DE411232C - Incubator with hot water heating - Google Patents

Description

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The previously known incubators with hot water heating, where the The hot water radiator consists of a flat hollow sheet metal body with partitions, the disadvantage is that it is absolutely necessary to achieve success \ Oll there is no uniform heating at all or only with great effort Diligence can be achieved.

The purpose of the invention is now to obviate this disadvantage and to provide an incubator to create the type specified above, the automatically the desired heating of the hatched Eggs guaranteed. For this purpose, the individual chambers of the hot water boiler are all connected to an inlet and connected to a drainage channel, d. H. connected in parallel. Two adjacent According to the invention, chambers are connected to one another, and the inlet and outlet openings of both chambers are located at different heights, in such a way that the inlet opening at the top and the outlet opening at the bottom located.

In the drawing is an embodiment of an incubator according to the invention shown, and it is:

Fig. Ι a vertical longitudinal section through the incubator,

Fig. 2 is a ^{longitudinal section rotated by 90 °} to Fig. 1,

Fig. 3 is a section drawn on an enlarged scale along the line 3-3 of Fig. 4,

Fig. 4 is a section along the line 4-4 of Fig. 3 and

Fig. 5 is a section along the line 5-5 in Fig. 3.

The box of the incubator, which is provided with heat-insulating walls, expediently has a double-walled glass door 1 and rests on feet. The ceiling of the box is formed by the hot water heater 3, and underneath the latter are the plates 2 which are used to hold the eggs and have an air-permeable base made of wire mesh ο. Like., The with a highly air-permeable soft fabric such. B. flannel, is covered. Of the

consisting of a flat sheet metal hollow body hot water heater 3 is subdivided into chambers by several parallel, alternately over the entire width of the apparatus extending or slightly shorter partitions in such a way that they touch each other over their entire length. The chambers are alternately connected at one end to an inlet or outlet channel running along the row of chambers, and the connecting pieces are arranged so that the chamber adjacent to the chamber closest to the inlet piece opens into the outlet channel at the point furthest from the outlet piece. This ensures that the entire surface of the heater 3 is heated evenly and consequently all eggs are exposed to the same high temperature.
As Figs. 3 to 5 show, a partition 50 running parallel to the longitudinal wall of the heater 3 forms a channel which is divided into two parts by a horizontal partition 51, so that channels extend over the entire length of the heater 20 and 25 are formed. The cavity of the radiator 3 is divided into a number of chambers 22 and 23, which are in contact over their entire length, by dividing walls 52 and 53 running perpendicular to the partition 50, ie parallel to the short side of the radiator. The partition walls 53 extend over the entire width of the heating element 3, while the partition walls 52 are somewhat shorter, so that two consecutive chambers 22 and 23 are in communication with one another through an opening 54. The chambers 22 are connected to the upper channel 20 through openings 21 made in the upper half of the partition 50 and the chambers 23 are connected to the lower channel 25 through the openings 24 provided in the lower half of the partition 50. The pipe socket 5 connected to the upper part of the hot water boiler 4 is connected to one end of the channel 20, while the pipe socket 6 extending from the other end of the channel 25 through a pipe 56 (Fig. 1) with the bottom of the hot water boiler 4 in Connection. The arrangement of the pipe sockets 5 and 6 is such that the chamber 23 adjacent to the chamber 22 closest to the pipe socket 5 opens into the channel 25 through the opening 24 at the point at the greatest distance from the pipe socket 6. From the upper part of the boiler 4, the warm water passes through the pipe socket 5 into the distribution channel 20, from which it passes through the openings 21 of the partition wall 50 in the direction of the arrows drawn in solid lines in Fig. 3 into every second chamber, ie into the chambers reaches 22, flows through it in its full length and then in the loading chamber 22 g ₅ neighboring chamber 23 passes in order through this to arrive after passing back through the opening 24 into the drain 25th From the latter, the water flows after delivering its heat through the pipe ^ ₀ clip 6 and flows through the pipe 56 passing to the bottom of the vessel 4. In the chambers 22 and 23 is the incoming, brought to a maximum temperature of water through the thin Sheet metal existing partition wall through with the flowing water of the lowest temperature in contact, which results in a perfect heat exchange. Since the total distance of each pair of chambers 22, 23 from the inflow nozzle 5 and the outflow nozzle 6 is the same, the same amount of heat flows through all pairs of chambers, whereby a practically λ completely even heat distribution over the entire surface of the heating element 3 is achieved.

The new incubator is of course with suitable devices for the supply of Fresh air is provided as well as for wetting this air, and also are the usual ones Control devices for the boiler are available.

Claims (2)

Patent Claims: r. Incubator with hot water heating in which the hot water radiator is off consists of a flat sheet metal hollow body with partitions, which extends over the whole Breeding space, characterized in that the individual chambers of the hot water boiler are all connected to an inlet and connected to a drainage channel, d. H. are connected in parallel. 2. Incubator according to claim 1, characterized in that two adjacent Chambers are in communication with each other and the inlet and outlet openings of both chambers in different Altitude are, in such a way that the inlet opening is provided at the top and the outlet opening is provided at the bottom. 1 sheet of drawings.