US2053453A

US2053453A - Refrigerator ventilating device

Info

Publication number: US2053453A
Application number: US631830A
Authority: US
Inventors: Wendler Eugene
Original assignee: Individual
Current assignee: Individual
Priority date: 1932-09-06
Filing date: 1932-09-06
Publication date: 1936-09-08
Anticipated expiration: 1953-09-08

Description

Sept. 8,, 1936 E, N E 2,053,453

" REFRIGERATOR VENTILATING DEVICE Filed Sept. 6, 1952 ll/I gwvc/wbo'r EUGENE. WENDLER.

filial 254;, 5

' shelves, etc. in the usual manner.

Patented Sept. 8, 1936 hairs stars r dies 2353,4153 nnraranna'roa van'rna'rrne navron Eugene Wendler, Houston, Tex. I Application September 6, 1932, Serial No. dtlhttil ii (Claims.

My invention. relates to equipment whereby an electric or other mechanically operated refrigerator may be ventilated.

In the modern refrigerator the interior of the same is sealed and heat insulated in such manner that fresh air can not gain entrance to the interior except at occasional intervals when the door is opened. As a result, vapors from the foods orother articles within the refrigerator are absorbed in other foods within the interior of the refrigerator and the contamination of the food in this manner renders it distasteful. It is even found that the ice cubes forming in the ice chambers are flavored with the vapors from the food in the interior of the box.

It is an object of my invention to provide means for removing the vapors from the interior of the box and replacing the air from the box with fresh air from the outside at periodic intervals.

I desire to remove the air from the interior of the box at frequent intervals so that the vapors will not contaminate the foods therein.

I contemplate the provision of a simple and economical device arranged to remove the air content of the refrigerator and to draw in fresh airat predetermined intervals in a uniform automatic manner.

The invention resides in the particular arrangement of the apparatus whereby the above objects are accomplished.

In the drawing herewith, Fig. l is a central vertical section through a mechanical refrigerator embodying my invention.

Fig. 2 is a diagrammatic view operation of my device.

Fig. 3 is an elevation, somewhat diagrammatically, showing the manner in which the circuit is closed to operate the device for changing the air.

In Fig. 1 I have shown an ordinary type of mechanical refrigerator having insulated walls i thereon enclosing an interior 2, which is to be cooled. In the drawing the door and the ordinary shelving within the refrigerator are omitted for purposes of clearness. It is to be understood, however, that the interior will be equipped with The cooling system for the refrigerator is shown somewhat diagrammatically. There is a cooling coil 3 within the box having separate partitions 4 between the coils wherein the compartments 5 for ice are arranged, said compartments being adapted ordinarily for special cooling of objects to be kept at a temperature approaching that of freezing. The cooling coils are connected by means of the pipes 6 with a circulating pump 1 operat d from illustrating the compartment 2 of the refrigerator.

the motor ii. Thereis also a condenser Q connected with the cooling system in the usual man ner.

My ventilating system includes an inlet shown toward the upper end ofthe box at it. This inlet leads by way of the pipe M to the valve i2. The valve tends to control the passage of air through the valve to the pipe 03 on the interior of the box. This pipe which discharges the air into the box is extended down past the cooling chambers and has its lower end open to discharge the fresh air. I may provide also a mparate branch from the main pipe it, as shown at id, leading to each of the ice compartments.

The valve 02 is shown in more detail in Fig. 2. It connects at one end with the pipe i i and at the other end with the pipe it. The valve member it within the outer casing l2 has an upwardly extending stem it projecting into a solenoid ill. This stem is of iron adapted to be drawn upwardly when .the solenoid is energized. Said solenoid is connected in a circuit it, which may be included in the house circuit shown at N.

There is a timing device in the circuit shown generally at 2t. Within this timing device I include a switch 26, connected in the circuit, and adapted to be held in'open'position by the cam. member shown at 22 in Fig. 3. There is a small motor 23, connected in the circuit, which is arranged to operate said cam 22.

With reference particularly to Fig. 3, it will be seen that the motor 23 operates a gear 25 thereon, which is connected bya train of gears to the shaft 25 upon which the cam 22 is mounted. This cam has its outer surface contacting with the arm 26 upon the switch member 2!. It will be seen that the switch is ordinarily held in open position. There is a flattened side 2i upon the cam, which when rotated into position beneath the switch arm 20 will allow said arm to drop and the'switch to close. The continued rotation of the cam will, however,again raise the arm to open the switch after it has remained closed a predetermined interval of time. In Fig. 1, the timing device is shown as having a cord 28, which is intended for connection in an electric light circuit. The timing device is also connected through a pipe 29 to the suction fan 30, and also to the solenoid 3! operating the valve 32, at the lower end of the box.

The valve 32 is in a suction line having its end 33 extended into the lower end of the Said line passes through a valve connected at its lower end to the housing 34 of the suction fan. It will thus upper lid 2 I e,oss,4ss

air irom the lower end of the box so as to remove the contaminated vapors from the interior. It is to be understood that the valve 32 is identical in construction. with the valve 62, as illustrated in Fig. 2, and is operated in the same manner.

The cold air removed irons. the box may be discharged upon the condenser 8 so as to assist in cooling the same.

With this set-up it will be understood that some timing device will be employed which will allow the circuit to be closed at periodic intervals, so as to open the valves and operate the suction fan. This device has nothing whatever to do with the refrigerating apparatus ordinarily enrploycd in the cooling of the box. I have shown a telechrone motor for operating the timing device but I wish it understood that this is simply illustrative of any device such as .a clock or other mechanism whereby the circuit, connecting the operative portions of the device may be closed at predetermined intervals of time.

When the circuit is closed the two solenoids i7 and ti will be actuated to open the two valves in the inlet and in the outlet lines. The suction fan 39 will also be actuated to draw from the lower end of the box the air and vapors from the interior of the chamber 2. This.vvill also allow the entrance through the inlet pipe of fresh air to the interior of the box. I contemplate employing a suction fan of such capacity to remove with fresh air which will be quickly cooled within the box and will,not materially decrease the temperature of the interior of the refrigerator.

It will be noted that but one suction fan is.

necessary and this may be of small capacity so that the cost of operating my device will be practically negligible. I will be enabled, however, to maintain the interior of the refrigerator free from objectionable odors or vapors tending to contaminate the other foods within the interioroi the refrigerator. The advantages of this will be obvious without further description.

What is claimed as new is:

1. In a refrigerator having an interior cooling chamber, an inlet pipe thereto, a valve in said inlet pipe, an outlet pipe, a valve in said outlet pipe, means to create a suction in said outlet pipe, and automatically operated means to periodically open said valves and operate said suction means.

2. A refrigerator having an interior cooling chamber, means to maintain a cool temperature in'said chamber, valve controlled inlet and outlet air lines in said chamber, a suction device in one of said lines, means automatically operating to open said valves and means to simultaneously operate said suction device at predetermined intervals.

3. A refrigerator, an inlet pipe thereto ndjacent its upper end, a valve in said pipe, electrically operated means to control said valve, an outlet adjacent the lower end of said refrigerator, a device for causing circulation of air through said refrigerator, electrically operated means to:

actuate said device, and time operated means to simultaneously close the circuit to said valve and devlcc'and cause a flow of air through said refrigerator.

4. A refrigerator having a cooling chamber, in-