US3092705A

US3092705A - Bushing construction in air heating device

Info

Publication number: US3092705A
Application number: US162100A
Authority: US
Inventors: Jr Wilford J Roussan; Osterman Milton
Original assignee: Ind Engineering & Equipment Co
Current assignee: Ind Engineering & Equipment Co; Industrial Engineering & Equipment Co
Priority date: 1961-12-26
Filing date: 1961-12-26
Publication date: 1963-06-04
Anticipated expiration: 1980-06-04

Description

June 4, 1963 w. J. ROUSSAN, JR, ETAL 3,092,705

BUSHING CONSTRUCTION IN AIR HEATING DEVICE Filed Dec. 26, 1961 FIG. 1.

a m F INVENTORS WILFORD J. ROUSSAN, JR. (sing MILTON OSTERMAN ATTORNEY United States Patent 3,092,705 BUSHING CONSTRUCTION IN AIR HEATING DEVICE Wilford J. Roussan, Jr., and Milton Osterman, St. Louis, Mo., assignors to Industrial Engineering &-Equipment Co., St. Louis, Mo., a corporation of Missouri Filed Dec. 26, 1961, Ser. No. 162,100 3 Claims. (Cl. 219-19) This invention relates generally to improvements in an air heating device of an electrical resistance type sometimes referred to as a blast coil space heater, and more particularly relates to an improved means for mounting and insulating the heating coils in the frame structure of the unit. 1 An important object of the present invention is to provide an improved assembly of the mounting bracket panels and insulator bushings for the coil elements of electric heaters.

More specifically, it is an important objective to provide a relatively simple and inexpensive means for mounting insulator bushings, preferably made of porcelain or 3,092,705 Patented June 4, 1963 vantages of the invention will more clearly appear from the following detailed description of a preferred embodiment, particularly when considered in connection with the accompanying drawing, in which:

FIG. 1 is a side elevational view of the bushing mountlava material, in a metal bracket panel, such that the I bushings will be retained with their axes in substantial parallelism. I

Another important object is achieved by the provision of a bus-hing assembly in which the bushings can be easily replaced in case of damage. Jther advantages are realized by the mounting construction for the insulator bushing which lends itself to the installation of the bushings to the metal panels by automatic tooling.

Still another important objective ;is realized by the provision of a metal panel, constituting one otseveral such supports for spans of a resistance coil that extends through regularly spaced openings in such panel. The openings have their marginal portions displaced from the plane of the panel to form sockets-that open towardotne side of the panel and to form embossments on the opposite side. The insulator bushing ismade with an annular intermediate flange or collar thatseats in its associated socketand which is held in place by bendable tabs struck from the metal panel.

Yet another important object is provided by the structural arrangement and formation of the tabs struck out from the panel so that their ends integral with the panel are adjacent the socket while their free ends are reversely bent to overlap the socket and to engage the enlarged portion of the tubular bushing seated in the socket against the displaced marginal portion, whereby to retain the enlarged bushing portion in such socket and to secure the bushing to the panel. A relatively reduced bushing portion extends through the panel opening. To provide a more stable construction, the dimensions of the panel opening and the socket approximate substantially the dimensions respectively of the reduced bushing portion and the larger bushing portion.

Another important object is obtained by the general arrangement of a panel of single thickness in which an opening is formed, the marginal portion of the opening being displaced from the plane of the panel to provide a socket adapted to receive a peripheral flange of a tubular bushing, and of means bent from the panel to overlap the bushing flange to secure the bushing to the panel.

An important object is to provide a bushing mounting that is simple and durable in construction, economical to manufacture and assemble, eflicient in operation, and which is adapted to hold an electrical heating coil in secure, insulated relation to the panel of the frame structure.

The foregoing and numerous other objects and ad- FIG. 2 is an elevational view from the opposite side of FIG. 1, and

FIG. 3 is an enlarged cross sectional view as seen along lines 3--3 of FIG. 2.

Referring now by characters of reference to the drawing, it will be apparentlthat only a section of the bracket panel generally indicated at 10 is illustrated in an air heating device of the type previously mentioned. The frame structure of the unit includes a plurality of bracket panels 10 arranged in laterally spaced parallel relation. As is well-known in a blast coil heater, the electrical resistance coil is carried by the plurality of bracket panels, the coil extending in one direction to bridge the panels 10 and then being reversed to extend in the opposite direction so that the coil provides amultiplicity of regularly spaced parallel coil spans.

, Because this invention relates to the particular mounting of the electrical coil to the bracket panels of the frame structure, and because the mounting to each panel 10 is identical, only a section of a single panel 10 is disclosed in order to emphasize and concentrate on the important features.

The panel 10, preferably formed of a single flat sheet of metal, is provided with a circular opening 11. The marginal portion 12 defining the opening 11 is displaced from the plane of panel 10 toward one side of such panel, as is best illustrated in FIG. 3, so as to provide a cup-like socket 13. The socket 13 is open toward the right hand side of panel 10 as viewed in FIG. 3, while the displaced portion 12 forms an embossment on the opposite side of such panel. The socket 13 is substantially cylindrical in configuration and is relatively shallow in depth.

Struck out from the metal of panel 10 on diametrically opposite sides of the socket 13 are a pair of elongate tabs 14. As will best appear from FIG. 3, one end of each tab 14 is formed integral with panel 10 immediately adjacent the cylindrical wall defining socket 13, while the free end of each tab 14 is reversely bent to overlap the opening of the socket 13 during assembly of the unit which Will be later described in detail.

Carried by the panel 10 is a tubular bushing referred to at 15 and preferably constructed of a porcelain or lava material. The bushing 15 constitutes an insulator between an electrical heating coil 16 and the panel 10, the coil 16 extending through the bore of bushing 15. There is a frictional contact between coil 16 and the tubular bushing 15.

