DE7800140U1 - TEMPERATURE SENSOR FOR HUMID ROOMS - Google Patents

Description

Wella AG

Berliner Allee 65
6100 Darmstadt

Temperature sensor for damp rooms

The innovation concerns temperature sensors for damp rooms, consisting of an air-permeable housing and a Temperature sensor. Various temperature sensors are already known with which the temperature of damp rooms is measured. The innovation has set itself the task of a new construction of the temperature sensor and the to specify associated components, in which a better Protection against splash water and against contact, especially when used in sauna cabins, is achieved.

This object is achieved according to the invention in that a circuit board is provided, on the top of which the temperature sensor and on the underside of which the associated terminals for the supply cable are fixedly arranged, that the circuit board is surrounded by a housing consisting of two housing halves in such a way that \ whose respective cover the top of the circuit board f the upper part of the housing has openings where the air can enter and exit and that the correspondingly shaped edge of the circuit board is held in a circumferential groove or a circumferential bead in the housing,

In a preferred embodiment, it is expedient if in addition the top of the circuit board together with the temperature sensor with a waterproof coating, preferably silicone.

Further developments and refinements of the innovation are and will be characterized in the subclaims below in connection with an exemplary embodiment descriptive figurines. In these are

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Corresponding parts have been given the same reference numerals, and there are all for an understanding of the Invention unnecessary details have been omitted.

It shows:

Fig. \ A radial section through an embodiment according to the innovation with the housing halves slightly pushed apart and

Fig. 2 is a plan view of the embodiment of Fig. 1, but in assembled condition.

The embodiment shown in Fig. 1 has a housing 1, which is essentially rotationally symmetrical with respect to its axis la and consists of two im essentially mirror-inverted housing halves 2 and 3 consists. In each upper housing part 2a or 3a of the housing halves 2 and 3 are slot-shaped openings 4 on the circumference and in the respective upper cover area 5 slot-shaped openings 6. These slot-shaped Openings 4 and 6 are used for air inlet and air outlet.

In the middle area of the housing halves 2 and 3 is a circumferential groove 8 is provided, which the edge 9 of a round concentric to the axis la of the housing 1 is arranged Circuit board 10 surrounds firmly and sealingly. On the top 11 of the circuit board 10 are used as temperature sensors a resistor 12 with a negative temperature coefficient and a temperature limiting device 13, preferably a bimetal contact, arranged. On the underside ± 4 the circuit board 10 are connecting terminals 15, which are correspondingly conductive with the resistor 12 and the temperature ■ limiting device 13 are connected.

In each lower housing part 2b or 3b of the housing halves 2 and 3 there is a circumferential projection 16 ¹ U-ZM. 17 formed which protrudes into the interior of the housing 1 and

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: its respective free end l8a or l8b together

a central circular opening 19 is formed through which the control device (not shown) incoming supply cable 20 to the terminals 15 is guided. The inside diameter of this opening is

by at least 10 % smaller than the outer diameter of the non-pinched supply cable 20, whereby |; "The latter is slightly squeezed. This causes strain relief for the supply cable. In the lower

j area of each housing half 2 or 3 is a

■ Projection 21 or 22 attached, which has corresponding fastening openings 23 or 24 for screwing by means of screws to a mounting wall (not shown), for example a sauna cabin. The two housing halves 2 and 3 are made of plastic and are therefore corrosion-resistant to moist air, such as that prevailing in a sauna cabin, for example. After attachment to a mounting wall, the slot-shaped openings k and 6 are sufficiently far away from this so that the temperature measured inside the housing 1 corresponds essentially to that of the surrounding air, which can flow in and out through the slot-shaped openings 4 and 6 . In a preferred embodiment, the outer diameter of the housing 1 in the area of the slot-shaped openings 4 is approximately 50 mm. Due to the correspondingly thin plastic ribs between the slot-shaped openings 4 and 6, only little resistance is opposed to the air flow. Here, the distance between the temperature sensors from the underside 25 of the housing 1 and thus from the mounting wall (not shown) is approximately 40 mm.

