DE340524C - Electrical safety device for dark and light rooms using light-sensitive cells - Google Patents

Description

The invention relates · sich- to an electrical security device against burglary and theft ^1, wherein Selenu. Like. Cells are used that change their conductivity by changes in exposure and thereby switch on an alarm circuit by means of a correspondingly influenced relay or the like. For lighted rooms one can imagine the protection in such a way that

to the access to the goods or to the safe leads past an exposed selenium cell, those through the shadow of a person moving between light and cell is darkened. Due to the resulting change in conductivity the selenium cell is then also an alarm mechanism with the help of a sensitive relay or another anti-theft device can come into operation.

However, such a device has the following disadvantages: At times it becomes restless Burning of the lamp, flickering of the light

and the like. Then the cell becomes

'also through secondary lighting (reflections from walls, glass panes, both from daylight as well as from the lamp used), and finally, even with constant light, the inner one Conductivity of the selenium cell is not uniform, so that there is a risk that the The alarm device goes off even if there is no person in the room to be protected. Another disadvantage is that the selenium cell, due to its darkening the alarm is supposed to occur has only a small area size, as a result it can a thief present in the room succeeds in casting his shadow on the small one To prevent the surface of the selenium cell by bending over or the like.

In order to avoid these disadvantages, a spotlight illuminating the selenium cell is used according to the invention, which is arranged in such a way that a person entering the room to be secured without authorization must completely cut through the light intended to cover the cell and which drowns out the secondary lighting. In FIG. 1, s is the selenium cell, P is a lamp with a strong reflector or headlight, 0 is a mirror. If a person steps between the mirror and the headlight as well as between the mirror and the selenium cell, the cell will be darkened and thus the message signal will be generated. If one uses several mirrors, it will be even less possible to avoid casting a shadow on the selenium cell when crossing a certain room. On the other hand, switching on a mirror increases the risk of emergency lighting, and the more seals are used, the more this risk increases. The sharper the light falls on the selenium cell, the better the latter behaves also with regard to the irregular internal resistance; the sharper is also the shadow of a passing person falling on them, so that

the use of mirror refraction at the same time the use of a spotlight, which can be formed by using a strong reflector or by using a lens.

The cell s is connected by a line to the apparatus, the internal circuit of which can be implemented in various ways. It is advantageous to use the circuit of a Wheatstone bridge or another differential circuit that compares resistors with one another. B is the battery that sends the current through the four branches W ₂ (R + s) and N. W ₁ and W ₂ are two fixed, preferably the same, resistances. JV is also a resistor of about the same size as the resistance of the exposed selenium cell, and R is an adjustable additional resistor which enables precise setting of the galvanometer or relay g in the idle state. The resistor N can of course also be used; in a second selenium cell or in others, e.g. B, resistors connected to safety contacts of any kind, which would be connected to the apparatus on a second line. The resistor JV itself can also be designed as a rheostat with the omission of the rheostat R. If the resistances of all four branches are the same, or if they are in the known proportionality of the Wheatstone bridge, no current flows through the relay g , while if the exposure of the selenium cell changes, the GaI vanometer pointer will deflect and thus make contact Similar circuit is the one according to FIG. 2, in which the galvanometer pointer can also be brought into the central position by setting the rheostat R.

Such a differential circuit or a similar one is advantageous to choose in order to be able to bring about a change in the sensitivity of the relay in the idle state. In order to further avoid the disadvantages mentioned at the beginning, it is advisable to carry out the setting in the rest position with as highly sensitive relays as possible in order to be able to better recognize the lagging change in the selenium cell resistance during the setting. Thereupon, however, the pointer position is to be determined by a greater insensitivity so that smaller fluctuations in the selenium cell resistance do not easily result in contacts. This determination can be made by switching off some elements of the battery E (e.g. by switch e) or by reducing the voltage for another power source, or by increasing the two resistors W ₁ and W ₂ evenly, or by switching on one Shunt resistor M to the galvanometer g happen.

Claims (2)

Patent Claims: I. Electric security device for dark and light rooms using light-sensitive cells, as a result of their change in resistance an alarm circuit is switched on by means of a relay or the like, characterized by the Use of a spotlight which illuminates the selenium cell and which is arranged in such a way that the area to be secured is unauthorized the person entering the cell fully covers the light provided for illuminating the cell and drowning out the secondary lighting must cut through. 2. Device according to claim 1, characterized by the use of a circuit in which the cell with an adjustable resistor is in differential circuit, in cooperation with a device through which the galvanometer or relay (g) used in the respective Siclierheitsschältung to lower sensitivity can be made in such a way that the device for reducing the sensitivity of the relay needs to be operated only after precise adjustment of the system. 1 sheet of drawings.