ES2699953T3 - Wall ring for an axial fan - Google Patents

Abstract

Wall ring for housing an axial fan (6), comprising an annular body (1) with an electric heating element (24) and with a flow inlet opening (2) and a flow outlet opening ( 3) and with a central longitudinal axis XX as well as an annular wall (4) that runs between the two openings (2, 3), characterized in that the annular wall (4) has a cavity (13) enclosed by an outer wall (11). ) and an inner wall (12), in which the electric heating element (24) can be fixed at least through a partial area of the perimeter of the annular wall (4), as well as because the annular body (1) consists of of at least two partial bodies (14, 16), which are formed by a separation of the annular body (1) in a plane of separation running perpendicular to its longitudinal axis (XX) and are detachably joined together.

Description

DESCRIPTION

Wall ring for an axial fan

The present invention relates to a wall ring for the housing in particular of axial fans, comprising an annular body with a central longitudinal axis, with a flow inlet opening and a flow exit opening as well as an annular wall that runs between the two openings.

Axial fans are used, among other things, for very low temperature applications. In this sense, there is a risk of icing and, therefore, of a freezing of the fins of the fan wheel in the wall ring. Typical applications in which this risk exists are heat pumps, evaporators in cold rooms and the like. To prevent such a freezing, a heating element is applied in a known manner as electric resistance heating on the wall ring and used as heating. Thus, document EP 1363383 A2 discloses a wall ring for the housing in particular of an axial fan, comprising an annular body with a flow inlet opening and a flow outlet opening and with a central longitudinal axis XX as well as an annular wall running between the two openings, an electric heating element being able to be fixed at least through a partial area of the perimeter of the annular wall. In this regard, the large amount of energy that has to be introduced in order to completely heat the wall ring is disadvantageous, in order to prevent ice from forming on the inner side of the wall ring, or to melt the ice that is produced. In this sense, a high heat emission is made to the environment and the heat introduced in this way in the cold room has to be subsequently extracted again from the cold room. It follows that a wall ring heating of this type is inefficient from the energy point of view. The present invention is based on the objective of avoiding the above disadvantages and of reducing the formation of ice on the inner side of the wall ring.

According to the invention, this is achieved because the annular wall has a cavity enclosed by an outer wall and an inner wall, in which an electric heating element can be fixed at least through a partial area of the perimeter of the annular wall , as well as the fact that the annular body of the wall ring consists of at least two partial bodies, which are formed by a separation of the body annuls in a plane of separation running perpendicular to the longitudinal axis and are removably connected to each other. The wall ring according to the invention consists of plastic, so that only the inner cavity and the double wall as well as the used material (plastic) of the wall ring according to the invention, already reduces the formation of ice on the inner side of the wall ring even without the use of a heating element, since the air space located in the interior as well as the outer wall serve as insulation against the environment. Additionally, the configuration according to the invention makes it possible to embed a heating strip in the cavity formed between the outer wall and the inner wall, the heating strip being in contact with the inner wall of the annular wall. Advantageously, the cavity formed between the outer wall and the inner wall with its cavity volume is dimensioned in such a way that this cavity volume is at least twice the volume of the advantageously used heating band, which serves as electric resistance heating . With this, an optimal insulation effect is caused outwards. By virtue of the configuration of the wall ring according to the invention from two partial bodies, which are inserted one in the other in the axial direction, that is to say in the direction of the longitudinal axis, and are connected to each other, in particular bolted, it is simple retrofitting of the wall ring according to the invention with a heating element is possible.

Other advantageous embodiments of the invention are contained in the subclaims and are explained in more detail by means of the exemplary embodiment shown in the accompanying drawings. They show:

fig. 1 a perspective view of a wall ring according to the invention with axial fan installed, in the direction of its inlet opening,

fig. 2 an exploded view of the wall ring according to the invention according to fig. 1, fig. 3 a section along the MI-MI cut line in FIG. one,

fig. 4 a perspective view of the wall ring according to the invention according to fig. 1, in the direction of its exit opening, in the unmounted state of its partial bodies.

In figs. 1 to 4, identical parts or parts with the same function are always characterized with the same references.

As shown in the figures, a wall ring according to the invention consists of an annular body 1 with a central longitudinal axis XX, with a flow inlet opening 2 and a flow outlet opening 3. The annular body 1 according to the invention has, between the two openings 2, 3, an annular wall 4, which has a circular cross section perpendicular to the central longitudinal axis XX. In the exemplary embodiment shown, an axial fan 6 is located within the wall ring according to the invention. It consists of an electric motor 7, centrally disposed on the central longitudinal axis XX, to which a vane wheel 8 is connected. with fan blades 9.

According to the invention, the annular wall 4 comprises an outer wall 11 and an inner wall 12, which enclose a cavity 13 between them.