Due to the cage-shaped upper side of the housing halves 2 and 3, the temperature sensors are more mechanical Damage and protected against contact. In addition, the top 11 of the circuit board 10 and those arranged on it Temperature sensors, resistor 12 and limiting

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device 13 _{3 covered} by a waterproof, electrically insulating coating 26, preferably made of silicone. On the one hand, this ensures that the electrical current-carrying parts of the temperature sensor are protected against splash water, condensing water vapor or dust, for example by avoiding leakage currents that may distort the measurement result. On the other hand, this increases the electrical contact protection and the corrosion protection. In particular, due to the construction according to the innovation , the connection terminals 15 arranged on the underside Ik of the printed circuit board 10 are covered by them against contact, condensing water vapors and splash water. To increase the sealing effect, in a preferred embodiment, the edge 9 of the printed circuit board 10 is inserted in a watertight manner in the circumferential groove 8 by means of known sealing means.

When installing the temperature sensor, the feeder cables 20 are first connected to the terminals 15 located on the underside Ik of the circuit board 10, then the two housing halves 2 and 3 with their circumferential groove 8 are plugged onto the edge 9 of the circuit board 10 so that they are flush, with these by means of Centering bolts 27 arranged on their common separating surface and corresponding opposing openings (not shown) are guided and at the same time secured against rotation. The two housing halves are then screwed together by means of screws 28 in a manner not shown in detail.

The operation of the temperature sensor is based essentially on the fact that the resistor 12 changes its resistance value in a known manner in accordance with a temperature change in the surrounding room air, whereby a corresponding temperature-dependent control signal is fed to a control device (not shown). The additionally provided temperature limiting device 13, for example designed as a bimetal contact, under-

■ - 5 -

breaks when a certain upper limit is exceeded Grenztemperattir a circuit in the control device, for example then accordingly switches off the heater in a sauna cabin.

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Claims (1)

Schijitzaas sayings 1. Temperature sensor for damp rooms, consisting of an air-permeable housing and a temperature sensor, characterized, that a circuit board (10) is provided, on the top side (11) of the temperature sensor and on the Underside (1 * 0 the associated terminals (15) for the supply cable (20) are fixed, that the circuit board (10) is surrounded by a housing (1) consisting of two housing halves (2, 3) that their respective upper housing part covering the upper side (11) of the.-.- printed circuit board (10) (2a or 3a) openings for entry and exit of the Has air and that the correspondingly shaped edge (9) of the circuit board (10) in a circumferential Groove (8) or a circumferential bead in the housing (1) is held (Fig. 1). 2. Temperature sensor according to claim 1, characterized in that that the top (11) of the circuit board (10) together with the temperature sensor with a waterproof coating (26), preferably made of silicone, is provided (Fig. 1). 3. \ Temperature sensor according to claim 1 and 2, characterized in that the respective lower housing part (2b or 3b) of each housing half (2 or 3), which together surround the - underside (1 * 0 of the circuit board (10), a has circumferential projection (16 or 17) which protrudes so far into the interior of the housing (1) that its free end (18a or 18b) forms an opening (19), the smallest inner distance of which is at least 10 % smaller 7800140 04/20/78 is the smallest diameter of the supply cable (20) which is led through this to the connection mines (15) (Fig. 1). ^ * Temperature sensor as required! and 3, characterized in that the outer contour of the housing (l) _r the printed circuit board (10) held therein and the opening (19) formed by the circumferential projections (16, 17) in relation to an axis (la ) are designed "essentially rotationally symmetrical (Fig.l). 5. Temperature sensor according to claim 1 and ¹ I, characterized in that each lower housing part of each housing half (2 or 3) carrying the circumferential projection (16 or 17) has a projection (21 or 22) with corresponding fastening openings (23 or 2 ¹ O (Fig. 2>. 6. Temperature sensor according to one of the preceding claims, characterized in that the housing (1) consists of plastic (Fig.l) 7. Temperature sensor according to one of the preceding claims, characterized in that that the temperature sensor is designed as a resistor (12) with a negative temperature coefficient (Fig. 1). 8. Temperature sensor according to one of the preceding claims, characterized, that the top (11) of the circuit board (10) additionally carries a temperature limiting device (13), which is preferably is designed as a bimetal contact (Fig. 1). 7800140 04/20/78 • · · ■ Temperature sensor according to one of the preceding claims » characterized in that the in the respective upper housing part (2a or 3a) arranged openings as slot-shaped openings (Ij or 6) on the circumference and in the upper cover area (5) are formed (Fig. 1 and 2). 7800140 20.0478