Fireplace shield

A fireplace shield or screen is provided that includes a movable member made of a suitable material such as asbestos fiber material that is flame resistant. The fabric shield can be mounted by frame pieces in proper position relative to the fireplace opening. The fireplace shield of the present invention will seal the fireplace opening, act as a fireproof curtain, and resist air pressure differential forces.

BACKGROUND OF THE INVENTION 
1. Field of the Invention 
The present invention relates to an adjustable fireplace screen or shield 
wherein the shield functions as an energy saver by minimizing the draft or 
air flow at the fireplace opening once the fire has gone out so as to 
permit the flu to remain open while the embers are dying. This arrangement 
permits the effective use of the fireplace to heat the residence without 
encountering excessive heat loss and additional burden on the residence 
furnace as is presently experienced as room heat is drawn up the chimney. 
In addition, the fireplace screen or shield of the present invention 
features universal mounting capability since the home owner or installer 
does not need any complex tools. Further no holes are required in the 
fireplace masonry, inasmuch as the unique construction of the frame 
permits the user to custom cut the frame to fit and then use compression 
fittings to provide or achieve a secure installation. 
A frame is mounted in the fireplace opening by compression fittings. A fire 
resistant shield is provided that can be lowered within the frame in order 
to completely occlude the fireplace opening. 
2. Summary of the Invention 
A fireplace screen or shield is provided that in one form of the invention 
includes a folding fireplace curtain or shield that can be conveniently 
raised by manual pressure, or, when desired, the shield can be permitted 
to hang down in closed position. In another form of the invention, a 
roller type construction or mounting is provided for an asbestos fiber 
curtain whereby the fireplace opening can be selectively opened or closed 
as desired or required. 
The present invention also includes a removable model. 
There is further provided other important features such as a means for 
preventing the fabric shield from being drawn inward so as to minimize the 
air space opening at the side walls. A suitable face plate can be added to 
complete the installation, and certain of the parts can be utilized to 
form a rigid frame inside the fireplace. 
The present invention relates to an adjustable fireplace screen or shield 
wherein the shield's primary function is an energy saver and wherein it 
minimizes the loss of warm air from a room after the fire has died down. 
This is the time when the fire no longer heats the room and the flu must 
remain open. This arrangement permits the effective use of the fireplace 
to heat the residence without encountering excessive heat loss, an 
additional burden on the residence furnace, as is presently experienced as 
room heat is drawn up the chimney. 
A secondary function of this shield is as a safety device for homes, 
commercial businesses such as restaurants, ski lodges, clubs and the like, 
where the shield can be used to control a runaway fire or to prevent 
downdrafts from blowing glowing embers out into a room. While shields and 
screens for fireplaces have previously been provided, none of the prior 
devices has a perimeter frame to close off air leaks, or a brace 
reinforced shield to resist the stress of air pressure differential 
between the room interior and the outside. The present invention also is 
directed to a portable folding fireplace shield which embodies the same 
functional features in a low cost removable version. 
The primary object of the present invention is to provide a fireplace 
screen or shield that functions as an energy saver by minimizing the draft 
at the fireplace opening after the fire has gone out. At this time the flu 
must remain open while the embers are dying and large amounts of room heat 
would ordinarily be lost up the chimney. 
Still another object of the present invention is to provide an adjustable 
fireplace screen that is ruggedly constructed and efficient to use and 
which is relatively simple and inexpensive to manufacture and install. 
Another object of the present invention is to provide a fireplace screen or 
shield that has improved characteristics and advantages as compared to 
previous fireplace screens. 
Other objects and advantages of the present invention will become apparent 
in the following specification when considered in the light of the 
attached drawings.

DESCRIPTION OF THE PREFERRED EMBODIMENT 
Referring in detail to the drawings, and more particularly to FIGS. 1 
through 6 of the drawings, the numeral 20 indicates the fireplace shield 
or screen of the present invention that is adapted to be mounted in a 
conventional fireplace that is indicated by the numeral 21, FIG. 1, and 
the fireplace 21 is defined by confronting side walls 22 as well as a top 
wall 23 and a base portion 24. The numeral 25 indicates the fireplace 
opening, FIG. 2. There is provided a frame that is indicated generally by 
the numeral 26, and the frame 26 includes a pair of spaced parallel 
vertically disposed side angles 27 that are mounted within the side walls 
22. Lower compression fittings 28 are connected to the lower ends of the 
side angles 27, and each of the fittings 28 includes an L-shaped bracket 
19 that is threaded and has a screw member 29 extended therethrough, and a 
fastener 30 is threadedly connected to the end of the screw member 29. 
