[0001] This invention relates to a support for an axial gaseous fluid impeller appliance,
particularly a support allowing the housing of an axial impeller appliance to be inserted
in a conduit of smaller diameter and fix it to a surface, whatever the length of the
appliance housing.
[0002] Means are known for coupling the members of a conduit in which said axial impeller
appliance may be applied, such as a fume extraction, forced ventilation, air conditioning,
etc. installation, such coupling means normally being of the plug-in system or the
flange and annular grooved clamp system.
[0003] On the other hand, these appliances have to be firmly attached to a surface and,
at the same time, must be reliably connected to the smaller diameter conduits of the
installation, which requires frustoconical diameter adaptor parts which are connected
to the installation at one end and to the housing of the axial impeller appliance
at the other end.
[0004] This arrangement requires the provision of means for anchoring the housing to a surface
and means for ensuring the connection between said housing and the frustoconical adaptor
parts and between the latter and the installation conduits.
[0005] To overcome this drawback, with a reduction of the number of special members, the
solution was adopted of rigidly associating both frustoconical adapter parts with
a rigid bridge, with the purpose of engaging the housing of the appliance between
both adaptor parts and attaching them thereto by flange and annular grooved clamp
arrangements, at the same time as the ensemble could be attached to a surface by means
of said rigid bridge.
[0006] This solution has the drawback that an ensemble of frustoconical adaptor parts and
a rigid bridge are needed for each length of axial impeller appliance, which represents
having to stock a large number thereof. On the other hand, this solution does not
facilitate the assembly of two or more appliances in series, making it necessary to
double the number of parts used in the installation.
[0007] With a view to obviating these new drawbacks, the solution has been adopted of having
independent support parts, which may be associated together by a simple member, notably
reducing the storage problems.
[0008] In accordance with the foregoing solution, the support of the invention has been
developed, which is formed by at least two independent support feet, each integrating
one half of an annular grooved clamp and pivoting and fixation means for the other
free half, which ensemble simultaneously retains respective juxtaposed flanges of
a coupling member to the conduit and of a frustoconical adaptor part for coupling
to the housing of the axial impeller, at the same time as said support feet are associated
with each other by a resistant connecting plate which, being provided with automatic
coupling means to the base of each foot, allows the axial impeller appliance to be
attached to a surface.
[0009] One feature of the invention is that the support feet are provided at the base thereof
with a recess for stable insertion of one end of the connecting plate, in which recess
there are the automatic coupling means for the of the connecting plate. These means
consist of pairs of teeth which, mounted to resilient tongues situated in said bases
of the support feet, engage windows open in the ends of the connecting plates.
[0010] The invention contemplates that one of the end support feet be provided with a single
recess, while the remaining end and intermediate support feet, for when two or more
axial impeller appliances are to be mounted in series, are provided with two recesses
facing in opposite directions.
[0011] A further feature of the invention is that the half annular grooved clamp of each
support foot is provided with an opening at the lowermost point of the bottom thereof
for the passage of a tab, provided with a window, and which extends radially from
the flange of the coupling part to the conduit and engages a retaining tooth disposed
on the support foot. This arrangement may be realized with two or more tabs and the
corresponding openings and retaining teeth.
[0012] Yet a further feature of the invention is that the housing of the axial impeller
appliance is provided with bayonet means for coupling thereof to the frustoconical
adaptor parts, in such a way that the male members of the bayonet arrangement are
regularly arranged on the outside of the mouths of the housing of the axial impeller
appliance, while the female members are situated on the inside of the mouths of the
frustoconical parts.
[0013] The invention also contemplates that the male members are formed by elongate circular
section pins and the female members are formed by an axial inlet and a path narrowing
in the perimetrical direction and terminating in a retaining seat, which is slightly
larger than a semi-circle of the circular section.
[0014] Finally, it is contemplated that the free half of the annular grooved clamp is provided
at one end with a T-shaped boss which mates with a double hook provided in one end
of the support foot half of the clamp, at the same time as the former is provided
at the other end thereof with a housing for a bolt which is screwed into a nut inserted
in the end of the latter opposite the joint.
[0015] To facilitate an understanding of the foregoing ideas, there is described hereafter
the object of the invention, with reference to the accompanying illustrative drawings,
in which:
Figure 1 is an exploded perspective view of a support according to the invention,
with the semi-clamps thereof open, and two parts for coupling to a not shown cylindrical
conduit.