As can be especially recognized by FIGS. 2 and 3, the annular body 1 according to the invention is subdivided, by a separation perpendicularly to the central longitudinal axis XX, into two partial bodies 14, 16, namely a partial body 14, comprising the inlet flow opening 2, and a partial body 16, comprising the flow outlet opening 3. These two partial bodies 14, 16, because of the separation perpendicular to the longitudinal axis XX, can be fitted to one another and move axially separating. The annular body 1 according to the invention consists of plastic. Due to the configuration of the cavity in the annular wall 4 and the use of the plastic material, the annular body 1 according to the invention already acts in a thermally insulating manner, as, on the one hand, a condensation and frosting on a plastic surface it is smaller than on a metal surface and, on the other hand, the cavity 13 acts thermally insulating. As can be recognized in particular by fig. 3, the outer wall 11 and the inner wall 12 of the two partial bodies 14, 16 in their outer wall sections 17, 18 as well as their inner wall sections 19, 21 have, at their ends that meet as a stop one with another, respectively complementary staggered profiles 22, 23, so that an overlap occurs in the area of the stepped profiles 22, 23. Thus, a sealing is realized between the outer wall sections 17, 18 and the inner wall sections 19, 21 in the area of their ends that meet in stop with each other, as well as a fixation of mutual position. The outer wall sections 17, 18 and the inner wall sections 19, 21 of the partial bodies 14, 16 each have different lengths, so that the outer wall sections 17, 18 have different lengths, and the inner wall sections 19 , 21 also have different lengths, namely in such a way that a longer outer wall section 17 is opposite a shorter inner wall section 19, and a shorter outer wall section 18 is opposite a section of interior wall 21 longer. As can be recognized by fig. 3, according to the invention, it is convenient if the inner wall 12 is convexly curved, so that a flow profile is present, being configured, at the apex of the course of curvature, a very small slope of the curve of curvature in the two sides of the vertex. Conveniently, the outer wall 11 is produced as a flat wall profile running parallel to the longitudinal axis X-X. As can also be recognized by FIGS. 2, 3 and 4, an electric heating element 24 is arranged inside the cavity 13, which is configured as a heating strip in the illustrated embodiment, being conveniently a heating element by electrical resistance. The electric heating element 24 is arranged in such a way that it is in contact with the inner wall 12 on its inner side facing the cavity 13.

Advantageously, in the transition area between the outer wall section 17 and the inner wall section 19, and in particular also between the outer wall section 18 and the inner wall section 21, ie, at least one of the partial bodies 14, 16, advantageously in the two partial bodies 14, 16, fastening pins 26 are arranged circumferentially arranged, which run axially parallel to the longitudinal axis XX, enclosing, with the respective inner wall section 19, 21, a gap whose gap width is greater than / equal to the thickness of the heating element 24 to be inserted. In this sense, the fastening pins 26 of the two bodies 14, 16 are displaced circumferentially against each other in the assembled state of the two bodies 14, 16, and their length is conveniently greater than the width of an element. of heating 24 in particular in the form of a band. For assembly, the heating element 24 in the form of a band is pushed under the fastening pins 26 and fixed axially and circumferentially by them. For this, it is particularly advantageous if the fixing pivots 26 overlap the heating element 24 on both sides at their longitudinal edges running circumferentially.

Advantageously, the two partial bodies 14, 16 are removably connected to each other by several screws 27 disposed circumferentially, which run axially in the direction of the longitudinal axis X-X. According to the invention, furthermore, it is advantageous if, in one of the partial bodies 14, 16, in the present exemplary embodiment, in the partial body 14 comprising the flow inlet opening 2, a mounting flange is circumferentially molded. 28. This mounting flange 28 is formed from an edge web projecting radially with respect to the longitudinal axis XX. In this mounting flange, there are preferably four fastening lugs 29 arranged in a uniformly distributed manner around the perimeter, which have holes for passing corresponding fastening elements. The electric motor 7 is held by a preferably flat wire protection grid 31, in particular made of metal, the wire guard grid 31 being fixed by struts 32 to the partial body 14 at the perimeter of the flow inlet opening two.

In the illustrated exemplary embodiment, between two locking lugs 29 a rectangular housing 33 is formed in the annular body 1, which consists of two housing sections 34, 35, the one housing section 34 being molded in the partial body 14 and the other housing section 35 being molded in the partial body 16.

The housing 33 has a side wall section running parallel to a tangent in the flow inlet opening 2 or in the flow outlet opening 3, which is connected to the respective partial body 14, 16 through wall sections. that run perpendicular to them. The electrical connection line 37 of the electric motor 7 is guided through the casing 33 on the one hand from the partial body 14 or the casing section 34 outwards, namely through perforations in the partial body 16 or the housing section 35, namely preferably parallel to the longitudinal axis XX, which is first guided along the protective grid 31, and, on the other hand, the housing 33 serves to contact the electric heating element 24 with an electrical supply line 38, which it is inserted into the housing 33 parallel to the longitudinal axis XX. The housing 33 is closed by means of screw elements, which are screwed in from its rear side, that is, from the side of the flow outlet opening 3. The screws of the fixing screws 27 are screwed in the same way.

