Cyclopedia of Telephony and Telegraphy Volume Ii Part 16

[Ill.u.s.tration: RINGING AND CHARGING MACHINES AND POWER BOARD Plaza Office, New York Telephone Co.]

_Strength of Building._ The major portion of telephone central-office apparatus, whether automatic or manual, is not of such weight as to demand excessive strength in the floors and walls of buildings.

Exceptions to this may be found in the storage battery, in the power machinery, especially where subject to vibration, and in certain cases in the cable runs. After the ultimate size of the equipment has been determined, the engineer and the architect should confer on this point, particularly with reference to the heavier portions of the apparatus, to make sure that adequate strength is provided. The approximate weights of all parts of central-office equipments may readily be ascertained from the manufacturers.

_Provision for Employes._ In manual offices particularly it has been found to be not only humane, but economical to provide adequate quarters for the employes, both in the operating rooms and places where they actually perform their work, and in the places where they may a.s.semble for recreation and rest. The work of the telephone operator, particularly in large cities, is of such a nature as often to demand frequent periods of rest. This is true not only on account of the nervous strain on the operator, but also on account of the necessity, brought about by the demands of economy, for varying the number of operators in accordance with the traffic load. These features accentuate the demand for proper rooms where recreation, rest, and nourishment may be had.

_Provision for Cable Runways._ In very small offices no special structural provision need be made in the design of the building itself for the entrance of the outside cables, and for the disposal of the cables and wires leading between various portions of the apparatus. For large offices, however, this must necessarily enter as an important feature in the structure of the building itself. It is important that the cables be arranged systematically and in such a way that they will be protected against injury and at the same time be accessible either for repairs or replacement, or for the addition of new cables to provide for growth. Disorderly arrangement of the wires or cables results in disorder indeed, with increased maintenance cost, uneconomical use of s.p.a.ce, inaccessibility, liability to injury, and general unsightliness.

The carrying of cables from the bas.e.m.e.nt to the upper floors or between floors elsewhere must be provided for in a way that will not be wasteful of s.p.a.ce, and arrangements must be made for supporting the cables in their vertical runs. In the aggregate their weight may be great, and furthermore each individual cable must be so supported that its sheath will not be subject to undue strain. Another factor which must be considered in vertical cable runs is the guarding against such runs forming natural flues through which flames or heated gases would pa.s.s, in the event of even an unimportant fire at their lower ends.

=Arrangement of Apparatus in Small Manual Offices.= Where a common-battery multiple switchboard equipment is used, at least three princ.i.p.al rooms should be provided--one for the multiple switchboard proper; one for the terminal and power apparatus, including the distributing frames, racks, and power machinery; and the third for the storage battery. These should adjoin each other for purposes of convenience and of economy in wiring.

[Ill.u.s.tration: Fig. 418. Typical Small Office Floor Plan]

_Floor Plans for Small Manual Offices._ As was pointed out, there are several plans of disposing of the main and intermediate distributing frames and the line and cut-off relay racks. The one most practiced is to mount the relay rack alongside the main and intermediate distributing frame in the terminal room. A typical floor plan of such an arrangement for a small office, employing as a maximum five sections of multiple switchboards, is shown in Fig. 418. This is an ideal arrangement well adapted for a rectangular floor s.p.a.ce and on that account may often be put into effect. It should be noted that the switchboard grows from left to right, and that alternative arrangements are shown for disposing of those sections beyond the second. The cable turning section through which the multiple and answering jacks are led to the terminal frames is placed as close as possible to the terminal frames. This results in a considerable saving in cable. An interesting feature of this floor plan is the arrangement of unitary sections of main and intermediate frames and relay racks, representing recent practice of the Western Electric Company. The iron work of the three racks is built in sections and these are structurally connected across so that the first section of the main frame, the intermediate frame, and the relay rack form one unit, the structural iron work which ties them together forming the runway for the cables between them. But two of these units, including two sections of each frame, are shown installed, the provision for growth being indicated by dotted lines.

The battery room in this case provides for the disposal of the battery cells in two tiers. This room is merely part.i.tioned off from the distributing or terminal room. Where this is done the part.i.tion walls should be plastered on both sides so as to prevent, as far as possible, the entrance of any battery fumes into the apparatus rooms.

The wire chief's desk, as will be noted, is located in such a position as to give easy access from it not only to the distributing frames and relay rack, but to the power apparatus as well.

_Combined Main and Intermediate Frames._ For use in small exchanges, the Western Electric Company has recently put on the market a combined main and intermediate distributing frame. This is constructed about the same as an ordinary main frame, the protectors being on one side and the line and intermediate frame terminals on the other. The lower half of the terminals on each vertical bay is devoted to the outside line terminals and the upper half is devoted to intermediate frame terminals. This arrangement is indicated in the elevation in Fig. 419. With the use of this combined main and intermediate frame, the floor plan of Fig. 418 may be modified, as shown in Fig. 420.

