DE4201028C1 - Resistor assembly for setting RPM of ventilating fan motor - has bridges between resistors installed in channels extending along non-conductive carrier - Google Patents

Abstract

An electrical resistor element for use in the circuit of a blower motor of a type used in the air conditioning systems of road vehicles allows different speeds to be obtained. the unit has a main carrier body of ceramic material (13) with contact pins (A-E) projecting from one end. Within the body, a number of parallel channels (14-19) receives the individual resistors (R1a, R3b). Slots are formed between channels that allow pairs of resistors to be connected to vary the resistance of the circuit. ADVANTAGE - Simple and economical resistor to mfr. avoiding insertion and welding processes.

Description

The invention relates to a resistance device for Fan motors according to the preamble of the claim 1. Such resistance devices are in particular for ventilation or air conditioning fans from Kraftfahr are sure to testify.

Motor vehicles contain one in a ventilation duct Fan, its speed by a on the dashboard existing actuator can be changed. The Fan motor is in with a resistance device Series connected, whose resistance through the actuator can be changed. Usually the cons stand device arranged inside the air duct, so that it is cooled by the air flow.

DE 39 35 054 A1 describes a generic resistance device with a carrier body made of ceramic material, the longitudinal  has running channels. In these channels they are individual resistors made of wire material arranged. Two of these resistors are on one End connected by a fuse and the rest Resistors are ver at this end by bridges bound in one piece from the material of the resistors are bent. At the other end of the carrier body the resistors are connected to contact elements. With this resistance device, the contra stands from the end facing away from the contact elements inserted into the channels of the carrier body and then the contact elements to the contra stands welded on. This requires a relative agile manufacturing.

The invention has for its object a contra to create a stand that is simple and cost-effective is inexpensive to manufacture.

This object is achieved with the invention the features specified in claim 1.

In the resistance device according to the invention the channels running in the carrier body, the one take up individual resistances, through slots underneath connected to each other, which extends over the entire length extend the support body. This makes it possible the one ends of the resistors before the one lead the resistors into the channels of the carrier body to connect with the contact elements and the contra stand up from the front - that is, from that side the contact elements are in the carrier introduce body. The bridges, two each Connect resistances with each other, through  through the slots between the channels guided. These bridges, later on the back of the carrier body, are also from inserted into the front of the carrier body. On the The back of the carrier body only needs to be worn then a backup, if there is one is at the corresponding ends of the resistors to be soldered or welded on. An essential one The advantage is therefore that the introduction of Resistors in the carrier body from the front end can be done after the resistors to the contact elements have been welded on. The contact elements with the resistors can be manufactured as an assembly and be prefabricated. After the introduction of the contr are usually made of ceramics Carrier bodies are then no essential welding and Soldering to do more.

In the following with reference to the drawing Solutions embodiments of the invention he closer purifies.

Show it:

Fig. 1 is an electrical circuit diagram of the resistance device,

Fig. 2 is a perspective view, partially broken away, of a first embodiment of the resistor device,

Fig. 3 is a section along the line III-III of Fig. 2,

Fig. 4 is an end view of the support body and

Fig. 5 shows another embodiment.

In Fig. 1, a switch 10 is shown, with which the intensity of ventilation of a motor vehicle can be adjusted. This switch has contacts A, B and C. Its switching arm 11 can optionally connect the positive pole of the voltage source to each of these contacts.

The resistance device contains a number of Resistance pairs R1a, R1b, R2a, R2b, R3a and R3b, the are connected in series in this order, whereby a fuse Si between the resistors R3a and R3b is switched. The end of the last resistance R3b is connected to the two contacts D and E, from which the contact D is connected to the blower motor M. is connected to ground with its other pole.

The connection point of the resistors R1b and R2a is connected to the contact B and the connection point between the resistors R2b and R3a is connected to the contact C of the switch 10 .

Fig. 2 shows the arrangement of said resistors in a carrier body 13. The carrier body 13 made of ceramic material contains according to the number of opposing six continuous parallel channels 14 , 15 , 16 , 17 , 18 and 19 which extend from the front end 20 to the rear end 21 of the carrier body 13 he and here circular cylindrical cross section to have. The channels 14 to 19 are arranged in a common plane and connected to one another by slots 22 , 23 , 24 , 25 and 26 , which also run in this plane. Through the slots 22 to 26 , the cross sections of all channels 14 to 19 are mutually connected. The channels 22 to 26 have a width which is less than the diameter of the channels 14 to 19 .

