CN113418182A - Explosion membrane type boiler explosion-proof device - Google Patents

Abstract

The invention is suitable for the technical field of explosion-proof equipment, and provides an explosion-proof device of a burst-film type boiler, which comprises a device box body, wherein the device box body is fixedly arranged on a boiler body, and the explosion-proof device also comprises: the driving assembly is arranged in the device box body; a flame retardant assembly mounted within a fuel tube; and the dispersing assembly comprises a first rotating piece, a dispersing piece, a support, a first moving piece, a second moving piece, a first connecting piece, a second connecting piece, a third connecting piece and a fixed frame. According to the explosion membrane type boiler explosion-proof device, through the flame-retardant assembly and the dispersing assembly, the fuel can be blocked while the steam is rapidly dispersed, the reoccurrence of the steam is blocked, and the working efficiency and the practicability of the explosion-proof device are improved.

Description

Explosion membrane type boiler explosion-proof device

Technical Field

The invention belongs to the technical field of explosion-proof equipment, and particularly relates to an explosion-proof device of a burst-film type boiler.

Background

The boiler is an energy conversion device, the energy input to the boiler comprises chemical energy and electric energy in fuel, and the boiler outputs steam, high-temperature water or an organic heat carrier with certain heat energy. The boiler is a water container heated on fire, a furnace is a place where fuel is combusted, and the boiler comprises a boiler and a furnace. The boiler often produces a large amount of steam in the actual industrial production process, and the boiler itself is a confined space, and when the steam that produces reaches certain volume in the boiler, the boiler will produce phenomenons such as explosion because install a set of explosion-proof equipment on the boiler and be an indispensable part in the boiler actual use.

The linkage of rupture membrane and relief valve that current rupture membrane formula boiler explosion-proof equipment often adopted is that rupture membrane and relief valve carry out the explosion-proof to the steam in the boiler, and such setting is only applicable to certain quantity of steam, and when steam generation was too big and produced rapidly, current rupture membrane formula boiler explosion-proof equipment can not carry out quick diffusion to steam, and can not solve the fuel source of boiler, further stops the emergence of steam.

Therefore, in view of the above situation, there is a need to develop an explosion-proof device for a burst-mode boiler to overcome the shortcomings of the current practical application.

Disclosure of Invention

In view of the defects in the prior art, an embodiment of the present invention provides an explosion-proof device for a burst-mode boiler, so as to solve the problems in the background art.

In order to achieve the purpose, the invention provides the following technical scheme:

the utility model provides a burst membrane type boiler explosion-proof equipment, includes the device box, device box fixed mounting still includes on the furnace body:

the flame-retardant assembly is arranged in the fuel pipe, and the driving assembly realizes opening and blocking of the fuel in a mode of driving the flame-retardant assembly to turn over in the fuel pipe; and

the dispersing device comprises a dispersing assembly and a driving assembly, wherein the dispersing assembly comprises a first rotating piece, a dispersing piece first connecting piece and a third connecting piece, the first rotating piece is connected with the output end of the driving assembly, two ends of the dispersing piece are movably arranged on a fixed frame and a support, the dispersing piece is distributed and arranged in the fixed frame, two ends of the first connecting piece are respectively rotatably connected with a second moving piece and a second connecting piece, two ends of the third connecting piece are respectively connected with the first rotating piece and the second connecting piece, and the second connecting pieces are rotatably connected in pairs;

the driving assembly drives the first rotating piece to rotate, the first rotating piece drives the third connecting piece and the second connecting piece to rotate, and the second connecting piece drives the dispersing piece to turn over in the fixing frame when driving the first connecting piece and the second moving piece to rotate, so that the dispersing assembly can rapidly disperse steam.