[Ill.u.s.tration: Fig. 419. Combined Main and Intermediate Frames]

[Ill.u.s.tration: Fig. 420. Small Office Floor Plan]

[Ill.u.s.tration: Fig. 421. Terminal Apparatus--Small Office]

In Fig. 421 is given an excellent idea of terminal-room apparatus carried out in accordance with the more usual plan of employing separate main and intermediate distributing frames. At the extreme right of this figure the protector side of the main frame is shown. It will be understood that the line cables terminate on the horizontal terminal strips on the other side of this frame and are connected through the horizontal and vertical runways of the frame to the protector terminals.

The intermediate frame is shown in the central portion of the figure, the side toward the left containing the answering-jack terminals, and the side toward the right the multiple jack terminals, these latter being arranged horizontally. This horizontal and vertical arrangement of the terminals on the main and intermediate distributing frames has been the distinguishing feature between the Bell and Independent practice, the Bell Companies adhering to the horizontal and vertical arrangement, while the Independent Companies have employed the vertical arrangement on both sides. We are informed that in the future the new smaller installations of the Bell Companies will be made largely with the vertical arrangement on both sides. At the left of Fig. 421 is shown the relay rack in two sections of two bays each. This ill.u.s.tration also gives a good idea of the common practice in disposing of the cables between the frames in iron runways just below the ceiling of the terminal room.

_Types of Line Circuits._ The design of the terminal-room floor plan will depend largely on the arrangement of apparatus in the subscribers'

line circuits with respect to the distributing frames and relay racks.

The Bell practice in this respect has already been referred to and is ill.u.s.trated in Fig. 348. In this the line and cut-off relays are permanently a.s.sociated with the answering jacks and lamps, resulting in the answering-jack equipment being subject to change with respect to the multiple and the line through the jumpers of the intermediate frame. The practice of the Kellogg Company, on the other hand, has been ill.u.s.trated in Fig. 353, and in this the line and cut-off relays are permanently a.s.sociated with the multiple and with the line, only the answering jacks and lamps being subject to change through the jumper wires on the intermediate frame. This latter arrangement has led to a very desirable parallel arrangement of the two distributing frames and the relay rack.

These are made of equal length so as to correspond bay for bay, and are placed side by side with only enough s.p.a.ce between them for the pa.s.sage of workmen--the relay rack lying between the main and intermediate frames. In this scheme all the multiple and answering-jack cables run from the intermediate distributing frame, and the cabling between the intermediate frame and the relay rack and between the relay rack and the main frame is run straight across from one rack to the other. This results in a great saving of cable within the terminal room, over that arrangement wherein the cabling from one frame to another is necessarily led along the length of the frame to its end and then pa.s.ses through a single runway to the end of the other frame.

=Large Manual Offices.= For purposes of ill.u.s.trating the practice in housing the apparatus in very large offices equipped with manual switchboards, we have chosen the Chelsea office of the New York Telephone Company as an excellent example of modern practice.

[Ill.u.s.tration: Fig. 422. Floor Plan, Operating Room, Chelsea Office, New York City]

The ground plan of the building is U-shaped, in order to provide the necessary light over the rather large floor areas. The plan of the operating floor--the sixth floor of the building--is shown in Fig. 422.

As will be seen, this const.i.tutes a single operating room, the _A_-board being located in the right wing and the _B_-board in the left. The point from which both boards grow is near the center of the front of the building, the boards coming together at this point in a common cable turning section. The disposal of the various desks for the manager, chief operator, and monitors is indicated. Those switchboard sections which are shown in full lines are the ones at present installed, the provision for growth being indicated in dotted lines.

[Ill.u.s.tration: Fig. 423. Terminal Room and Operators' Quarters, Chelsea Office, New York City]

The fifth floor is devoted to the terminal room and operators' quarters, the terminal room occupying the left-hand wing and the major portion of the front of the building, and the operators' quarters the right-hand wing. The line and the trunk cables come up from the bas.e.m.e.nt of the building at the extreme left, being supported directly on the outside wall of the building. Arriving at the fifth floor, they turn horizontally and are led under a false flooring provided with trap doors, to the protector side of the main frame. The disposal of the cables between the various frames will be more readily understood by reference to the following photographs.

A general view of a portion of the _A_-board of the Chelsea office is shown in Fig. 424, this view being taken from a point in the left-hand wing looking toward the front. In Fig. 425 is shown a closer view of a smaller portion of the board. Fig. 426 gives an excellent idea of the rear of this switchboard and of the disposal of the cables and wires.

The main ma.s.s of cables at the top are those of the multiple.

Immediately below these may be seen the outgoing trunk cables. The forms of the answering-jack cables lie below these and are not so readily seen, but the cables leading from these forms are led down to the runway at the bottom of the sections, and thence along the length of the board to the intermediate distributing frame on the floor below. The layer of cables, supported on the iron rack immediately above the answering-jack cable runway, shown at the extreme bottom of the view, are those containing the wires leading from the repeating coils to the cord circuits.

An interesting feature of this board is the provisions for protection against injury by fire and water. On top of the boards throughout their entire length there is laid a heavy tarpaulin curtain with straps terminating in handles hanging down from its edges. These may be seen in Fig. 426 and also in Fig. 425. The idea of this is that if the board is exposed to a water hazard, as in the case of fire, the board may be completely covered, front and rear, with this tarpaulin curtain, by merely pulling the straps. The entire force--both operators and repairmen--is drilled to a.s.sure the carrying out of this plan.