The two resistors R1a and R1b are arranged in the two middle or inner channels 16 and 17 and connected at their rear end by a bridge B1. The resistors R2a and R2b are arranged in the channels 15 and 18 , which are adjacent to the outside, and are connected at their rear ends by a bridge B2. The resistors R3a and R3b are arranged in the two outer channels 14 and 19 and are connected at their rear ends to the fuse Si, which is arranged outside the carrier body 13 and is welded to the rear resistance ends.

At the front end of the carrier body 13 there are five contact elements 25 , each of which is designated by the letters A, B, C, D, E, the contacts of which are connected to them. Each of the contact elements 25 consists of a rigid sheet metal strip which is bent at right angles at the rear end to form a transverse web 25 a. This is followed by a further web 27 , which in turn is bent back in the direction of the contact element 25 and extends in the longitudinal direction. The front ends of resistors are welded to each web 27 . For example, the ends 28 of the resistors R2b and R3a are welded to the contact element 25 , which corresponds to the contact C. On the contact element, which corresponds to the contact A, the front end of the resistor R1a is welded, to the contact element, which corresponds to the contact B, the front ends of the resistors R1b and R2a are welded, and to the contact element, which corresponds to the contact D. , the front end of resistor R3b is welded on. The four named contact elements 25 are arranged one above the other in one plane. The contact element 25 a, which corresponds to the contact E, is arranged laterally next to this level and next to the contact element, which corresponds to the contact D. The contact elements which correspond to the contacts D and E are integrally connected to one another via a bracket 30 .

All contact elements 25 and 25 a are held together by a plastic socket (not shown).

The resistors R1a to R3b are each one here Core of helically wound wire resistors, whereby resistors R1a and R1b of one pair finally the bridge B1 from a single counter stand wire exist. Also the resistors R2a and R2b of the other pair, including the bridge B2 from a single resistance wire.

After the front ends of the resistors in the manner described be with the contact elements that correspond to the contacts A, B, C and D have been connected, the protruding from the contact elements 25, the resistors in the channels 14 to 19 of the carrier body 13 inserted from the front, the bridges B1 and B2 being guided through the slots 23 , 24 and 25 . The legs 27 of the contact elements 25 are inserted into the respective channel (for example the channel 14 in FIG. 3) until the cross bar 25 a abuts the front end 20 of the carrier body 13 and the bar 27 projects into the channel 14 . The contact elements 25 are fastened to the carrier body 13 by applying ceramic paste to the front end 20 , which connects the contact elements 25 to the carrier body.

Laterally next to the row of channels 14 to 19 and slots 22 to 29 , three further slots 33 and 33 a and 34 are provided in the carrier body 13 , which also go over the entire length. The slot 33 serves to receive the web 35 , which projects straight from the contact element 25 a to the rear. This contact element 25 a corresponding to contact E is not connected to a resistor. The slot 33 a is present for reasons of symmetry in order to be able to use the carrier body 13 from both sides. The central slot 34 serves to introduce a fastening tab of a carrier plate (not shown) to which the resistance device can be fastened.

In the embodiment of Fig. 5, all channels run of the support body 13 a through a common slot 40 extending over the entire length of the support body 13 a. The resistors R3a and R3b are also designed here as wound wire resistors. The resistors R2a and R2b, which are designed as self-supporting strip resistors, extend between them and are connected to one another by a bridge B2 formed integrally with them. The resistors R1a and R1b are formed as meanders in strip form, the two bridges B1a and B1b being formed at the rear end and the bridge B1c being formed at the front end. Here, too, the bridge B2 encompasses the entirety of the resistors R1b and R1a, including the associated bridges B1a, B1b and B1c.

The contact elements 25 and 25 a are formed in the second embodiment according to FIG. 5 in the same way as in the first embodiment and connected to the resistors in the same way.

Claims (3)

1. Resistance device for fan motors, with a non-conductive support body ( 13 ), the longitudinally fende channels ( 14 - 19 ), with in the channels of ordered resistors (R1a-R3b), bridges (B1, B2), each, two resistors bind with each other, and with arranged at the front end of the support body contact elements ( 25 ) which are connected to the resistors (R1a to R3b), characterized in that at least two channels ( 16 , 17 ; 15 , 18 ) through one over the entire Length of the carrier body ( 13 ) extending slot ( 23 , 24 , 25 ) are connected, the width of which is greater than that of the bridge connecting these resistors (B1; B2). 2. Resistance device according to claim 1, characterized in that the channels ( 14 - 19 ) of at least four resistors lying in a common plane are all connected by slots, a bridge (B1) the two internal resistors (R1a, R1b) and one Another bridge (B2) connects the resistors (R2a, R2b) that are further out. 3. Resistance device according to claim 1 or 2, characterized in that in the slot ( 40 ) between two channels resistors (R2a, R2b) are arranged, which are designed as strip resistors.