As a further technical scheme of the present invention, the driving assembly includes a sliding part, a sliding seat, a first driving element, a second driving element, a first gear and a second gear, the sliding seat is fixedly mounted on an inner wall of one side of the device case, the sliding seat is connected with the second exhaust pipe, the sliding part is movably mounted in the sliding seat, two ends of the first driving element are respectively connected with the sliding part and the first gear, and two ends of the second driving element are respectively connected with the sliding part and the second gear.

As a further technical solution of the present invention, the first gear and the second gear are engaged and connected, and the first gear and the second gear are respectively and fixedly mounted on the first rotating member and the second rotating member.

As a further technical solution of the present invention, the flame retardant assembly includes a second rotating member, a third rotating member, a partition member, a fixing seat, and a sliding seat, the second rotating member penetrates through the device case and is tightly fitted with the third rotating member, the third rotating member is movably installed on the fuel pipe, the fixing seat is fixedly installed on the third rotating member, the partition member is movably installed in the fuel pipe, and both ends of the partition member are fixedly connected with the fixing seat.

As a further technical scheme of the invention, a second rupture membrane is installed in the second exhaust pipe, one end of the second exhaust pipe is respectively connected with the exhaust pipe and the first exhaust pipe, the exhaust pipe is connected with the furnace body in a penetrating manner, a first rupture membrane is installed in the first exhaust pipe, the first exhaust pipe is used for heat exchange of steam in the heat exchange assembly, and the second exhaust pipe is used for providing a power source for the driving assembly.

As a further technical scheme of the invention, the heat exchange assembly comprises a water inlet pipe, a heat exchange pipe and a water outlet pipe, wherein two ends of the water inlet pipe and the water outlet pipe respectively penetrate through the device box body and are connected with the heat exchange pipe.

As a further technical scheme of the invention, a condensation pipe is arranged in the device box body and is connected with the furnace body, and a control valve is arranged on the condensation pipe.

As a further technical scheme of the invention, a combustion chamber is arranged in the furnace body, and the fuel pipe penetrates through the furnace body and is connected with the combustion chamber.

Compared with the prior art, the invention has the beneficial effects that:

the rotation of the driving component drives the flame-retardant component and the dispersing component to drive, the flame-retardant component retards the flame of the fuel in the fuel pipe, and the regeneration of steam is solved fundamentally;

the drive assembly drives the first rotating part to rotate on the fixing frame, the rotation of the first rotating part drives the second connecting piece and the third connecting piece which are connected with the first rotating part to rotate, the first connecting piece and the second connecting piece which are connected with the second moving part are driven to rotate, so that the mode of driving the dispersing part to turn over in the fixing frame realizes the quick dispersion of the dispersing component on steam, the setting can quickly disperse the steam, the fuel can be blocked, the regeneration of the steam is blocked, and the working efficiency and the practicability of the explosion-proof device are improved.

To more clearly illustrate the structural features and effects of the present invention, the present invention will be described in detail below with reference to the accompanying drawings and specific embodiments.

Drawings

Fig. 1 is a front view schematic structural diagram of an explosion-proof device of a burst-mode boiler provided by an embodiment of the invention.

Fig. 2 is a schematic structural diagram of a side view of an explosion-proof device of a burst-mode boiler according to an embodiment of the present invention.

Fig. 3 is a schematic structural view of the dissipating assembly in fig. 1 in a closed state.

Fig. 4 is a schematic structural view of the dissipating assembly of fig. 1 in an opened state.

Fig. 5 is an enlarged view of the structure of the flame retardant assembly of fig. 1.

FIG. 6 is a schematic view of a fixing frame of the dissipating assembly

Reference numerals: 1-furnace body, 11-combustion chamber, 12-fuel pipe, 2-device housing, 3-exhaust pipe, 4-first exhaust pipe, 41-first burst membrane, 5-heat exchange element, 51-water inlet pipe, 52-heat exchange pipe, 53-water outlet pipe, 6-condenser pipe, 61-control valve, 7-second exhaust pipe, 71-second burst membrane, 8-drive element, 81-sliding element, 82-sliding seat, 83-first drive element, 84-second drive element, 85-first gear, 86-second gear, 9-dissipation element, 91-first rotation element, 92-dissipation element, 93-support, 94-first movable element, 95-second movable element, 96-first connecting element, 97-second connecting element, 98-third connecting element, 99-fixed frame, 10-flame-retardant element, 101-second rotation element, 102-third rotation element, 103-partition element, 104-fixed frame, 105-fixed bolt, 106-a slide.

