CN217928810U - Online quick replacement combustion engine mechanism - Google Patents

Abstract

The utility model discloses an online quick-change gas turbine mechanism, which comprises a changing mechanism, a furnace door sealing mechanism and two groups of gas turbine telescopic mechanisms; two sets of gas turbine telescopic machanism slidable mounting is on changing the mechanism, one side of gas turbine telescopic machanism is provided with furnace gate sealing mechanism the utility model discloses in designed the structure that can quick replacement gas turbine, can ensure that the gas turbine breaks down or the part damages in normal work, unable normal during operation, can be quick carry out the switching of gas turbine, avoided traditional maintenance and change need extravagant manpower and time, serious influence production is normally gone on, productivity ratio's problem is reduced.

Description

Online quick replacement combustion engine mechanism

Technical Field

The utility model belongs to the technical field of industrial waste gas treatment equipment, concretely relates to online quick replacement combustion engine mechanism.

Background

In recent years, the national requirements on environmental protection are tighter, the emission standard is improved, and waste gas treatment and resource recycling technologies are more important; the incinerator is an environment-friendly device which can incinerate waste gas, waste liquid, solid waste object fuel and the like at high temperature to reduce or shrink the quantification number, and simultaneously can utilize the heat energy of partial incineration media. Mainly comprises a combustion-supporting system, an incineration system, a dust collector system and an electric control system; and the combustion engine is the most important unit in the combustion-supporting system.

During the production of PP (prepreg), a large amount of waste gas containing combustible organic compounds is generated. The waste gas enters an incinerator for combustion, auxiliary heating is needed to supplement heat in the temperature rise stage of the incinerator or when the concentration of combustible substances in the waste gas is low, a combustion engine is fixed outside a combustion chamber of an incinerator body in the existing method, an opening of the combustion engine extends into a hearth, when the waste gas needs to be heated, the combustion engine is started, a post-combustion engine is flamed out when the temperature reaches, and a fan of the combustion engine also needs to be operated all the time after the combustion engine is flamed out so as to prevent the opening of the combustion engine from being burned out at the temperature of 800 ℃ for a long time.

The combustion engine of present incinerator system all is online quick replacement not, if the combustion engine breaks down or the part damages in normal work, whole incinerator system all will stop, unable normal work overhauls and changes and more need extravagant manpower and time, and serious influence production is normally gone on, and productivity reduction causes the economic loss of unable estimation, in order to solve this problem, the utility model provides an online quick replacement combustion engine's mechanism.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an online quick replacement combustion engine mechanism to solve the problem that proposes in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: an online quick-replacing combustion engine mechanism comprises a replacing mechanism, a furnace door sealing mechanism and two groups of combustion engine telescopic mechanisms; the two groups of combustion engine telescopic mechanisms are slidably mounted on the replacing mechanism, and a furnace door sealing mechanism is arranged on one side of each combustion engine telescopic mechanism;

preferably, each group of the gas turbine telescopic mechanisms comprises a gas turbine, a transverse movable assembly, a transverse sliding rail assembly, a driving cylinder A and a bottom plate, wherein the gas turbine is installed on the transverse movable assembly, the transverse movable assembly is installed on the bottom plate in a sliding mode through the transverse sliding rail assembly, the bottom plate is provided with a driving assembly A, and the driving assembly A and the transverse movable assembly are in power transmission;

preferably, the replacing mechanism comprises a longitudinal movable assembly, a longitudinal sliding rail assembly and a fixed frame, the fixed frame is provided with the longitudinal movable assembly in a sliding mode through the longitudinal sliding rail assembly, the two groups of bottom plates are installed on the longitudinal movable assembly, and the fixed frame is connected with the longitudinal movable assembly in a sliding mode through a driving assembly B.

Preferably, the transverse movable assembly comprises a support plate and a base plate, the support plate is provided with a gas turbine, the bottom end of the gas turbine is fixedly installed on the base plate, the bottom of the base plate is provided with an installation block A, the driving assembly A comprises a driving cylinder A and a cylinder rod A, the driving cylinder A is installed on the base plate, one end of the driving cylinder A is provided with the cylinder rod A, and the other end of the cylinder rod A is connected with the installation block A.

Preferably, the transverse sliding rail assembly comprises a sliding rail and a sliding sleeve, the sliding rail is fixedly installed on the bottom plate, and the sliding sleeve is installed at the position of the base plate and is in sliding connection with the sliding rail.

Preferably, furnace gate sealing mechanism includes fixing base, valve plate subassembly, drives actuating cylinder C and switch detection device C, it installs on the stove wall to drive actuating cylinder C, the one end of driving actuating cylinder C is provided with the telescopic link, the one end of telescopic link is provided with the fixing base, be provided with the valve plate subassembly on the fixing base, be provided with switch C on the valve plate subassembly, and be provided with switch detection device C on switch C's the removal route, and switch detection device C fixed mounting is on the stove wall.

Preferably, the bottom of bed plate is provided with switch A, still be provided with switch detection device A on the bottom plate, and switch detection device A is located the both ends of switch A moving path.