The rear of the boards is adapted to be enclosed by wooden curtains, similar to those employed in roll-top desks. These are all raised in the rear view of Fig. 426, the housing for the rolled-up curtain being shown at the extreme top of the sections. In order to guard the multiple cables and the multiple jacks against fire which might originate in the cord-circuit wiring, a heavy asbestos part.i.tion is placed immediately above the cord racks and is clearly shown in Fig. 426.

[Ill.u.s.tration: Fig. 424. Subscribers' Board. Chelsea Office, New York City]

[Ill.u.s.tration: Fig. 425. Subscribers' Board. Chelsea Office, New York City]

[Ill.u.s.tration: Fig. 426. Rear View Chelsea Switchboard]

[Ill.u.s.tration: Fig. 427. Terminal and Power Apparatus. Chelsea Office]

A view of the terminal and power room is shown in Fig. 427. In the upper left-hand corner the cables may be seen in their pa.s.sage downward from the cable turning section between the _A_- and _B_-boards. The large group of cables shown at the extreme left is the _A_-board multiple.

This pa.s.ses down and then along the horizontal shelves of the intermediate frame, which is the frame in the extreme left of this view.

The _B_-board multiple comes down through another opening in the floor, and as is shown, after pa.s.sing under the _A_-board multiple joins it in the same vertical run from which it pa.s.ses to the intermediate frame.

The cord-circuit cables lead down through the same opening as that occupied by the _A_-board multiple and pa.s.s off to the right-hand one of the racks shown, which contains the repeating coils. The cables leading from the opening in the ceiling to the right-hand side of the intermediate distributing frame are the answering-jack cables, and from the terminals on this side of this frame other cables pa.s.s in smaller groups to the relay terminals on the relay racks which lie between the intermediate frame and the coil rack.

The power board is shown at the extreme right. The fuse panel at the left of the power board contains in its lower portion fuses for the battery supply leads to the operator's position and to private-branch exchanges, and in its upper portion lamps and fuses for the ringing generator circuits for the various operators' positions and also for private-branch exchanges.

At the lower left-hand portion of this view is shown the battery cabinet. It is the practice of the New York Telephone Company not to employ separate battery rooms, but to locate its storage batteries directly in the terminal room and to enclose them, as shown, in a wooden cabinet with gla.s.s panels, which is ventilated by means of a lead pipe extending to a flue in the wall.

One unit of charging machines, consisting of motor and generator, is shown in the immediate foreground. A duplicate of this unit is employed but is not shown in this view. The various ringing and message register machines are shown beyond the charging machines. Three of these smaller machines are for supplying ringing current and the remainder are for supplying 30-volt direct current for operating the message registers.

One of the machines of each set is wound to run from the main storage battery in case of a failure of the general lighting service from which the current for operating is normally drawn.

[Ill.u.s.tration: Fig. 428. Terminal Apparatus. Chelsea Office]

[Ill.u.s.tration: Fig. 429. Floor Plan, Automatic Office, Lansing, Michigan]

Another view of the terminal-room apparatus is given in Fig. 428. This is taken from the point marked _B_ on the floor plan of Fig. 423. At the right may be seen the message registers on which the calls of the subscribers in this office are counted as a basis for the bills for their service. At the extreme left is shown the private-line test board.

Through this board run all of the lines leased for private use, and also all of the order wire or call lines pa.s.sing through this office. The purpose of such an arrangement is to facilitate the testing of such line wires. At the right of this private-line test board is shown a four-position wire chief's desk, upon which are provided facilities for making all of the tests inside and outside.

[Ill.u.s.tration: Fig. 430. Line-Switch Units]

[Ill.u.s.tration: Fig. 431. Automatic Apparatus at Lansing Office]

The main frame is shown at the right of Fig. 428, just to the right of a gallery from which a step-ladder leads. The left-hand side of this frame is the line or protector side, but the portion toward the observer in this picture is unequipped. These equipped protector strips carry 400 pairs of terminals each, and the consequent length of these strips makes necessary the gallery shown, in order that all of them may be readily accessible.

[Ill.u.s.tration: Fig. 432. Main Distributing Frame, Lansing Office]

[Ill.u.s.tration: Fig. 433. Line Switches]

[Ill.u.s.tration: POWER PLANT FOR AUTOMATIC SWITCHBOARD EQUIPMENT Bay Cities Home Telephone Company, Berkeley, Cal.]

[Ill.u.s.tration: Fig. 434. Secondary Line Switches and First Selectors]

=Automatic Offices.= There is no great difference in the amount of floor s.p.a.ce required in central offices employing automatic and manual equipment. Whatever difference there is, is likely to be in favor of the automatic. The fact that no such rigid requirement exists in the arrangement of automatic apparatus, as that which makes it necessary to place the sections of a multiple board all in one row, makes it possible to utilize the available s.p.a.ce more economically with automatic than with manual equipment.

[Ill.u.s.tration: Fig. 435. Second Selectors]