L-shaped brackets or top pieces 31 are connected to or formed integral with 
the upper ends of the side angles 27. The numeral 32 indicates a 
horizontally disposed top angle that extends between the upper ends of the 
side angles 27 and is secured thereto. A horizontally disposed shield 
support angle 33 is mounted below the top angle 32 and is secured in place 
as shown in the drawings. There is further provided a horizontally 
disposed bottom angle 34 that extends between the lower ends of the side 
angles 27 and is secured thereto. A horizontally disposed face plate 35 
extends between the top sections 31 and is secured thereto by securing 
elements 36. There is further provided upper compression fittings 37 that 
each include L-shaped brackets 38 that have screw members 39 arranged in 
engagement therewith. 
A plurality of rollers 40 are suitably mounted in place by means of 
brackets 41, and chains 42 are trained over the rollers 40, and a finger 
piece 43 is connected to the chains 42. A keeper 44 is affixed to the 
lower portion of one of the side angles 27 for selective engagement by the 
hook or finger piece 43. 
There is further provided a foldable asbestos fiber fireplace shield or 
curtain 45 that has a plurality of horizontally disposed spaced parallel 
steel reinforcing rods 46 connected thereto, and guide member 47 are 
connected to the rods 46 for the projection therethrough of portions of 
the chains 42. The lower ends of the chains 42 are secured to the lower 
portion of the screen 45 as at 48, FIG. 6. 
Referring now to FIGS. 7 through 10 of the drawings, there is illustrated a 
modified or alternative fireplace screen that is indicated generally by 
the numeral 49. The screen 49 is adapted to be used with a fireplace of a 
type that includes a top portion 50 as well as side portions 51 and a base 
portion 52. As shown in the drawings, the fireplace screen 49 includes a 
pair of vertically disposed side members 53 that have widened top portions 
54 thereon, and a case 55 extends between the top portions 54 and is 
suitably secured thereto. The case 55 includes a top section 56 as well as 
a back section 57, and the top section 56 is recessed as at 58 whereby 
suitable securing elements or fasteners 59 can be extended through 
openings in the top section 56 and into engagement with corresponding 
openings or apertures in L-shaped roll mounting plates 60. 
The top section 56 of the case 55 has a plurality of pre-punched spaced 
holes, as indicated by the numeral 15 in FIG. 10. The mounting plates 60 
have spaced apart slots 16 therein. 
A rod 61 has an asbestos cloth curtain 62 rolled thereon. The curtain 62 
has reinforcing rods 17 thereon similar to the reinforcing rods shown in 
the first described version of the present invention. A hinged flap 63 is 
mounted above the asbestos roll 62 and the flap 63 may be hingedly 
supported by means of clips 64. The flap 63 is important because it closes 
off the opening above the roller. Wire takeup spools 65 are mounted on the 
ends of the rod 61, and wires 66 are arranged in engagement with the 
spools 65 and the wires 66 have counterweights 67 connected thereto, as 
shown in FIGS. 8, 9 and 10. 
A face panel or plate 68 is adapted to be secured in place by means of 
securing elements 69. The numeral 70 indicates lower compression fittings 
for anchoring the unit vertically, and the fittings 70 include screw 
members 71 that are adapted to have fasteners 72 arranged in engagement 
therewith. The fittings 70 are provided with hook portions 73 for 
selective engagement with the projecting ends of a rod 74 that is mounted 
on the lower or free end of the asbestos curtain 62. The numeral 75 
indicates a finger engaging portion that is adapted to be used for 
facilitating the manual movement of the curtain or shield 62. The numeral 
76 indicates upper compression fittings that anchor the unit horizontally, 
FIG. 10, and the upper fittings 76 include adjustable screw members 77. As 
shown in FIG. 7, a grate of conventional construction can be provided for 
the fireplace. 
From the foregoing, it will be seen that there has been provided a 
fireplace screen or shield, and in use with the parts arranged as shown in 
FIGS. 1 through 6, for example, it will be seen that when the parts are in 
the position of FIG. 1, the asbestos curtain or shield 45 is in closed 
position so that various advantages are provided as, for example, heat 
loss from the room in which the fireplace is located will be prevented. 
FIG. 2 also illustrates the shield in closed position. When it is desired 
to open or raise the screen 45, it is only necessary to manually grip the 
portion or member 43 with the fingers as shown in FIG. 5 and pull 
downwardly on the member 43 whereby the chains 42 that extend over the 
rollers 40 will raise the screen 45 to an open position as shown in FIG. 
5, and the hook 43 can be arranged in engagement with a member such as the 
lug 44 whereby the screen 45 can be maintained in its raised or open 
position. 