According to the invention, furthermore, it can be advantageous if, in the center of the protective grid 31, a hinged cover 39 is fixed on the electric motor 7 through an opening of the protective grid 31, which serves as protection against the jets of water during a cleaning. This cover 39 is detachably fixed preferably by in particular a locking connection.

The two-piece wall ring according to the invention, made of plastic and with an integrated hollow chamber, reduces the tendency for freezing in the case of fans that are installed in refrigerating and evaporating devices, reduces the heat input in the heat exchanger. heat, and, by the heating element 24 that can also be inserted later, freezing is avoided. Furthermore, the metal protection grid 31 according to the invention which is not arched, that is to say flat, can be cleaned mechanically in a simple manner in the event that freezing occurs. The object of the invention is defined by the following claims.

List of references

1 Annular body

2 Flow inlet opening

3 Flow exit opening

4 Ring wall

6 Axial fan

7 Electric motor

8 Paddle wheel

9 Fan blade

11 Exterior wall

12 Interior wall

13 Cavity

14 Partial body

16 Partial body

17 External wall section

18 External wall section

19 Interior wall section

21 Interior wall section

22 Stepped profile

23 Stepped profile

24 Heating element

26 Fixation pivot

27 Fixing screws

28 Mounting flange

29 Fixing ear

31 Wire protection grid

32 Props

33 Housing

34 Housing section

35 Housing section

37 Electrical connection line

38 Supply line

39 Flip-up cover

X-X Central longitudinal axis

Claims (15)

Wall ring for accommodating an axial fan (6), comprising an annular body (1) with an electric heating element (24) and with a flow inlet opening (2) and an exhaust opening of flow (3) and with a central longitudinal axis XX as well as an annular wall (4) running between the two openings (2, 3), characterized because the annular wall (4) has a cavity (13) enclosed by an outer wall (11) and an inner wall (12), in which the electric heating element (24) can be fixed at least through a partial area of the perimeter of the annular wall (4), as well as in that the annular body (1) consists of at least two partial bodies (14, 16), which are formed by a separation of the annular body (1) in a plane of separation that runs through perpendicular to its longitudinal axis (XX) and are joined together in a removable manner. Wall ring according to claim 1, characterized in that the outer wall sections (17, 18) and the inner wall sections (19, 21) of the two partial bodies (14, 16) have, at their ends, that they join, in stop, with each other, staggered profiles (22, 23) complementary in each case, so that an overlap occurs in the area of the stepped profiles (22, 23). Wall ring according to claim 2, characterized in that the outer wall sections (17, 18) of each other and the inner wall sections (19, 21) of the two partial bodies (14, 16) of each have different lengths . Wall ring according to one of claims 1 to 3, characterized in that the inner wall (12) is designed as a flow profile in the form of a convex curve. Wall ring according to one of claims 1 to 4, characterized in that the outer wall (11) is a flat wall profile running parallel to the longitudinal axis (XX). Wall ring according to one of claims 1 to 5, characterized in that , in the transition area between the outer wall sections (17, 18) and the corresponding inner wall sections (19, 21) of at least one of the partial bodies (14, 16), advantageously the two partial bodies (14, 16), are configured fixing pivots (26) arranged circumferentially, which run axially parallel to the longitudinal axis (XX), which enclose, with the section of opposite inner wall (19, 21), a gap whose interstice width is greater than / equal to the thickness of the heating element to be inserted, in particular a band-shaped heating element (24). Wall ring according to claim 6, characterized in that the fixing pins (26) of the two partial bodies (14, 16) are displaced circumferentially against each other in the assembled state, and their length is greater than the width of a heating element in the form of a band (24) mounted. Wall ring according to one of claims 1 to 7, characterized in that the two partial bodies (14, 16) are detachably connected to each other by several screws (27) disposed circumferentially, running axially in the direction of the longitudinal axis ( XX). 9. Wall ring according to one of claims 1 to 8, characterized in that the annular body (1) is made of plastic. Wall ring according to one of claims 1 to 9, characterized in that the flow inlet opening (2) is covered by a wire protection grid (31). 11. Wall ring according to claim 10, characterized in that the wire protection grid (31) has struts (32) that run axially, which are joined, at their radially inner ends, to a motor support and, with their ends radially outer, to the corresponding partial body (14). Wall ring according to claim 11, characterized in that a collapsible lid (39) for the electric motor (7) is removably attached to the center of the protective grid (31). Wall ring according to one of claims 1 to 12, characterized in that in one of the partial bodies (14, 16) and, in particular, in the partial body (14) having the flow inlet opening (2) , a circumferential mounting flange (28) protruding radially is configured. Wall ring according to claim 13, characterized in that fastening lugs (29) are molded on the mounting flange (28). Wall ring according to one of Claims 10 to 14, characterized in that the connection line (37) is guided along the protective grid (31) and led to one of the partial bodies (14, 16) and is conducted outwards in axial direction through perforations by another of the partial bodies (14, 16).