Preferably, the bottom of the longitudinal movable assembly is provided with an installation block B, the driving assembly B comprises a driving cylinder B, the driving cylinder B is fixedly installed on the fixing frame, one end of the driving cylinder B is provided with a cylinder rod B, and the other end of the cylinder rod B is fixedly connected with the installation block B.

Preferably, a switch B is arranged at the bottom of the longitudinal movable assembly, a switch detection device B is arranged on the fixed frame, and the switch detection device B is located at two ends of a moving path of the switch B.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model discloses in designed the structure that can the quick replacement gas, can ensure that the gas turbine breaks down or the part damages in normal work, unable normal during operation, can be quick carry out the switching of gas turbine, avoided traditional maintenance and change need extravagant manpower and time, serious influence production is normally gone on, productivity reduction's problem.

Drawings

Fig. 1 is a schematic side view of the present invention;

FIG. 2 is a schematic structural view of a gas turbine telescopic mechanism of the present invention;

FIG. 3 is a schematic structural view of the replacing mechanism of the present invention;

FIG. 4 is a schematic structural view of the sealing mechanism of the oven door of the present invention;

FIG. 5 is a schematic side view of the sealing mechanism of the oven door according to the present invention;

in the figure: 1. a gas turbine telescopic mechanism; 11. a combustion engine; 12. a laterally movable assembly; 13. a transverse slide rail assembly; 14. driving the cylinder A; 5. a switch detection device A; 16. a mounting block A; 17. a base plate; 2. a mechanism is replaced; 21. a mounting block B; 22. a longitudinally movable assembly; 23. a longitudinal slide rail assembly; 24. driving the cylinder B; 25. a switch detection device B; 26. a fixed mount; 3. a furnace door sealing mechanism; 31. a fixed seat; 32. a valve plate assembly; 33. a driving cylinder C; 34. and a switch detection device C.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1 to 5, the present invention provides a technical solution: an online quick-change combustion engine mechanism comprises a change mechanism 2, a furnace door sealing mechanism 3 and two groups of combustion engine telescopic mechanisms 1; two groups of combustion engine telescopic mechanisms 1 are slidably arranged on the replacing mechanism 2, and one side of each combustion engine telescopic mechanism 1 is provided with a furnace door sealing mechanism 3, so that the combustion engine telescopic mechanisms can be conveniently and quickly replaced;

each group of combustion engine telescopic mechanisms 1 comprises a combustion engine 11, a transverse movable assembly 12, a transverse sliding rail assembly 13, a driving cylinder A14 and a bottom plate 17, wherein the combustion engine 11 is installed on the transverse movable assembly 12, the transverse movable assembly 12 is installed on the bottom plate 17 in a sliding mode through the transverse sliding rail assembly 13, the bottom plate 17 is provided with a driving assembly A, and the driving assembly A and the transverse movable assembly 12 are in power transmission; to facilitate docking and retraction of the combustion engine 11;

in this embodiment, preferably, the replacing mechanism 2 includes a longitudinal movable assembly 22, a longitudinal sliding rail assembly 23, and a fixed frame 26, the fixed frame 26 is slidably provided with the longitudinal movable assembly 22 through the longitudinal sliding rail assembly 23, and the two sets of bottom plates 17 are mounted on the longitudinal movable assembly 22, and the fixed frame 26 is slidably connected with the longitudinal movable assembly 22 through a driving assembly B, so as to facilitate switching of the combustion engine 11.

In this embodiment, preferably, the transverse movable assembly 12 includes a support plate and a base plate, the support plate is provided with the combustion engine 11, the bottom end of the combustion engine 11 is fixedly mounted on the base plate, the bottom of the base plate is provided with an installation block a16, the driving assembly a includes a driving cylinder a14 and a cylinder rod a, the driving cylinder a14 is mounted on the base plate 17, one end of the driving cylinder a14 is provided with a cylinder rod a, and the other end of the cylinder rod a is connected with the installation block a16, so as to ensure the movement and switching of the combustion engine 11.

In this embodiment, preferably, the transverse sliding rail assembly 13 includes a sliding rail and a sliding sleeve, the sliding rail is fixedly installed on the bottom plate 17, and the sliding sleeve is installed at the position of the base plate and is slidably connected with the sliding rail, so as to ensure stable sliding.

In this embodiment, preferably, the furnace door sealing mechanism 3 includes a fixing seat 31, a valve plate assembly 32, a driving cylinder C33 and a switch detection device C34, the driving cylinder C33 is installed on the furnace wall, one end of the driving cylinder C33 is provided with a telescopic rod, one end of the telescopic rod is provided with the fixing seat 31, the fixing seat 31 is provided with the valve plate assembly 32, the valve plate assembly 32 is provided with the switch C, the switch detection device C34 is arranged on a moving path of the switch C, and the switch detection device C34 is fixedly installed on the furnace wall, so as to ensure the sealing performance of the connection position.

In this embodiment, preferably, the bottom of the base plate is provided with a switch a, the bottom plate 17 is further provided with a switch detection device a15, and the switch detection devices a15 are located at two ends of a moving path of the switch a, so as to limit a moving distance of the base plate and ensure that the combustion engine 11 can be smoothly docked.