When using the device shown in FIGS. 7 through 10, the device can be 
mounted in a conventional fireplace as shown in the drawings and when it 
is desired to move the screen 62, it is only necessary to grip a portion 
such as the portion 75 whereby the roll of material 62 on the rod 61 can 
be adjusted to the desired position. Hooks such as the hooks 73 are 
adapted to receive the projecting portions 74 of the rod in the lower end 
of the screen 62, whereby the screen can be conveniently maintained in its 
closed position. 
The parts can be made of any suitable material and in different shapes or 
sizes as desired or required. 
With further reference to the construction shown in FIGS. 1 through 6, the 
numeral 37 indicates the upper compression fittings, and there is provided 
the side angles 27 as well as the top angle 32 and the shield support 
angle 33. The bead chains 42 are connected to the asbestos fiber 45, and 
the steel reinforcing rods 46 are suitably affixed to the asbestos fiber 
45. There is further provided the lower compression fittings 28 as well as 
the bottom angle 34. The parts 27, 32 and 34 form a rigid frame inside the 
fireplace. The part 33 with the asbestos member 45 already attached is 
added to the frame. The frame plate 35 is then added to complete the 
installation so that in FIGS. 1 through 6 there is provided a folding 
fireplace shield. 
The primary function of the shield is as an energy saver, to minimize the 
draft or air flow at the fireplace opening once the fire has died down, 
since the flu must remain open while the embers are dying. This permits 
the effective use of the fireplace to heat the residence without 
encountering excessive heat loss, and additional burden on the residence 
furnace, as is presently experienced as room heat is drawn up the chimney. 
The present invention provides universal mounting capability and the 
homeowner or installer meeds only a hacksaw, scissors, drill and 
screwdriver. Further, the present invention is such that the homeowner or 
installer needs no complicated tools, and the manufacturer can make 
standard sizes to fit all types of constructions. There are no holes 
required in the fireplace masonry, as the unique design of the frame 
allows the user to custom cut the frame to fit, and then using the 
compression fittings provided achieve a secure installation. The fabric of 
the shield is a special tightly woven asbestos fiber material or the like 
designed to resist open flame and very high temperatures. Once mounted, in 
the present construction, the fabric shield when pulled into position is 
guided inside the vertical side frames, as shown in FIGS. 7 through 10, 
which support the fabric so that it will not be drawn inward, and this 
minimizes the air space opening at the side walls. Another feature of the 
design of FIGS. 7 through 10 is the hinged flap 63 along the top of the 
fabric roll 62, and the flap 63 falls by gravity and serves to close off 
the air gap which results as the fabric is pulled down into place. 
The construction of FIGS. 7 through 10 utilizes a simple counterbalance 
principle and works efficiently. It is necessary by virtue of the 
application to keep the mechanics straight forward, as the high 
temperatures can result in continuous expansion and contraction of 
materials. The economics of design and manufacture are paramount, and the 
product has a construction so that it is not expensive to manufacture or 
sell. 
The construction such as that shown in FIGS. 1 through 6 features a 
universal mounting frame wherein the simple frame including parts such as 
the parts 27, 32 and 34 are first installed, and then the mechanical 
components such as the parts 33 and 45 are attached thereto as by means of 
wing nuts and the like, and this subassembly helps to simplify 
installation and minimizes human error. 
Asbestos fabric 45 is used in FIGS. 1 through 6 and similarly, asbestos 
material 62 is used in FIGS. 7 through 10. 
With the folding action of FIGS. 1 through 6, it is possible to secure the 
fabric firmly at the top to seal off any air flow. When the screen drops 
down, it lays flat against the side and bottom frames effectively cutting 
off any air flow into the fireplace and up the chimney. The steel 
reinforcing rods 46 stop the fabric from being sucked in by the draft, 
which is considerable, and also serve as guides for the bead chain which 
produces the folding action. The important point of the fireplace shield 
is to seal off the air flow. 
Considering further the construction of FIGS. 7 through 10, the metal case 
55 and screen can be cut to the desired width. The hinged flap 63 closes 
the gap as the roll 52 unwinds. The upper compression fittings 76 anchor 
the unit horizontally. The numeral 65 indicates wire takeup spools. The 
vertical members 53 can be cut off at the desired height. The lower 
compression fittings 70 anchor the unit vertically. The face panel 68 is 
removable from the front of the fireplace for ease of access. The cloth 
asbestos fiber such as the fiber member 62 is flame resistant. The 
counterweights 67 on each side wind up the screen, so that in FIGS. 7 
through 10 there is provided an adjustable fireplace screen. 
The device can be made to fit fireplaces or hearths of different sizes or 
shapes. 