Detailed Description

In the description of the present invention, it is to be understood that the terms "longitudinal," "lateral," "upper," "lower," "top," "bottom," "inner," "outer," and the like are used in the orientations and positional relationships indicated in the drawings for convenience in describing the present invention and simplicity in description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed in a particular orientation, and be operated in a particular manner, and thus are not to be construed as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Specific implementations of the present invention are described in detail below with reference to specific embodiments.

As shown in fig. 1 to 6, an explosion-proof device for a burst-mode boiler according to an embodiment of the present invention includes a device housing 2, wherein the device housing 2 is fixedly installed on a furnace body 1, and further includes:

the fuel fire-retardant assembly 10 is arranged in the fuel pipe 12, and the driving assembly 8 opens and blocks fuel by driving the fire-retardant assembly 10 to turn over in the fuel pipe 12; and

the dispersing device comprises a dispersing assembly 9, wherein the dispersing assembly 9 comprises a first rotating piece 91, a dispersing piece 92, a support 93, a first moving piece 94, a second moving piece 95, a first connecting piece 96, a second connecting piece 97, a third connecting piece 98 and a fixed frame 99, the first rotating piece 91 is connected with the output end of the driving assembly 8, two ends of the dispersing piece 92 are movably installed on the fixed frame 99 and the support 93, the dispersing piece 92 is distributed and installed in the fixed frame 99, two ends of the first connecting piece 96 are respectively connected with the second moving piece 95 and the second connecting piece 97 in a rotating mode, two ends of the third connecting piece 98 are respectively connected with the first rotating piece 91 and the second connecting piece 97, and every two second connecting pieces 97 are connected in a rotating mode;

the driving assembly 8 drives the first rotating member 91 to rotate, the first rotating member 91 drives the third connecting member 98 and the second connecting member 97 to rotate, and the second connecting member 97 drives the dispersing member 92 to overturn in the fixing frame 99 while driving the first connecting member 96 and the second moving member 95 to rotate, so that the dispersing assembly 9 can rapidly disperse steam.

In this embodiment, through fire-retardant subassembly 10 and dissipation subassembly 9, when dispelling steam fast, can also block fuel, block the recurrence of steam, improved explosion-proof equipment's work efficiency and practicality.

In a preferred embodiment, the dispersing element 92 is preferably a dispersing sheet with a fan-shaped plate-shaped structure, and the first movable element 94 and the second movable element 95 are preferably rotating shafts with a circular structure or rotating shafts with a square structure meeting the rotating condition; the first connecting member 96 and the third connecting member 98 are preferably a rotating rod structure, the third connecting member 98 is a main rotating rod, the second connecting member 97 is preferably a connecting rod structure, and the fixing frame 99 is preferably a fixing frame 99 with a sleeve structure.

As shown in fig. 1 and 2, as a preferred embodiment of the present invention, the driving assembly 8 includes a sliding member 81, a sliding seat 82, a first driving element 83, a second driving element 84, a first gear 85 and a second gear 86, the sliding seat 82 is fixedly installed on an inner wall of one side of the apparatus casing 2, the sliding seat 82 is connected with the second exhaust pipe 7, the sliding member 81 is movably installed in the sliding seat 82, two ends of the first driving element 83 are respectively connected with the sliding member 81 and the first gear 85, and two ends of the second driving element 84 are respectively connected with the sliding member 81 and the second gear 86.

