US2068180A

US2068180A - Insulating material and method of applying and sealing the same

Info

Publication number: US2068180A
Application number: US46319A
Authority: US
Inventors: William H Horsman
Original assignee: Individual
Current assignee: Individual
Priority date: 1935-10-23
Filing date: 1935-10-23
Publication date: 1937-01-19
Anticipated expiration: 1954-01-19

Description

Jan. 19, 1937. W HORSMAN 2,068,180 INSULATING MATERIAL AND METHOD 0F APPLYING AND SEALING THE `SAME Filed Oct. 23, 1935 INVENTOR.

ATTORNEY.

Patented Jan. 19, 1937 UNITED STATES e PATENT OFFICE INSULATING MATERIAL AND METHOD F APPLYING AND SEALING .THE SAME 4 Claims.

This invention relates to an insulating material especially intended as a covering and insulation. for pipes used in cooling and refrigerating plants, and particularly to the method of preparing the material and for applying and sealing the same.

Pipe lines carrying low temperature iluids, such as ice water, brine, ammonia, etc., must be covered with an insulating medium which will l0 exclude both heat, air and moisture if anything approaching efficiency is to be maintained. A number of excellent insulating materials are available for this purpose but most of them have proven ineiicient because of the methods eml5 ployed in applying and sealing the material, or because of poor or careless workmanship. The purpose of the present invention is first of all to provide an insulating material which may readily be covered and sealed to exclude heat, air zo and moisture; secondly, to provide an insulating material which may be prepared and formed prior to application to a pipe line so that it may be quickly and readily applied and in such a manner that good workmanship will be insured;

and, further, to provide an insulating material which is applied in sectional lengths and said sections forming a series of air andv moistureproof cells around and lengthwise of the pipe to be covered.

lo The invention is shown by way of illustration in the accompanying drawing, in which- Fig. 1 is a longitudinal section of a pipe line showing the manner in which the insulating material is applied thereto;

Fig. 2 is a perspective view of a prepared section of insulating material ready for application to the pipe line;

Fig. 3 is a perspective view of a packing ring;

Fig. 4 is a perspective view of a tape to assist 0 in sealing joints between adjacent sections of insulating material;

Fig. 5 is a perspective :view showing a section of insulating material prepared and formed to cover a curved pipe;

5 Fig. 6 is a central sectional view showing an insulating covering formed and prepared for application to a T-shaped pipe fitting.

Referring to the drawing in detail, and particularly Fig. 2, A'indicates a section of water- D proof roong felt, or similar material, to the inner surface of which is secured by means of asphalt paint, or a like cementtious material, a section B of hair felt. The two .sections are split longitudinally along one side from end to end, as indicated at 2, to permit opening up or splitting apart of the section when applying it to a pipe line.

The roofing felt forms a water or moistureproof. covering for the hair felt and is provided with a longitudinally extending overlapping a'p 3 and with an extended end 4, the purpose of which will hereinafter be described.

The insulating material is prepared in straight sections, as shown in Fig. 2, of suitable length Where straight pipe lines are to be covered. Where bends or curves are encountered the insulating material isshaped accordingly, as shown in Fig. 5. Where fittings, such as a T, are to be covered insulating material in several layers is assembled, as shown in Fig. 6; also, it is made in two halves and placed on opposite sides of the joint so as to completely enclose the same. The method of shaping and assembling the several layers of insulating materials for other f1ttings, such as crosses, elbows, pipe hangers, Valves, etc., will be the same.

