JPH0733593Y2 - Inverter unit structure - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial field of use] The present invention relates to an inverter used for a variable speed motor or the like, and more particularly to an inverter unit structure suitable for loading / unloading a large capacity inverter.

[Prior Art] In recent years, the use of transistor inverters has been increasing in various industrial fields from the viewpoint of low price, ease of use, and the like. The capacity of this type of transistor inverter is increasing, and the weight is increasing accordingly, and the weight of some large capacity machines exceeds 150 kg.

FIG. 5 (a) is a side view showing the conventional configuration of the inverter unit 1 mounted in the large-sized switchboard. In this figure, a casing 1a of an inverter unit 1 includes a bottom plate 2 having edges 2a at upper, lower, left, and right edges, and two plates attached to the left and right edges 2a of the bottom plate 2 with bolts 3, 3 ,. It is composed of side plates 4 and 4. Two suspension bolts 5 and 5 are attached and fixed to the upper end of the bottom plate 2 at intervals in the horizontal direction, and holes are formed in the bolt heads of the bolts 5 and 5. The inverter unit 1 is attached and fixed to the base portion 7 of the switchboard by a plurality of attaching bolts 6, 6, .... Reference numeral 8 denotes a component inside the unit, which is attached and fixed to the bottom plate 2.

With such a configuration, when the inverter unit 1 is mounted in the switchboard, the hanging bolts 5 and 5 are hooked on the wire rope to be transported while being lifted by the transporter, and the mounting bolts 6 and 6 are mounted to the switchboard. I do.

In addition, as a hoisting and carrying method other than the above, as shown in FIG. 5 (b), hoisting bolts 5 and 5 are attached to the upper portions of the side plates 4 and 4 to hoist, and as shown in (c), a hoisting plate 9, 9 is attached to the side plates 4 and 4 with bolts 10, 10 ..., and a wire rope with a hook is hung to hang the lifting holes 9a. As shown in (d), the lifting holes 4a and 4a are provided in the side plates 4 and 4. A method of providing and hoisting is also conventionally used.

[Problems to be Solved by the Invention] The conventional inverter unit 1 described above has the following problems. That is, (1) In the case of FIG. 5 (a), since the inverter unit 1 is lifted through the hanging bolts 5 and 5 attached to the bottom plate 2, the strength of the joint portion between the hanging bolts 5 and 5 and the bottom plate 2 is increased. You need to be strong. In addition, the hanging bolts 5 and 5 are attached to the bottom plate 2.
Since it is installed unevenly on the upper end of the, the workability when installing on the switchboard is poor.

(2) In the case of FIG. 5B, since the inverter unit 1 is hoisted through the hanging bolts 5 and 5 attached to the side plates 4 and 4, the joint bolts 3 and 3 between the bottom plate 2 and the side plates 4 and 4 are used.
It is necessary to increase the strength of.

(3) In the case of FIG. 5 (c), the inverter unit 1 is hoisted through the hoisting plates 9 and 9 attached to the side plates 4 and 4, so that the hoisting plates 9 and 9 and the side plates 4 and 4 are connected. Strength of bolts 10, 10 ... and bottom plate 2 and side plates 4, 4
It is necessary to increase the strength of the connecting bolts 3, 3, ....

(4) In the case of FIG. 5 (d), since the inverter unit 1 is lifted through the lifting holes 4a, 4a provided in the side plates 4, 4, the connecting bolt 3, which connects the bottom plate 2 and the side plates 4, 4, Three
It is necessary to increase the strength of.

Further, as a drawback common to FIGS. 5 (a) to 5 (c),
Due to the shape of the bottom plate 2, the bottom plate 2 may be deformed by the mounting bolts 6, 6, ....

The present invention has been made in view of the above circumstances, and an object thereof is to provide an inverter unit structure that has sufficient strength, simplifies the processing and shape of the bottom plate, and can improve workability during mounting. And

[Means for Solving the Problems] The present invention provides a unit structure of an inverter including a bottom plate and side plates fixed to both sides of the bottom plate. The bottom plate is bent to have a U-shaped cross section. It is formed on the bottom plate, and a lifting hole is provided at the upper end of both side bent parts of the bottom plate, and the side plate is fixed below the hole while avoiding each hole, and a hook or the like is inserted into each hole. It is characterized in that the weight of the inverter unit acts only on the bottom plate when it is lifted.

[Operation] According to the present invention, since the inverter unit is lifted up through the holes formed in the both side bent portions of the bottom plate having a U-shaped cross section,
The weight of the inverter unit acts only on the bottom plate when a hook or the like is inserted into each hole and lifted up, and the unit load is not applied to the joint between the bottom plate and the side plate, preventing the unit from deforming. You can

[Embodiment] An embodiment of the present invention will be described below with reference to the drawings.

