link is installed on the steel sheet, a pair of first spring one end is installed respectively on a pair of first link, a pair of first spring other end is installed on a pair of second link, be equipped with in the heat accumulation case and pop out the subassembly.

Preferably, the pop-up assembly comprises: the wedge-shaped block, the wedge-shaped column, the supporting column and the pair of second springs;

the wall has seted up the rectangle through-hole about the left baffle, and the wedge is located the rectangle through-hole that the wall was seted up about the left baffle, and wedge movable mounting is on the left wall of left baffle, and the wedge is located the wedge top, and a pair of second spring one end is installed respectively on the support column on the wedge is installed to the support column, and a pair of second spring other end is installed respectively on the left baffle.

Preferably, a fixing hoop for fixing is arranged between the supporting column and the left clapboard.

Preferably, the cover body is provided with a handle for opening.

Preferably, the handle is provided with anti-skid lines for skid resistance.

Preferably, the second spring is provided with a dustproof sleeve for preventing dust.

The utility model provides a heat accumulation component of a heat accumulation type combustion furnace. The method has the following beneficial effects: the present case mainly adopts the heat accumulation structure, simple structure, and the simple operation can take out the heat accumulation medium in the heat accumulation burning furnace after the heat accumulation finishes to adopt the mode of taking out of popping out, avoided because the overheated difficult problem of taking out that leads to of heat accumulation medium, solved current heat accumulation burning furnace when carrying out the heat accumulation, can't take out the heat accumulation medium, and have the overheated difficult problem of taking out that leads to of heat accumulation medium.

Drawings

Fig. 1 is a schematic front view of a regenerative thermal storage assembly of a regenerative combustion furnace according to the present invention.

Fig. 2 is a schematic side view of a regenerative thermal storage assembly of a regenerative combustion furnace according to the present invention.

Fig. 3 is a schematic top view of a regenerative thermal storage assembly of a regenerative combustion furnace according to the present invention.

Fig. 4 is a partially enlarged front view schematic diagram of a heat accumulating assembly of a regenerative combustion furnace according to the present invention.

Fig. 5 is a schematic top view partially enlarged view of a regenerative thermal storage assembly of a regenerative combustion furnace according to the present invention.

In the figure: 1-a regenerative combustion furnace; 2-a heat sink; 3-a heat storage tank; 4-a cover body; 5-a left baffle plate; 6-right baffle plate; 7-a steel plate; 8-heat storage bricks; 9-a first suspension loop; 10-a second suspension loop; 11-a first spring; 12-a wedge block; 13-a wedge-shaped column; 14-a support column; 15-a second spring; 16-a fixed hoop; 17-a handle; 18-anti-skid lines; 19-dust cover.

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.

All the electrical components in the present application are connected with the power supply adapted to the electrical components through a wire, and an appropriate controller and an appropriate encoder should be selected according to actual conditions to meet control requirements, and specific connection and control sequences should be obtained. (the details of the connection and operation sequence of the components and parts in this case should be referred to the following working principle, the detailed connection means thereof, the following working principle and process are generally described in the following, which are well known in the art.)

As shown in fig. 1 to 5, the main components of the present application are: the heat storage combustion furnace comprises a heat storage combustion furnace 1, wherein a heat storage structure is arranged in the heat storage combustion furnace 1;

when the regenerative combustion furnace 1 is used for combustion, the regenerative means in the regenerative combustion furnace 1 may be used for regenerative combustion.

In the specific implementation process, the heat storage structure comprises: the heat-storage box comprises a cooling fin 2, a heat-storage box 3, a cover body 4, a left partition plate 5, a right partition plate 6, a steel plate 7, a heat-storage brick 8, a pair of first hanging rings 9, a pair of second hanging rings 10, a pair of first springs 11 and a pop-up assembly;

the radiating fin 2 is installed on the heat storage combustion furnace 1, the heat storage box 3 is installed on the radiating fin 2, the cover body 4 is installed on the heat storage box 3, the left partition plate 5 is installed in the heat storage box 3, the right partition plate 6 is installed in the heat storage box 3, the steel plate 7 is placed in the heat storage box 3, the steel plate 7 is located between the left partition plate 5 and the right partition plate 6, the heat storage brick 8 is placed on the steel plate 7, the pair of first hanging rings 9 are installed on the left partition plate 5 and the right partition plate 6 respectively, the pair of second hanging rings 10 are installed on the steel plate 7, one ends of the pair of first springs 11 are installed on the pair of first hanging rings 9 respectively, the other ends of the pair of first springs 11 are installed on the pair of second hanging rings 10, and the heat storage box 3 is internally provided with the popup component.