As shown in fig. 1 and 2, as a preferred embodiment of the present invention, the first gear 85 and the second gear 86 are engaged with each other, and the first gear 85 and the second gear 86 are fixedly mounted on the first rotating member 91 and the second rotating member 101, respectively.

In this embodiment, after the steam breaks through the second rupture disk 71 in the second exhaust pipe 7, the explosion-proof device performs a secondary explosion-proof measure, the steam enters the sliding seat 82 along with the second exhaust pipe 7, so as to drive the sliding member 81 to perform piston motion in the sliding seat 82, the movement of the sliding member 81 drives the first driving member 83 and the second driving member 84 to rotate while moving, and due to the meshing connection of the first gear 85 and the second gear 86, the first gear 85 and the second gear 86 are respectively connected with the first driving member 83 and the second driving member 84, the movement of the first driving member 83 and the second driving member 84 drives the first gear 85 and the second gear 86 to rotate.

In a preferred embodiment, the sliding member 81 is preferably a piston seat which is attached to the inner wall of the sliding seat 82, the sliding seat 82 is a square tube with a circular structure, the first driving member 83 and the second driving member 84 are preferably a rotating rod structure, and a rotating plate or a rotating shaft which can satisfy the rotating condition can be used instead.

As shown in fig. 2 and 5, as a preferred embodiment of the present invention, the flame retardant assembly 10 includes a second rotating member 101, a third rotating member 102, a partition member 103, a fixing base 104 and a sliding base 106, the second rotating member 101 penetrates through the device housing 2 and is tightly fitted with the third rotating member 102, the third rotating member 102 is movably mounted on the fuel pipe 12, the fixing base 104 is fixedly mounted on the third rotating member 102, the partition member 103 is movably mounted in the fuel pipe 12, and both ends of the partition member 103 are fixedly connected with the fixing base 104.

In this embodiment, the rotation of the second gear 86 drives the second rotating member 101 to rotate on the device case 2, the rotation of the second rotating member 101 drives the third rotating member 102 to rotate in the fuel pipe 12, the two partition members 103 are driven to rotate in the fuel pipe 12 by the rotation of the third rotating member 102 through the fixed connection between the fixed base 104 and the third rotating member 102 and the fixed connection between the partition member 103 and the fixed base 104 through the fixing bolt 105, so that the partition member 103 opens and blocks the fuel in the fuel pipe 12, and controls the regeneration of steam.

In a preferred embodiment, the second rotating member 101 and the third rotating member 102 are preferably a rotating shaft of a cylindrical structure, and may also be a rotating shaft of a square column structure satisfying the rotation condition; the partition member 103 is preferably a semicircular butterfly valve plate, and the partition member 103 is tightly attached to the inner wall of the fuel pipe 12.

As shown in fig. 1, as a preferred embodiment of the present invention, a second rupture disk 71 is installed in the second exhaust pipe 7, one end of the second exhaust pipe 7 is respectively connected to the exhaust pipe 3 and the first exhaust pipe 4, the exhaust pipe 3 is connected to the furnace body 1 in a penetrating manner, a first rupture disk 41 is installed in the first exhaust pipe 4, the first exhaust pipe 4 is used for heat exchange of steam in the heat exchange assembly 5, and the second exhaust pipe 7 is used for providing a power source for the driving assembly 8.

As shown in fig. 1 and 2, as a preferred embodiment of the present invention, the heat exchange assembly 5 includes a water inlet pipe 51, a heat exchange pipe 52 and a water outlet pipe 53, and both ends of the water inlet pipe 51 and the water outlet pipe 53 respectively penetrate through the apparatus case 2 and are connected to the heat exchange pipe 52.

As shown in fig. 1 and 2, as a preferred embodiment of the present invention, a condensation pipe 6 is arranged in the device box 2, the condensation pipe 6 is connected with the furnace body 1, and a control valve 61 is arranged on the condensation pipe 6.