FIG. 1 is a perspective view showing a partial configuration of the casing 20a of the inverter unit 20 according to this embodiment when assembled.
In this figure, reference numeral 21 is a bottom plate having a U-shaped cross section formed by bending, and a pair of bottom plates 21a for fixing the inverter unit 20 to the switchboard is provided at both corners of the bottom part 21a in the arrow Y ₁ direction. Mounting holes 21b, 21b are provided, and further, mounting holes 21c, 21c for mounting the reinforcing member 24 are provided at predetermined intervals between these mounting holes 21b, 21b. Further, lifting holes 21e, 21e are provided at each end of the bent portions 21d, 21d of the bottom plate 20 in the arrow Y ₁ direction. In addition, the bent portions 21d, 21d are provided at three equal intervals in the longitudinal direction of the arrow (only two locations are shown in the figure), and the mounting holes 21 are provided.
Attachment parts 21g, 21g ... Having f, 21f ... Are provided. These mounting portions 21g, 21g ... are bent portions 21d, 2
A part of 1d is cut and bent.

Further, 22 and 22 are side plates that are respectively attached and fixed to the bent portions 21d and 21d of the bottom plate 21, and the lower edges of the side plates 22 and 22 in the longitudinal direction are
Mounting holes 22f, 22f at positions corresponding to the mounting holes 21f, 21f ....
... is provided. Then, the bottom plate 21 and the side plates 22, 22
And are attached and fixed by the fixing screws 23, 23 .... Further, 24 is a plate-shaped reinforcing member, which reinforces the unit mounting hole 21b, and, as shown in FIG.
In order to attach the bolts to the mounting bolts 26, 26 ...

The reinforcing member 24 is provided with mounting holes 24b, 24b at positions corresponding to the unit mounting holes 21b, 21b of the bottom plate 21, and mounting holes 24c, 24c are provided at positions corresponding to the mounting holes 21c, 21c, respectively. ing. Then, the bottom plate 21 and the reinforcing member 24 are attached and fixed by the fixing screws 25, 25. The reinforcing member 24 is also attached and fixed to the end portion (not shown) of the bottom plate 21 in the arrow Y ₂ direction.

The casing 20a of the inverter unit 20 as shown in FIGS. 2 and 4 is assembled in this manner. When mounting the inverter unit 20 to the switchboard, toward the arrow Y ₁ direction upward, lifting holes 21e, 2
A wire rope with a hook is hung on 1e, and it is transported while being lifted, and mounting bolts 26, 26 via the two reinforcing members 24, 24.
・ Fix it to the switchboard by using.

Therefore, according to the above-described embodiment, the bottom plate to which the component 25 is attached
Since the 21 is directly hoisted and transported, the weight of the inverter unit acts only on the bottom plate 21 when a hook or the like is inserted into the hoisting hole 21e and hoisted, whereby the unit of the unit is connected to the joint between the bottom plate and the side plate. No load is applied,
The deformation of the inverter unit 20 can be prevented.

In the above embodiment, the mounting portions 21g of the bottom plate 21 to which the side plates 22 and 22 are mounted are provided at three locations on each side, but the configuration is not limited to this, and the mounting portions 21g may be increased.

[Advantages of the Invention] As described above, according to the present invention, since the bottom plate is directly hung up, the following effects can be obtained.

(1) The strength of the inverter unit can be improved.

(2) Since the bottom plate having a U-shaped cross section is formed by bending, the processing and shape of the bottom plate can be simplified.

(3) Since the bottom plate is used for lifting, the side plates need only be fixed to the bottom plate.

(4) Since the lifting holes are provided in the upper part of the bottom plate on which the entire load of the inverter unit is applied, workability at the time of mounting can be improved.

(5) Since holes for hoisting are provided at the upper ends of the bent portions on both sides of the bottom plate, and the side plate is fixed below the holes while avoiding each hole, a hook or the like is inserted into each hole for hoisting. At this time, the weight of the inverter unit can act only on the bottom plate, so that the load of the unit is not applied to the joint portion between the bottom plate and the side plate, and the deformation of the inverter unit can be prevented.

[Brief description of drawings]

1 and 2 are perspective views showing the configuration of an embodiment of the present invention, FIG. 3 is a view showing a state in which a component 25 is attached to an inverter unit 20 according to this embodiment, and FIG. ) ~
(C) is a front view, a bottom view and a side view, respectively, showing the configuration of the present embodiment, and FIGS. 5 (A) to (D) are side views showing the conventional configuration. 20 ... Inverter unit, 20a ... Casing, 21 ...
… Bottom plate, 22 …… Side plate, 21e …… Hole for lifting.

Claims (1)

[Scope of utility model registration request] 1. A unit structure of an inverter comprising a bottom plate and side plates mounted and fixed to both sides of the bottom plate, wherein the bottom plate is formed into a U-shaped cross-section bottom plate by bending. A lifting hole is provided at the upper end of the bent portion, and the side plate is fixed below the hole while avoiding each hole.When the hook is inserted into each hole and the lifting is performed, the weight of the inverter unit is reduced. The unit structure of the inverter is characterized in that is designed to act only on the bottom plate.