JP2008196639A - Unit base - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a unit base capable of preventing vibration of an engine housed in a soundproof case or the like from being transmitted to the soundproof case, and of preventing abnormal sound (noise) generated by vibration of the soundproof case. <P>SOLUTION: This unit base 2 is provided with a bottom plate 7 having an upper surface supporting an apparatus arranged on the upper side and a lower surface facing an installation surface, and unit leg parts 8 arranged between the installation surface and the lower surface to support the bottom plate 7, and fixed to the lower surface. Shape steel members 9 are fixed to the lower surface located between the unit leg part 8 and the unit leg part 8. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to, for example, a unit base that supports an engine or the like housed in a soundproof case of a cogeneration apparatus (also referred to as a “soundproof engine drive work machine”).

As a cogeneration apparatus that houses an engine or the like in a soundproof case, for example, the one disclosed in Patent Document 1 is known.
JP 11-173212 A

  However, in the cogeneration apparatus disclosed in Patent Document 1, the legs of the engine are directly supported on the engine base via the vibration isolating member. In addition, a lower space is provided below the engine base for guiding the exhausted air that has flowed out from the exhausting part of the generator to the front side of the engine. Therefore, in the cogeneration apparatus disclosed in Patent Document 1, vibrations of the engine and the like are transmitted to the soundproof case via the engine base (unit base), and the soundproof case vibrates to generate abnormal noise (noise). There was a risk of it.

  The present invention has been made in view of the above circumstances, and vibrations of an engine or the like housed in the soundproof case can be prevented from being transmitted to the soundproof case, and the soundproof case vibrates. An object of the present invention is to provide a unit base capable of preventing the generated abnormal noise (noise).

The present invention employs the following means in order to solve the above problems.
A unit base according to the present invention supports a bottom plate provided with an upper surface that supports a device disposed above and a lower surface opposite to the installation surface, and is disposed between the installation surface and the lower surface. In addition, a unit base having a unit leg fixed to the lower surface, and a shape steel is fixed to the lower surface located between the unit leg and the unit leg.
According to the unit base of the present invention, since the unit leg and the shape steel are fixed to the bottom surface of the bottom plate so as to be in contact with the bottom surface, the rigidity of the entire bottom plate can be increased (increased). Overall bending and twisting can be reduced. Thereby, for example, vibrations of equipment (engine, exhaust gas heat exchanger, generator, etc.) placed on the bottom plate are transmitted to the periphery of the bottom plate (that is, transmitted to the side surface of the soundproof case). Can be prevented, and abnormal noise (noise) generated when the soundproof case vibrates can be prevented.

In the unit base, it is more preferable that the structural steel is arranged so as to be positioned vertically below a gantry supporting the device.
According to such a unit base, the shape steel is arranged vertically below the gantry that supports the load and vibration of equipment (engine, exhaust gas heat exchanger, generator, etc.) placed on the upper surface of the bottom plate. Therefore, the rigidity of the entire bottom plate can be further increased (increased), and the bending and twisting of the entire bottom plate can be further reduced. Thereby, for example, vibrations of equipment (engine, exhaust gas heat exchanger, generator, etc.) placed on the bottom plate are transmitted to the periphery of the bottom plate (that is, transmitted to the side surface of the soundproof case). Can be further prevented, and abnormal noise (noise) generated by the vibration of the soundproof case can be further prevented.

In the unit base, a hole for venting is formed in the bottom plate, and the height of the shape steel is set so that a gap is formed between the bottom surface of the shape steel and the installation surface. More preferably,
According to such a unit base, a hole for venting is formed in the bottom plate, and a slight gap is formed between the lower surface of the shape steel and the installation surface. It is possible to guide to the outside (outside) of the base, or to guide the atmosphere existing outside (outside) of the unit base to above the unit base. As a result, for example, the atmosphere (or gas) in the soundproof case is exposed to the outside (outside) of the soundproof case via a hole for venting and a slight gap formed between the lower surface of the shape steel and the installation surface. The soundproof case can always be kept clean.