In this embodiment, after the steam breaks through the first rupture disk 41 in the first exhaust pipe 4, the explosion protection device performs a first-level explosion protection measure, the steam is still in a controllable range, after the steam enters the device box 2 through the first exhaust pipe 4, the steam and cold water continuously circulating in the heat exchange pipe 52 perform heat exchange treatment, and the obtained hot water is discharged from the water outlet pipe 53 to the outside of the device box 2 to produce domestic water; in the heat exchange process, the condensate water produced on the surface of the heat exchange tube 52 reenters the furnace body 1 along with the condensation tube 6 and the control valve 61, and the arrangement ensures that the steam in the furnace body 1 can be recycled while the pressure is released, thereby reducing the waste of resources and improving the practicability of the explosion-proof device.

In a preferred embodiment, the water inlet pipe 51, the heat exchange pipe 52 and the water outlet pipe 53 are preferably made of a heat exchange copper pipe material with a high heat exchange effect.

As shown in fig. 1 and 2, as a preferred embodiment of the present invention, a combustion chamber 11 is formed in the furnace body 1, and the fuel pipe 12 penetrates the furnace body 1 and is connected to the combustion chamber 11.

As shown in fig. 1, as a preferred embodiment of the present invention, two kinds of rupture discs with different pressure intensities are used as the first rupture disc 41 and the second rupture disc 71.

In this embodiment, when the steam in the furnace body 1 reaches a certain pressure, the steam may break through the first rupture disk 41, and the heat exchange treatment is performed while the pressure is released, and at this time, the steam is in a controllable range; when the steam in the furnace body 1 reaches an uncontrollable range, the steam breaks through the second rupture membrane 71, and the regeneration of the steam is blocked while the pressure is rapidly released; the force intensity of the second rupture disk 71 is much greater than that of the first rupture disk 41.

The working principle of the invention is as follows:

when the steam breaks through the first rupture membrane 41 in the first exhaust pipe 4, the explosion-proof device carries out a first-level explosion-proof measure, the steam is still in a controllable range, the steam enters the device box body 2 through the first exhaust pipe 4, the steam and cold water continuously circulating in the heat exchange pipe 52 carry out heat exchange treatment, and the obtained hot water is discharged out of the device box body 2 from the water outlet pipe 53 to produce domestic water; in the heat exchange process, condensed water generated on the surface of the heat exchange tube 52 enters the furnace body 1 again along with the condensing tube 6 and the control valve 61, and the arrangement ensures that the steam in the furnace body 1 can be decompressed and simultaneously can be reused;

when the steam breaks through the second rupture disk 71 in the second exhaust pipe 7, the explosion-proof device performs a secondary explosion-proof measure, the steam enters the sliding seat 82 along with the second exhaust pipe 7, so as to drive the sliding part 81 to perform piston motion in the sliding seat 82, the sliding part 81 moves to drive the first driving part 83 and the second driving part 84 to rotate simultaneously, and the first gear 85 and the second gear 86 are meshed and connected, and the first gear 85 and the second gear 86 are respectively connected with the first driving part 83 and the second driving part 84 in a rotating manner, so that the first gear 85 and the second gear 86 are driven to rotate by the first driving part 83 and the second driving part 84;

the rotation of the second gear 86 drives the second rotating part 101 to rotate on the device box 2, the rotation of the second rotating part 101 drives the third rotating part 102 to rotate in the fuel pipe 12, the third rotating part 102 is fixedly connected with the third rotating part 102 through the fixed seat 104, and the partition part 103 is fixedly connected with the fixed seat 104 through the fixed bolt 105, and the rotation of the third rotating part 102 drives the two partition parts 103 to rotate in the fuel pipe 12, so that the partition part 103 opens and blocks the fuel in the fuel pipe 12, and controls the regeneration of steam;

the first gear 85 rotates to drive the first rotating member 91 to rotate, the first rotating member 91 rotates to drive the third connecting member 98 and the second connecting member 97 to rotate, and the first connecting member 96 and the second moving member 95 are driven to rotate by the rotation of the second connecting member 97 and simultaneously the dispersing member 92 is driven to turn over in the fixed frame 99, so that the dispersing component 9 can rapidly disperse steam in the device box 2;

the working principle of the explosion-proof device of the explosion membrane type boiler is described above.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (8)