In actual practice the manner of applying and sealing the insulating material will be as follows. If a straight pipe is to be covered, proper sections of material, such as shown in Fig. 2, will be employed. A section of this character will be grasped on oppositen sides of the split 2 and opened up sufficiently to permit it to be applied to the pipe, or prior to placing thereon, asphalt or a suitable water-proof cement is applied to 1 the flap 3 and this is folded over the longitudinal split 2 and sealed, a stencil line 3a being provided on the cover A to which the ap is folded so as to maintain uniformity in size, after which cord or twine is wound tightly around the exterior cover A from end to end so as to maintain thelinsulating material in tight engagement with the pipe. A sealing medium such as water-proof cement, asphalt, or the like, is now introduced into the annular space 6 formed by the overlapping end 4 of the cover A and a split ring 1, see Fig. 3, made of roofing felt, or like. material, is then slipped over the pipe and pressed into the annular space so as to thoroughly pack the sealing material and force it into every possible opening and space. Section after section is applied in this manner until the pipe is completely covered, care being taken that Athe end 8 of each section is pressed tightly against the end 4 of an adjacent section so that the sealing medium placed in the annular space 6 will also seal the end 8. A tape or ring 9, see Fig. 4, is finally applied around each joint or annular space 4 to make the nal seal. A second layer i0, a third layer Il, or as many additional layers as may sulating covering consisting of a series of sealed cells arranged both longitudinally of the pipe and'in concentric layers around the same. The individual cells are sealed against the entrane of air and moisture, hence preventingsweating or frosting and at the same time excluding heat. The manner of preparing the insulating material prior to applying it to a pipe line and the method employed when sealing each section requires comparatively little, if any, skill, hence if instructions are followed good workmanship will be the result and long life and emciency are assured.

Where fittings are to be covered, for instance a T such as indicated in dotted lines in Fig. 6, two half sections are employed. The adjacent faces are padded with asphalt waterproof cement, or the like, and placed on opposite sides of the tting, after which they are pressed rmly together and wired in place. The ends are then smeared with cement and the end of a cover section, such as shown in Fig. 2, is pressed firmly into the cement or filler so as to insure perfect sealing of the joint formed between them. Thereafter, a tape of the type shown in Fig. 4 is applied. This forms a joint between the covering over the T-connection and` adjacent pipe covering section sealed against air and moisture. The second, third and succeeding layers are applied and joined with a cover'of the T-iltting in the same manner and an exterior cover may finally be applied.-

While this and other features of the invention have been more or less specifically described and illustrated, Iwish it understood that various changes may be resorted to within the scope of the appended claims. Similarly, that the materials and-finish of the several parts employed may be such as the manufacturer may decide, or varying conditions or uses may demand.

The insulating cover, as will be noted, forms a series of air and moisture-proof cells arranged in concentric layers around the pipe and extending longitudinally thereof. Thisis exceedingly important as breakage or leakage at any point in the pipe or insulating cover will only destroy the surrounding cell and no other cell, hence preventing frost or moisture from creeping along the pipe and destroying the rest of the insulation.

Having thus described my invention, what I claim and desire to secure by Letters Patent is:

1. An insulating cover of the character described comprising a flexible elongated tubular member split at one side from end to end, said tubular member consisting of an inner layer of hair felt and an exterior layer of air and mois.- ture proof material, said material being provided with a flap to cover the split extending longitudinally of the tube and having an exten- I sion at one end to form an annular end charnber for the reception of a sealing medium and packing member only.

2. An insulating cover of the character described comprising a flexible elongated tubular member split at one side from end to end, said tubular member consisting of an inner layer of hair felt and an exterior layer of air andmoisture proof roofing felt, said roofing felt being provided with a flap to cover the split from end to end and having an extension at one end to form an annular chamber for the reception of a sealing medium and a packing member only, and a cementitious binder securing the layer of hair felt to the inner surface of 'the roong felt.

3. An insulating cover for pipe lines to exclude heat, air and moisture comprising successive concentric layers of insulating material surrounding the pipe line, each layer consisting of short tubular shaped sections abutting end to end and each section having an inner layer of hair feltand an outer moisture and air excluding covering, and an annular space formed between'the abutting ends of each section for the reception of a sealing medium and a packing member so as to completely enclose and seal each tubular section against air and moisture.

4. An insulating cover of the character described comprising a flexible elongated tubular member split at one side from end to end. said tubular member consisting of an inner layer of hair felt and an exterior layer of air and moisture proof material, said material being provided Witli a flap to cover the split extending longitudinallyof the tube and having an exten- WILLIAM H. HORSMAN.

sion at one end to form an annular end cham-