In the unit base, it is more preferable that the unit leg and the structural steel are arranged so as to form a predetermined space by the lower surface and the installation surface.
According to such a unit base, the sound (noise) leaking downward from the vent hole is confined in a predetermined space formed by the bottom plate, the unit leg, the shape steel, and the installation surface. Therefore, the sound (noise) leaking from the unit base to the outside (outside) can be reduced. Thereby, for example, sound (noise) leaking out from the cogeneration apparatus (outside) can be reduced.

  In the cogeneration apparatus according to the present invention, equipment (engine, exhaust gas heat exchanger, generator, etc.) is placed on a highly rigid unit base. It is possible to prevent the vibration of the exchanger, generator, etc.) from being transmitted to the periphery of the bottom plate (that is, transmitted to the side surface of the soundproof case), and is generated by the vibration of the soundproof case. An abnormal noise (noise) can be prevented.

  According to the present invention, vibration of an engine or the like housed in a soundproof case can be prevented from being transmitted to the soundproof case, and abnormal noise (noise) generated by vibration of the soundproof case can be prevented. There is an effect that can be done.

Hereinafter, an embodiment of a unit base according to the present invention will be described with reference to FIGS.
1 is a schematic overall perspective view of a cogeneration apparatus having a unit base according to the present embodiment, FIG. 2 is a schematic perspective view showing a state where an engine is installed on the unit base according to the present embodiment, and FIG. It is a figure which shows the unit base which concerns on embodiment, Comprising: (a) is a top view, (b) is a side view, FIG. 4 is IV-IV arrow sectional drawing of Fig.3 (a).

  A cogeneration apparatus (also referred to as a “soundproof engine-driven work machine”) 1 includes a unit base 2 shown in FIG. 1, a soundproof case 3, an engine 4 shown in FIG. 2, an exhaust gas heat exchanger 5, and a power generation unit. The machine 6 is configured as a main element.

As shown in FIG. 3A, the unit base 2 includes a bottom plate 7, two unit legs 8, and two shape steels (U-shaped steel in this embodiment) 9.
The bottom plate 7 includes a bottom surface portion 7a made of a plate-like member having a rectangular shape in plan view, and extends vertically upward from the periphery of the bottom surface portion 7a, and is also provided on the side surface portion 3a of the soundproof case 3 (see FIG. 1). The side part 7b connected with a lower end part is provided.
The bottom surface portion 7a is provided with at least one (one in this embodiment) vent hole 7c, and the top surface of the bottom surface portion 7a has an engine 4, an exhaust gas heat exchanger 5, and A plurality of (8 in the present embodiment) for attaching the anti-vibration rubber 11 (see FIG. 2) disposed between the anti-vibration frame (base) 10 (see FIG. 2) on which the generator 6 and the like are placed. ) Stud bolt 7d is erected vertically upward.

  As shown in FIG. 3B, each unit leg portion 8 is disposed between the bottom surface portion 7a and the installation surface G (see FIG. 4) and supports the lower surface of the bottom surface portion 7a. It is made of a rod-like member having a substantially L shape, and is arranged along the peripheral edge of the bottom surface portion 7a and in the direction perpendicular to the longitudinal direction of the bottom plate 7 (vertical direction in FIG. 3A). Each unit leg portion 8 is attached to the bottom plate 7 so that the upper surface thereof is in contact with the lower surface of the bottom surface portion 7 a, and the lower surface of each unit leg portion 8 is in contact with the installation surface G. Each unit leg 8 includes fixing means (for example, a stud bolt (not shown) planted on the installation surface G, a nut screwed with the stud bolt, or a fixing bolt 12 (FIGS. 1 and 2))) and is fixed to the installation surface G.