With further reference to the device shown in FIGS. 7 through 10, after 
cutting the vertical side pieces to the proper length, the lower 
compression fittings 70 are slipped into place, and the side frames are 
secured in position by turning out the threaded bolts 71 until adequate 
holding pressure is achieved. Similarly, after cutting the horizontal top 
frame to the proper length, the upper compression fittings 76 are slipped 
into place, and the top frame is secured in position by turning out the 
threaded bolts 77 until adequate holding pressure is provided. The final 
installation step for the device of FIGS. 7 through 10 is to cut the face 
panel to length, drill one hole at each end through the face panel and 
side frame, then secure the face panel with sheet metal screws or the 
like. The face panel can be readily removed from the front of the 
fireplace for ease of access to the roll mechanism. 
In the arrangement shown in FIGS. 1 through 6, the screen folds up in 
accordion-like fashion. In FIGS. 7 through 10, a rolling action is 
provided for the asbestos screen. 
Referring now to FIGS. 11, 12 and 13 of the drawings, there is illustrated 
a modified or alternative form of the invention which is in the form of a 
portable folding fire shield, as indicated generally by the numeral 85, 
and the unit 85 comprises a frame 86 that includes sides 87 that consist 
of similar sections 88 that are hingedly connected together as at 89. The 
frame 86 further includes a top and bottom section 90 and 91, as well as 
an asbestos fabric shield 92. The portable folding fire shield 85 of FIGS. 
11 through 13 further includes handles 93 that have handle pins 94 
connected thereto. Magnets 95 are secured to face bricks of the fireplace 
97 by means of a fastener, epoxy adhesive or the like. Openings 96 are 
provided in the side portions of the frame for selectively receiving the 
latch pins or handle pins 94, as shown in FIG. 12, when the device is to 
be maintained in a certain position such as its open or extended position. 
Pivot hinges 99 are arranged as shown at the corners of the frame so as to 
permit the parts to move from a position such as that shown in FIG. 11 to 
a position such as that shown in FIG. 13. In FIG. 13, the numeral 100 
indicates a handy or convenient heavy-duty storage tube for supporting the 
device when the device is in folded position and when the device or unit 
is not being used. 
Thus, as shown in FIGS. 11, 12 and 13, there is illustrated a portable 
folding fire shield wherein the unit folds for storage as illustrated in 
FIG. 13, when the unit is not being used. In FIG. 11, the deep frame 86 is 
provided to fit over the front mounted mesh screens which may be on some 
existing fireplaces. The unit is maintained in the open position by 
engaging the handle pins 94 in the openings 96 in the frame, or by 
utilizing a secondary mechanical latch. Thus, the portable folding fire 
shield 85 FIGS. 11 through 13 embodies the same performance features, 
namely, sealing the fireplace opening and acting as a fireproof curtain, 
resisting air pressure differentials. 
With further reference to the folding unit shown in FIGS. 11, 12 and 13, 
the unit can be mounted in place by magnets that can be connected to a 
wall, or suitable folding legs can be used to stabilize the unit in a 
manner similar to supports that are used for easles or the like, so that 
basically a means is provided for supporting the device against a wall and 
such a support means may include small legs and the like. 
The unit 85 consists of a thick frame 86 that has a piece of asbestos 
material 92 that may be suitably affixed to the frame, and magents such as 
the magnets 95 serve to selectively hold the unit against the wall whereby 
the fireplace can be blocked off in the desired manner. 
In FIG. 10, the numeral 14 indicates an angle that is adapted to be 
arranged in the lower portion of that particular construction. 
In summary, the present invention possesses certain important advantages or 
features, the essence thereof being that it seals the fireplace opening, 
acts as a fireproof curtain, and resists air pressure differential forces. 
These results are accomplished by mounting a frame in the fireplace 
opening by compression fittings and providing a fire resistant shield 
which can be lowered within the frame in order to completely occlude the 
fireplace opening. The invention relates to an adjustable fireplace screen 
or shield the primary function of which is, as an energy saver, that it 
minimizes the loss of warm air from a room after the fire has died down. 
This is the time when the fire no longer heats the room and the flu must 
remain open. The present invention permits the effective use of the 
fireplace to heat the residence without encountering excessive heat loss 
and additional burden on the residence furnace as is presently experienced 
as room heat is drawn up the chimney. The secondary function of the shield 
is as a safety device for home and commercial businesses such as 
restaurants, ski lodges, clubs, etc. where the shield can be used to 
control a runaway fire or to prevent downdrafts from blowing glowing 
embers out into a room. 
Additional embodiments of the invention in this apecification will occur to 
others and, therefore, it is intended that the scope of the invention be 
limited only by the appended claims and not by the embodiments described 
hereinabove. Accordingly, reference should be made to the following claims 
in determining the full scope of the invention.