1. The utility model provides a burst membrane type boiler explosion-proof equipment, includes the device box, device box fixed mounting is on the furnace body, its characterized in that still includes:

the flame-retardant assembly is arranged in the fuel pipe, and the driving assembly realizes opening and blocking of the fuel in a mode of driving the flame-retardant assembly to turn over in the fuel pipe; and

the dispersing device comprises a dispersing assembly, a first rotating member, dispersing pieces, a first connecting piece and a third connecting piece, wherein the first rotating member is connected with the output end of the driving assembly, two ends of each dispersing piece are movably mounted on a fixed frame and a support, the dispersing pieces are distributed and mounted in the fixed frame, two ends of the first connecting piece are respectively rotatably connected with a second moving member and a second connecting piece, two ends of the third connecting piece are respectively connected with the first rotating member and the second connecting piece, and the second connecting pieces are rotatably connected in pairs;

the driving assembly drives the first rotating piece to rotate, the first rotating piece drives the third connecting piece and the second connecting piece to rotate, and the second connecting piece drives the dispersing piece to turn over in the fixing frame when driving the first connecting piece and the second moving piece to rotate, so that the dispersing assembly can rapidly disperse steam.

2. The explosion membrane type boiler explosion-proof device according to claim 1, wherein the driving assembly comprises a sliding member, a sliding seat, a first driving element, a second driving element, a first gear and a second gear, the sliding seat is fixedly installed on one side inner wall of the device box body and is connected with the second exhaust pipe, the sliding member is movably installed in the sliding seat, two ends of the first driving element are respectively connected with the sliding member and the first gear, and two ends of the second driving element are respectively connected with the sliding member and the second gear.

3. The explosion proof device for a burst-mode boiler according to claim 2, wherein the first gear and the second gear are engaged and connected and are fixedly mounted on the first rotating member and the second rotating member, respectively.

4. The explosion-proof device for the burst-type boiler according to claim 1, wherein the flame retardant assembly comprises a second rotating member, a third rotating member, a partition member, a fixed seat and a sliding seat, the second rotating member penetrates through the device box body and is tightly matched with the third rotating member, the third rotating member is movably installed on the fuel pipe, the fixed seat is fixedly installed on the third rotating member, the partition member is movably installed in the fuel pipe, and two ends of the partition member are fixedly connected with the fixed seat.

5. The explosion-proof device of the burst-mode boiler according to claim 2, wherein a second rupture membrane is installed in the second exhaust pipe, one end of the second exhaust pipe is respectively connected with the exhaust pipe and a first exhaust pipe, the exhaust pipe is connected with the furnace body in a penetrating manner, a first rupture membrane is installed in the first exhaust pipe, the first exhaust pipe is used for heat exchange of steam in the heat exchange assembly, and the second exhaust pipe is used for providing a power source for the driving assembly.

6. The explosion-proof device of the burst-membrane boiler as claimed in claim 5, wherein the heat exchange assembly comprises a water inlet pipe, a heat exchange pipe and a water outlet pipe, and both ends of the water inlet pipe and the water outlet pipe respectively penetrate through the device box body and are connected with the heat exchange pipe.

7. The explosion-proof device of a burst-mode boiler according to claim 1, wherein a condensation pipe is arranged in the device box body, the condensation pipe is connected with the boiler body, and a control valve is arranged on the condensation pipe.

8. The explosion-proof device of a burst-mode boiler as claimed in claim 1, wherein a combustion chamber is opened in the furnace body, and the fuel pipe penetrates through the furnace body and is connected with the combustion chamber.

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