  As shown in FIG. 4, each shape steel 9 is disposed between the unit legs 8 and the unit legs 8 to increase the rigidity of the bottom plate 7, and has a bar shape that has a U shape in cross section. Vertically below the stud bolt 7d erected on the upper surface of the bottom surface portion 7a along the longitudinal direction of the bottom plate 7 (left and right direction in FIG. 3 (a)). It is arranged to be located in. Each shape steel 9 is attached to the bottom plate 7 so that the upper surface thereof is in contact with the lower surface of the bottom surface portion 7 a and both end surfaces thereof are in contact with the inner wall surface of the unit leg portion 8. Moreover, the both end surfaces of each shape steel 9 and the inner wall surface of each unit leg part 8 are each connected (coupled) by welding. On the other hand, the lower surface of each shape steel 9 is slightly separated from the installation surface G (1 mm to 2 mm, more preferably 0 mm).

As shown in FIG. 1, the soundproof case 3 is attached to the side surface portion 7 b of the bottom plate 7 through fastening means (for example, bolts and nuts) (not shown) and surrounds the four circumferences of the bottom plate 7. It is a rectangular parallelepiped housing having two side surface portions 3a and an upper surface portion 3b that closes the upper portions of the side surface portions 3a.
Among the four side surface portions 3a, at least one side surface portion 3a is provided with an intake port 3c, and an upper surface portion 3b is provided with an exhaust port 3d. The intake port 3c and the intake pipe (not shown) of the engine 4 accommodated in the soundproof case 3 are connected via an intake duct (not shown), and the exhaust port 3d and the exhaust gas heat exchange. The exhaust pipe 4a of the vessel 5 is connected via an exhaust duct (not shown).

  The engine 4 is, for example, a gas engine or gas turbine that uses city gas as fuel, and is mounted on an anti-vibration frame 10 as shown in FIG. A vessel 5 and a generator 6 are attached. The engine 4, the exhaust gas heat exchanger 5, and the generator 6 are supported by the vibration isolation frame 10, and the vibration isolation frame 10 includes a stud bolt 7 d erected on the upper surface of the bottom surface portion 7 a, It is mounted on an anti-vibration rubber 11 fixed to the bottom plate 7 through a nut 7e that is screwed with the stud bolt 7d.

The exhaust gas heat exchanger 5 uses the exhaust gas discharged from the engine 4 or the cooling water of the engine 4 as a heating source, for example, warms tap water led into the exhaust gas heat exchanger. The hot water produced by 5 is used for air conditioning and hot water supply.
The generator 6 is driven by the engine 4 to generate electricity, and the electricity generated by the generator 6 is used as electric power for an electrical product or the like.

According to the unit base 2 according to the present embodiment, since the unit leg portion 8 and the shape steel 9 are fixed to the lower surface of the bottom surface portion 7a so as to be in contact with the lower surface, the rigidity of the entire bottom plate 7 is increased (increased). And the bending and twisting of the entire bottom plate 7 can be reduced. Thereby, for example, vibrations of the engine 4, the exhaust gas heat exchanger 5, the generator 6 and the like placed on the bottom surface portion 7a are transmitted to the side surface portion 7b (that is, the side surface of the soundproof case 3). Transmission to the portion 3a), and noise (noise) generated when the soundproof case 3 vibrates can be prevented.
In addition, a shape steel 9 is arranged vertically below the vibration isolating rubber 11 that supports the load and vibration of the engine 4, the exhaust gas heat exchanger 5, the generator 6, and the like placed on the vibration isolating frame 10. Therefore, the rigidity of the entire bottom plate 7 can be further increased (increased), and the bending and twisting of the entire bottom plate 7 can be further reduced. Thereby, for example, vibrations of the engine 4, the exhaust gas heat exchanger 5, the generator 6 and the like placed on the bottom surface portion 7a are transmitted to the side surface portion 7b (that is, the side surface of the soundproof case 3). Transmission to the part 3a) can be further prevented, and abnormal noise (noise) generated by the vibration of the soundproof case 3 can be further prevented.
Furthermore, the sound (noise) leaked downward from the degassing hole 7c is confined in a predetermined space formed by the bottom surface portion 7a, the unit leg portion 8, the shape steel 9, and the installation surface G. Therefore, the sound (noise) leaking from the unit base 2 to the outside (outside) can be reduced. Thereby, the sound (noise) which leaks from the cogeneration apparatus 1 to the outside (outside) can be reduced.
Furthermore, since the bottom 7a has a gas vent hole 7c and a slight gap is formed between the bottom surface of the structural steel 9 and the installation surface G, the atmosphere above the unit base 2 is It is possible to guide the outside (outside) of the base 2, or to guide the atmosphere existing outside (outside) the unit base 2 above the unit base 2. Thereby, for example, the atmosphere (or gas) in the soundproof case 3 is passed through the gas vent hole 7c and a slight gap formed between the lower surface of the shape steel 9 and the installation surface G. The inside of the soundproof case 3 can always be kept clean.