Figure 2 is an exploded perspective view of an ensemble of axial impeller appliance
including the frustoconical adaptor parts, the support feet with the clamps thereof
open, the connecting plate for said support feet and the parts for coupling to the
conduit, also not shown.
Figure 3 is a perspective view of the parts of Figure 2, after assembly and ready
for stable attachment.
Figure 4 is a side elevation view of the stably attached ensemble of Figure 3, showing,
on the one hand, a third frustoconical adaptor part for a second axial impeller appliance,
not shown, mounted in series with that of Figure 3, and, on the other hand, the end
of a conduit.
Figure 5 is a front elevation view of the ensemble of Figure 4 seen from the right
hand side of the drawing.
Figure 6 is a perspective view of the female and male bayonet coupling members between
the frustoconical adaptor part and the housing of the axial impeller appliance.
Figure 7 is an illustrative section view of how the male and female bayonet members
are coupled together.
Figure 8 is a cross section view of a detail of the base of a support foot and of
the tab of the conduit coupling part, in a position prior to engagement.
Figure 9 shows the members of the previous Figure in the engaged position.
Figure 10 is a detail of the engagement of the connecting plate with a support foot
base.
[0016] The support according to the invention is applicable to the assembly of a axial gaseous
fluid impeller appliance 1, of the type known as helical, helicentrifugal and the
like, to be inserted in a conduit of smaller section which communicates a gaseous
fluid take-up area with a receiving area therefor.
[0017] The axial impeller appliance 1, which does not form part of the invention, is conventionally
attached to a conduit by inserting it between two lengths of the latter, as shown
in Figures 2, 3 and 4, by means of frustoconical adaptors 2, which are also conventional
and known as reducers that, in cooperation with coupling parts 3 thereof to the conduit
4, shown in Figure 4, are mounted in support feet 5 and 5A attached to a surface.
[0018] The frustoconical adaptors 2 are provided, on the one hand, at the smaller diameter
opening thereof, with a flange 6 which abuts, on assembly, a flange 7 of the coupling
parts 3, while, on the other hand, at the larger diameter opening thereof they are
provided with coupling members of bayonet type to the axial impeller appliance 1.
In the case shown in Figures 6 and 7, the male members of the bayonet coupling are
formed by bosses 8 situated on the periphery of the mouths of the axial impeller appliance
1, while the female members are formed by slots 9 that are located on the mouth of
the frustoconical adaptors 2 and are formed by an axial inlet 10 and a path 11 tapering
in the perimetral direction to terminate in a retaining housing 12 for the corresponding
boss 8.
[0019] The axial impeller appliance 1 is conventionally provided with an electric motor,
an impeller 13 and a terminal box 14.
[0020] The support feet 5 and 5A, which are independent one of the other, as shown in Figures
1 and 2, each comprise a fixed half 15A of an annular grooved clamp 15 and pivoting
and fixation means for the other free half 15B. This assembly determines a simultaneous
retaining arrangement for the flanges 6 of the frustoconical adaptors 2 and 7 of the
coupling parts 3 of adaptation to the axial impeller appliance 1, as shown in Figure
3.
[0021] These support feet 5 and 5A are formed by a base member 16-16A and a wall 17 in which
there is formed the fixed half 15A of the annular grooved clamp 15.
[0022] Said support feet 5 and 5A are connected together, as may be seen in Figures 1, 3
and 4, by a resistant connecting plate 18, provided with automatic engagement means
with the base 16 and 16A of each of the support feet 5 and 5A.
[0023] The said support feet 5 and 5A are provided at their bases 16 and 16A, respectively,
with a double recess 19 and a single recess 19A in which there are to be found the
automatic means for coupling to the connecting plate 18, consisting of snap-fit arrangements
formed by teeth 20 mounted on resilient tongues 21 situated on said bases 16 and 16A
and engaging in windows 22 open in the connecting plate 18.
[0024] The support foot 5A to be located at one end is provided with only one single recess
19A, while the support foot 5 to be located at the other end or inserted, as shown
in Figure 4, is provided with a double opposed recess 19. In an extreme situation,
with a view to cheapening the product, the single support feet 5A may be replaced
by double support feet 5.
[0025] The fixed halves 15A of the annular grooved clamps 15 of each support foot 5 or 5A
are provided, as shown in Figures 8 and 9, with an opening 23 at the lowermost point
of the bottom 24 of the groove for the passage of a tab 25 having a window 26 and
which extends radially from the edge of the flange 7 of the coupling part 3 to the
conduit, said window 26 of the tab 25 mating, when assembling the ensemble, with a
resilient retaining tooth 27 provided centrally in the wall 17 of the support feet
5 and 5A. There may be two or more openings 23 in the bottom 24 of the groove of the
fixed half 15A and tabs 25, depending on the height of the wall 17 of the support
feet 5 and 5A.