The tubular bushing 15 includes an annular flange 17 constituting a circular collar located intermediate relatively reduced

end portions

20 and 21. When assembled, the end bushing portion 20 extends through the opening 11 defined by depressed marginal portion 12. The annular flange 17 seats in the socket 13 against the marginal portion 12. To provide -a symmetrical construction, substantially one-half of the annular flange extends outwardly of the socket 13. The diameter of annular flange 17 approximates substantially the diameter of socket 13. Furthermore, the diameter of opening 11 approximates substantially the diameter of reduced bushing portion 20.

After the annular flange 17 is seated in the socket 13, the tabs 14 are bent over the flange 17 as is best shown in FIG. 3 to engage the shoulder 22, the tabs 14 holding the flange 17 in socket 13 and securing the bushing 15 to panel 10. The free end of tabs 14 are located close to the outer periphery of the reduced end bushing porl 3 tion 21 to assist in precluding any substantial lateral movement.

When the coil 16 is stretched in spans through a plurality of panels 10, the panels are arranged to face in a direction so that the tensional force applied to coil 16, as is illustrated by the arrow in FIG. 3, will be transmitted through the bushing to the abutment of annular collar 17 with the displaced marginal portion 12. With this structural arrangement, a unit with the greatest strength is realized because there is a greater area over which the tensional load is distributed than if such tensional force were transmitted in the opposite direction and directed against the overlapping tabs 14.

Although the invention has been described by making detailed reference to a single preferred embodiment, such detail is to be understood in an instructive, rather than in any restricted sense, many variants being possible within the scope of the claims hereunto appended.

We claim as our invention:

1. In an air heating device:

(a) a panel provided with an opening, said opening having its marginal portion displaced from the plane of said panel toward one side of said panel to provide a socket,

(b) a tubular bushing including a peripheral flange seated in said socket against said marginal portion, a peripheral dimension of said socket approximating the peripheral dimension of said flange, and

(c) a plurality of tabs struck out from said panel radially outwardly of said socket, the tabs having their ends integral with the panel adjacent the outermost periphery of said socket and having their free ends which are outwardly of the socket periphery reversed to overlap said flange so as to hold the flange in said socket and to secure the bushing to said panel.

2. In an air heating device:

(a) a panel provided with an opening therethrough, said opening having its marginal portion displaced from the plane of the panel toward one side to provide a socket that is open toward the opposite side of said panel,

(b) a tubular bushing including a portion seated in said socket against said marginal portion, and including another portion extending through said panel opening, and

(c) a plurality of tabs extending radially relative to said opening struck out from said panel in a region outwardly of the periphery of said socket, said tabs having their ends integral with the panel adjacent the periphery of said socket and-having their free ends which are outwardly of the socket periphery reversed to overlap the socket opening and to engage said bushing portion seated in said socket, said tabs holding the last said bushing portion in said socket and securing the bushing to said panel.

3. In an air heating device:

(a) a panel provided with an opening theret-hrough defined by an uninterrupted marginal portion, said opening having its marginal portion displaced :from the plane of. said panel toward one side of said panel to provide a socket that opens toward the opposite side of said panel,

(b) a tubular bushing including a relatively enlarged collar located between the ends of said bushing, said collar being seated in said socket against said marginal portion,

(0) the bushing having one end extending through said panel opening, substantially one-half of said collar extending outwardly of said socket,

(d) a plurality of tabs extending radially relative to said opening struck out from said panel in a region outwardly of the periphery of said socket, said tabs having their ends integral with the panel located adjacent the periphery of said socket and having their free ends which are located outwardly of the socket periphery reversed to overlap the socket opening and to engage said collar so as to hold the collar in said socket and to secure the bushing to said panel, and

(e) a heating coil extending through and frictionally engaging said bushing, the panel being disposed so that the tensional force applied to coil in one direction will be transmitted to the depressed uninterrupted marginal portion of the panel by said bushmg.

References Cited in the file of this patent UNITED STATES PATENTS 1,628,858 Shawk May 17, 1927 1,809,864 Pearson June 16, 1931 1,813,767 Reichant July 7, 1931 2,180,600 Mills Nov. 21, 1939 2,352,126 Schmitt June 20, 1944 2,457,608 Shatter Dec. 28, 1948 2,478,808 Deal Aug. 9, 1949 2,680,840 ONeill June 8, 1954 2,921,172 Hackman Jan. 12, 1960

Claims

1. IN AN AIR HEATING DEVICE: (A) A PANEL PROVIDED WITH AN OPENING, SAID OPENING HAVING ITS MARGINAL PORTION DISPLACED FROM THE PLANE OF SAID PANEL TOWARD ONE SIDE OF SAID PANEL TO PROVIDE A SOCKET, (B) A TUBULAR BUSHING INCLUDING A PERIPHERAL FLANGE SEATED IN SAID SOCKET AGAINST SAID MARGINAL PORTION, A PERIPHERAL DIMENSION OF SAID SOCKER APPROXIMATING THE PERIPHERAL DIMENSION OF SAID FLANGE, AND (C) A PLURALITY OF TABS STRUCK OUT FROM SAID PANEL RADIALLY OUTWARDLY OF SAID SOCKET, THE TABS HAVING THEIR ENDS INTEGRAL WITH THE PANEL ADJACENT THE OUTERMOST PERIPHERY OF SAID SOCKET AND HAVING THEIR FREE ENDS WHICH ARE OUTWARDLY OF THE SOCKET PERIPHERY REVERSED TO OVERLAP SAID FLANGE SO AS TO HOLD THE FLANGE IN SAID SOCKET AND TO SECURE THE BUSHING TO SAID PANEL.