According to the cogeneration apparatus 1 including the unit base 2 according to the present embodiment, the engine 4, the exhaust gas heat exchanger 5, the generator 6 and the like are mounted on the highly rigid unit base 2. Therefore, vibrations of the engine 4, the exhaust gas heat exchanger 5, the generator 6, and the like are prevented from being transmitted to the side surface portion 7b (that is, transmitted to the side surface portion 3a of the soundproof case 3). Therefore, it is possible to prevent abnormal noise (noise) generated when the soundproof case 3 vibrates.
Further, the sound (noise) leaking downward from the gas vent hole 7c is confined in the space formed by the bottom surface portion 7a, the unit leg portion 8 and the shape steel 9, so that the unit base 2 The sound (noise) leaking out from the outside (outside) can be reduced, and the sound (noise) leaking out from the cogeneration apparatus 1 to the outside (outside) can be reduced. Furthermore, the atmosphere (or gas) in the soundproof case 3 is made outside the soundproof case 3 through a hole 7c for venting gas and a slight gap formed between the lower surface of the shape steel 9 and the installation surface G ( As a result, the soundproof case 3 can always be kept clean.

In addition, this invention is not limited to the thing of embodiment mentioned above, A groove-shaped steel, an angle steel, etc. can also be employ | adopted instead of a U-shaped steel.
In the above-described embodiment, the engine 4, the exhaust gas heat exchanger 5, and the generator 6 are housed in the soundproof case. However, the present invention is not limited to this, and the electric motor In addition, the present invention can be applied to a case in which a compressor, a storage battery, or the like is accommodated.

It is a schematic whole perspective view of the cogeneration apparatus provided with the unit base concerning one embodiment of the present invention. It is a schematic perspective view which shows the state which installed the engine on the unit base which concerns on one Embodiment of this invention. It is a figure which shows the unit base which concerns on one Embodiment of this invention, Comprising: (a) is a top view, (b) is a side view. It is IV-IV arrow sectional drawing of Fig.3 (a).

Explanation of symbols

1 Cogeneration system 2 Unit base 4 Engine (equipment)
5 Exhaust gas heat exchanger (equipment)
6 Generator (equipment)
7 Bottom plate 7c Hole for venting 8 Unit leg 9 Shape steel 10 Anti-vibration frame (frame)
G Installation surface

Claims (5)

A bottom plate provided with an upper surface for supporting the device disposed above and a lower surface facing the installation surface, and disposed between the installation surface and the lower surface to support the bottom plate and fixed to the lower surface A unit base with unit legs,
A shape base is fixed to the lower surface located between the unit leg and the unit leg.   2. The unit base according to claim 1, wherein the shape steel is arranged to be positioned vertically below a gantry supporting the device.   A hole for venting is formed in the bottom plate, and the height of the shape steel is set so that a gap is formed between the lower surface of the shape steel and the installation surface. The unit base according to claim 1 or 2, characterized by the above.   The unit base according to any one of claims 1 to 3, wherein the unit leg and the structural steel are arranged so as to form a predetermined space by the lower surface and the installation surface. .   A cogeneration apparatus comprising the unit base according to any one of claims 1 to 4.

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