[0026] The free halves 15B of the annular grooved clamps 15 of each support foot 5 or 5A
are provided, as shown in Figures 1 to 4 and in detail in Figure 5, with a T-shaped
boss 28, at one end, which mates with a double hook 29 provided at one end of the
fixed half 15A corresponding to the support foot 5 or 5A, at the same time as the
free half 15B is provided at the other end thereof with a housing 30 for a bolt 31
which is threaded in a nut 32 inserted in a housing 33 of the other end of the corresponding
fixed half 15A.
[0027] The connecting plate 18 is formed by a simple metal sheet, which, further to the
snap-fit windows 22, is provided with holes 34 for attachment thereof to a surface.
[0028] In Figure 4 there is to be seen the retainer 35 ensuring the coupling of the housing
of the axial impeller appliance 1 and the frustoconical adaptor parts 2 effected by
the bayonet means formed by the bosses 8 and slots 9.
1. A support for a axial gaseous fluid impeller appliance, particularly a support for
inserting one of such appliances, which may be of known types such as helical, helicocentrifugal
and the like, in a smaller diameter conduit, in which there are conventionally used
for connecting the various members of the installation, plug-in or annular grooved
clamp systems which retain pairs of juxtaposed flanges of the members to be connected
and, to accommodate the differences of diameter therebetween, frustoconical adaptor
members between which there is mounted the housing of the axial impeller appliance,
said adaptor members being fixedly attached to one another by a support bridge allowing
the ensemble to be mounted to a surface, characterized in that it is formed by at least two independent support feet each having one half of an
annular grooved clamp and pivoting and fixation means for the other free half, which
assembly simultaneously retains respective juxtaposed flanges of a coupling part to
the conduit and a frustoconical adaptor part for coupling to the housing of the axial
impeller appliance, at the same time as said support feet are associated with each
other by means of a resistant connecting plate which, provided with automatic means
for coupling to the base of each of the feet, allows the axial impeller appliance
to be attached to a surface.
2. The support of claim 1, characterized in that the support feet are provided at the base thereof with a recess for stable insertion
of one end of the connecting plate, in which the automatic coupling means for the
connecting plate are to be found.
3. The support of claim 2, characterized in that the automatic coupling means between the bases of the support feet and the ends of
the connecting plate consist of snap-fit arrangements.
4. The support of claim 3, characterized in that the snap-fit arrangements of each base of the support feet consist of pairs of teeth,
which, mounted on resilient tongues, situated in said bases, engage windows open in
the ends of the connecting plates.
5. The support of claim 2, characterized in that one of the end support feet is provided with a single recess, while the remaining
end and intermediate support feet for when two or more axial impeller appliances are
to be assembled in series, are provided with two oppositely facing recesses.
6. The support of claim 1, characterized in that the half annular grooved clamp of each support foot is provided with an opening at
the lowermost point of the bottom thereof for the passage of a tab, which, having
an open window, extends radially from the flange of the conduit coupling part.
7. The support of claim 6, characterized in that the support feet are provided with a resilient retaining tooth mating with the opening
of the half grooved clamp and with the window of the radial tab of the conduit coupling
part.
8. The support of claim 1, characterized in that the housing of the axial impeller is provided with bayonet means for coupling thereof
to the frustoconical adaptor parts.
9. The support of claim 8, characterized in that the male members of the bayonet arrangement are regularly disposed on the outside
of the mouths of the axial impeller housing, while the female members are situated
on the inside of the mouths of the frustoconical parts.
10. The support of claim 9, characterized in that the male members are formed by elongate circular section pins and the female members
are formed by an axial inlet and a path tapering in the perimetral direction and terminating
in a retaining housing, which is slightly greater that a semi-circle of the section.
11. The support of claim 8, characterized in that the bayonet coupling between the axial impeller housing and the frustoconical adaptor
parts is ensured by a radial retainer.
12. The support of claim 1, characterized in that the free half of the annular grooved clamp is provided with a T-shaped boss at one
end which mates with a double hook provided at one end of the support foot half clamp,
at the same time as the former is provided at the other end with a housing for a bolt
which is threaded into a nut inserted in the end of the latter opposite to the joint.