It should be noted that, the heat storage bricks 8 are placed on the steel plate 7 in the heat storage box 3, the heat storage bricks 8 move downward, the pair of first springs 11 extend, when the steel plate 7 moves to the position below the pop-up component, the pop-up component can fix the steel plate 7, the steel plate 7 is prevented from moving upward due to the elastic force of the pair of first springs 11, the cover body 4 is covered, the heat storage combustion furnace 1 combusts, heat is transmitted to the heat storage bricks 8 in the heat storage box 3 through the radiating fins 2, the heat storage bricks 8 store heat, and after the selection is completed, the pop-up component can pop up the heat storage bricks 8.

Preferably, the pop-up assembly further comprises: a wedge block 12, a wedge column 13, a support column 14 and a pair of second springs 15;

rectangular through holes are formed in the left wall face and the right wall face of the left partition plate 5, the wedge block 12 is located on the rectangular through holes formed in the left wall face and the right wall face of the left partition plate 5, the wedge column 13 is movably mounted on the left wall face of the left partition plate 5, the wedge column 13 is located above the wedge block 12, the support column 14 is mounted on the wedge block 12, one end of the pair of second springs 15 is mounted on the support column 14, and the other end of the pair of second springs 15 is mounted on the left partition plate 5.

It should be noted that, when the cover 4 is opened, the steel plate 7 moves downward, the wedge block 12 is pressed to move leftward, the steel plate 7 moves to the lower wall surface in the heat storage tank 3, the wedge block 12 moves rightward by the elastic force of the pair of second springs 15, so that the wedge block 12 is located above the steel plate 7, the wedge block 12 fixes the steel plate 7, and when the heat storage tank needs to be popped out, the wedge column 13 moves downward, the wedge column 13 is inserted into the wedge block 12, so that the wedge block 12 moves leftward, the wedge block 12 is not located above the steel plate 7, the steel plate 7 is subjected to the elastic force of the pair of first springs 11 located on the left partition plate 5 and the right partition plate 6, the steel plate 7 moves upward, and the heat storage bricks 8 also move upward, so that the heat storage bricks 8 are popped out from the heat storage tank 3.

Preferably, a fixing hoop 16 is arranged between the supporting column 14 and the left partition 5 for fixing.

Preferably, the lid 4 is further provided with a handle 17 for opening.

Preferably, the handle 17 is further provided with anti-slip lines 18 for preventing slipping.

Preferably, the second spring 15 is further provided with a dust-proof cover 19 for preventing dust.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation. The use of the phrase "comprising one of the elements does not exclude the presence of other like elements in the process, method, article, or apparatus that comprises the element.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. A heat accumulation assembly of a heat accumulation type combustion furnace comprises a heat accumulation type combustion furnace and is characterized in that a heat accumulation structure is arranged in the heat accumulation type combustion furnace;

wherein, the heat accumulation structure includes: the heat-accumulating brick comprises a radiating fin, a heat-accumulating box, a cover body, a left clapboard, a right clapboard, a steel plate, heat-accumulating bricks, a pair of first hanging rings, a pair of second hanging rings, a pair of first springs and a popup component;

the fin is installed on heat accumulation combustion furnace, the heat accumulation case is installed on the fin, the lid is installed on the heat accumulation case, left baffle is installed in the heat accumulation case, right baffle is installed in the heat accumulation case, the steel sheet is placed in the heat accumulation case, the steel sheet is located between left baffle and the right baffle, the heat accumulation brick is placed on the steel sheet, a pair of first link is installed respectively on left baffle and right baffle, a pair of second link is installed on the steel sheet, a pair of first spring one end is installed respectively on a pair of first link, a pair of first spring other end is installed on a pair of second link, be equipped with in the heat accumulation case and pop out the subassembly.

2. A regenerative thermal storage assembly for a regenerative combustion furnace as claimed in claim 1 wherein the ejection assembly comprises: the wedge-shaped block, the wedge-shaped column, the supporting column and the pair of second springs;

the wall has seted up the rectangle through-hole about the left baffle, and the wedge is located the rectangle through-hole that the wall was seted up about the left baffle, and wedge movable mounting is on the left wall of left baffle, and the wedge is located the wedge top, and a pair of second spring one end is installed respectively on the support column on the wedge is installed to the support column, and a pair of second spring other end is installed respectively on the left baffle.

3. A regenerative thermal storage assembly for a regenerative combustion furnace as claimed in claim 1, wherein a fixing band is provided between the support post and the left partition for fixing.

4. A regenerative thermal storage assembly for a regenerative combustion furnace as claimed in claim 1, wherein the lid includes a handle for opening.

5. A heat accumulating assembly for a regenerative combustion furnace as claimed in claim 4, wherein the grip is provided with anti-slip lines for preventing slipping.

6. A regenerative thermal storage assembly for a regenerative combustion furnace as claimed in claim 1, wherein the second spring is provided with a dust boot for preventing dust.

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