In this embodiment, preferably, the bottom of the longitudinal movable assembly 22 is provided with an installation block B21, the driving assembly B includes a driving cylinder B24, the driving cylinder B24 is fixedly installed on the fixed frame 26, one end of the driving cylinder B24 is provided with a cylinder rod B, and the other end of the cylinder rod B is fixedly connected with the installation block B21, so as to provide power for sliding.

In this embodiment, preferably, the switch B is disposed at the bottom of the longitudinally movable assembly 22, the switch detection device B25 is disposed on the fixing frame 26, and the switch detection device B25 is located at two ends of a moving path of the switch B, so as to ensure that the combustion engine 11 and the furnace body can be smoothly butted.

The utility model discloses a theory of operation and use flow: the utility model discloses when using, when the combustion engine 11 breaks down, can start to drive actuating cylinder A14, drive 16 and 12 synchronous motion for current combustion engine 11 withdraws from the valve plate subassembly 32, then start to drive actuating cylinder B24, drive installation piece B21 and vertical movable assembly 22 synchronous motion, make another combustion engine 11 on the vertical movable assembly 22 align with valve plate subassembly 32, the redrive actuating cylinder A14 that drives, make another combustion engine 11 dock with valve plate subassembly 32 can.

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

Claims (7)

1. The utility model provides an online quick replacement combustion engine mechanism which characterized in that: comprises a replacing mechanism (2), a furnace door sealing mechanism (3) and two groups of combustion engine telescopic mechanisms (1); two groups of combustion engine telescopic mechanisms (1) are slidably mounted on the replacing mechanism (2), and a furnace door sealing mechanism (3) is arranged on one side of each combustion engine telescopic mechanism (1);

each group of combustion engine telescopic mechanisms (1) comprises a combustion engine (11), a transverse movable assembly (12), a transverse sliding rail assembly (13), a driving cylinder A (14) and a bottom plate (17), wherein the combustion engine (11) is installed on the transverse movable assembly (12), the transverse movable assembly (12) is installed on the bottom plate (17) in a sliding mode through the transverse sliding rail assembly (13), a driving assembly A is arranged on the bottom plate (17), and the driving assembly A and the transverse movable assembly (12) are in power transmission;

change mechanism (2) including vertical movable assembly (22), vertical sliding rail set spare (23) and mount (26), slide through vertical sliding rail set spare (23) on mount (26) and be provided with vertical movable assembly (22), and two sets of bottom plates (17) are installed on vertical movable assembly (22), mount (26) are through drive assembly B and vertical movable assembly (22) sliding connection.

2. The on-line quick change combustion engine mechanism of claim 1, wherein: the horizontal movable assembly (12) comprises a support plate and a base plate, the support plate is provided with a gas turbine (11), the bottom end of the gas turbine (11) is fixedly installed on the base plate, an installation block A (16) is arranged at the bottom of the base plate, the driving assembly A comprises a driving cylinder A (14) and a cylinder rod A, the driving cylinder A (14) is installed on the base plate (17), one end of the driving cylinder A (14) is provided with the cylinder rod A, and the other end of the cylinder rod A is connected with the installation block A (16).

3. The on-line quick change combustion engine mechanism of claim 2, wherein: the transverse sliding rail assembly (13) comprises a sliding rail and a sliding sleeve, the sliding rail is fixedly installed on the bottom plate (17), and the sliding sleeve is installed at the position of the base plate and is in sliding connection with the sliding rail.

4. The on-line quick change combustion engine mechanism of claim 1, wherein: furnace gate sealing mechanism (3) include fixing base (31), valve plate subassembly (32), drive actuating cylinder C (33) and switch detection device C (34), it installs on the stove wall to drive actuating cylinder C (33), the one end that drives actuating cylinder C (33) is provided with the telescopic link, the one end of telescopic link is provided with fixing base (31), be provided with valve plate subassembly (32) on fixing base (31), be provided with switch C on valve plate subassembly (32), and be provided with switch detection device C (34) on switch C's the removal route, and switch detection device C (34) fixed mounting is on the stove wall.

5. The on-line quick change combustion engine mechanism of claim 2, wherein: the bottom of bed plate is provided with switch A, still be provided with switch detection device A (15) on bottom plate (17), and switch detection device A (15) are located switch A moving path's both ends.

6. The mechanism of claim 4, wherein the mechanism comprises: the bottom of the longitudinal movable assembly (22) is provided with an installation block B (21), the driving assembly B comprises a driving cylinder B (24), the driving cylinder B (24) is fixedly installed on a fixed frame (26), a cylinder rod B is arranged at one end of the driving cylinder B (24), and the other end of the cylinder rod B is fixedly connected with the installation block B (21).

7. The mechanism of claim 4, wherein the mechanism comprises: the bottom of the longitudinal movable assembly (22) is provided with a switch B, the fixing frame (26) is provided with a switch detection device B (25), and the switch detection device B (25) is located at two ends of a moving path of the switch B.

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