DE10119928A1 - Heating register with PTC elements - Google Patents

Abstract

The device has several individual PTC elements connected electrically to form a group and selected from a production run of elements so the group maintains a predefined group tolerance with respect to an electrical parameter. A predefinable fixed number of PTC elements is provided for the group with individual tolerances in a range outside that corresponding to the group tolerance so they maintain the group tolerance as nested PTC element groups.

Description

The invention relates to a heating register with several individual PTC elements that electrically form a PTC element group with each other interconnected and selected in this way from a production of PTC elements are that the PTC element group with respect to an electrical characteristic adheres to a predefined group tolerance.

Such PTC heating registers are used, for example, to build up heating blocks used for electric heaters used in automotive Heating systems for heating a vehicle interior come. The heating register consists of the individual PTC Elements electrically z. B. are connected in parallel. In the Offenle supply document DE 44 34 613 A1 is a strip-shaped PTC heating register for discloses this purpose, the individual PTC elements with Ab stood side by side in openings of a sealing frame and from two sheets lying on both sides are held.  

When building such PTC heating registers, it is desirable to have one in front given electrical parameter, e.g. B. the electrical resistance or the electrical conductance, a predefinable tolerance to un to avoid desired malfunctions, such as excessive electrical Current flow due to insufficient total resistance from the electrical interconnected PTC elements existing PTC element group. In order to comply with the tolerance, the measure in Be traditionally, to build up the PTC element group from one Set of manufactured PTC elements only those with a correspondingly narrow tole ranz to select. Outside the correspondingly narrow individual tolerance However, PTC elements cannot then be used. One on Another option would be to have a variable number of PTC elements to allow the formation of the PTC element group of the heating register, e.g. B. for a first heating register fewer PTC elements with larger electrical Individual resistor and for a second heating register more PTC elements with lower resistance such that the total resistance or Overall conductance is within the desired group tolerance. In order to would then not always be all places for PTC elements in the heating register occupied.

The invention has the technical problem of providing a PTC Heating register of the type mentioned, in which the vorege Level group tolerance with regard to the relevant electrical parameter is observed, all places for PTC elements can be filled and as far as possible no functional PTC elements from production for the Must be discarded in the heating register.

The invention solves this problem by providing a heating register ter with the features of claim 1. This heating register includes a PTC element group with a fixed number of PTC Elements, d. H. all the places reserved for the same are also occupied. to Not only those PTC elements are used in the heating register  approved, the individual tolerance of the electrical Characteristic within one of the given group tolerance appropriate individual tolerance range, but also PTC elements the production, the individual tolerance of which lies outside of this range. The Several PTC elements are special for the heating register selected that they in total as an electrically interconnected group comply with the specified group tolerance. This can be done e.g. B. there by realizing that in cases where a selected PTC element in one direction outside the group tolerance Single tolerance range, one or more other PTC elements of manufacturing that are chosen in the other direction outside the s individual tolerance range and thereby cause the tole rance of all PTC elements together within the specified group pentolerance. This enables practical use if desired all manufactured, functional PTC elements for building such a heater register.

In an advantageous development of the invention according to claim 2 forms the electrical resistance or conductance for tolerance analysis relevant electrical parameter, and it becomes a group tolerance of ± 15% or less. According to the invention can nevertheless PTC elements can be used whose individual tolerance is clearly outside this group tolerance lies by using PTC elements in opposite Direction of deviating tolerance in the PTC element group the.

An advantageous embodiment of the invention is in the drawings shown and will be described below. Here show:

Fig. 1 is a plan view of a strip-shaped PTC heating register with the top plate removed and

Fig. 2 is a diagram of a typical frequency distribution of the individual tolerance of PTC elements from the manufacturing to Veran schaulichung selecting suitable PTC-elements for the heating coil to FIG. 1.

Fig. 1 shows a strip-shaped PTC heating register of known construction, as described in DE 44 34 613 A1 cited above. A sealing frame 1 z. B. from soft plastic material is provided with several openings 2 , in the example shown these are three openings into which a corresponding number of individual PTC elements 3 a, 3 b, 3 c is introduced. The PTC elements 3 a, 3 b, 3 c are held therein by a lower plate 4 and an upper plate removed in FIG. 1 for the purpose of recognizing the PTC elements 3 a, 3 b, 3 c. The sheets are also used for heat transport and electrical contacting of the PTC elements 3 a, 3 b, 3 c.

In the strip-shaped PTC heating register, the three PTC elements 3 a, 3 b, 3 c are electrically connected to one another in parallel to a corresponding PTC element group. It is specified that the electrical resistance or equivalent to the electrical conductance of the PTC element group and thus the heating register has to adhere to a certain tolerance, referred to herein as group tolerance. For example, ± 10% can be specified as group tolerance. On the other hand, each individual PTC element 3 a, 3 b, 3 c has a specific individual tolerance with regard to the selected electrical parameter, ie here with regard to the electrical resistance or conductance. In mass production of PTC elements, this scatters according to a frequency distribution, as is qualitatively shown in the diagram of FIG. 2 for a typical example.

As can be seen from FIG. 2, the frequency distribution has its maximum at the tolerance value 0%, ie the frequency maximum is at those manufactured PTC elements whose electrical resistance or conductance has the target value specified for the production. However, there are also PTC elements with resistance or conductance values that deviate from the setpoint. Although their number decreases with increasing distance of the actual resistance or conductance from the target value, overall there is nevertheless a considerable number of PTC elements, which with their resistance or conductance z. B. lie in the hatched area B _L of FIG. 2, ie lie by more than a lower limit value T _U below the target value, or lie in the right hatched area B _R in FIG. 2, ie by more than an upper limit value T _{O are} above the setpoint.

If only the PTC elements from production were selected for the construction of the heating register of FIG. 1, their resistance or conductance in the middle, unshaded area B _M in FIG. 2 with tolerances between the lower limit value T _U and the upper limit value T _O the required group tolerance could be adhered to. The restriction to the use of only such PTC elements from this single tolerance range B _M would have the disadvantage that a large number of z. B. mass-produced PTC elements would not be used, ie all PTC elements from the hatched areas B _L and B _R of Fig. 2. The lower and the upper limit value T _U , T _O are set so that this Individual tolerance range B _M corresponds to the specified group tolerance, ie if the individual tolerances of all three PTC elements 3 a, 3 b, 3 c are at the lower limit value T _U , this leads to an overall tolerance value at the lower limit of the specified group tolerance, and analogously then when the individual tolerances of the three PTC elements 3 a, 3 b, 3 c lie at the upper limit value T _O , a total tolerance value at the upper limit of the predetermined group tolerance. How this individual tolerance range B _M = [T _U , T _O ], which is to be determined in this way, extends in each case around the nominal value with a tolerance of 0%, depends clearly on the number of PTC elements in the PTC element group and on which ones mathematical relationship, the total value of the selected electrical parameter for the PTC element group results from the individual values of the individual PTC elements, as is understood by the person skilled in the art.

According to the invention, on the other hand, all manufactured PTC elements can be used by considering the individual tolerances in the selection of the three PTC elements 3 a, 3 b, 3 c for the heating register and a tolerance which deviates in one direction for one of the PTC elements Selection of one or more of the other PTC elements with tolerance deviating in the other direction is compensated. So z. B. to fill the three openings 2 of the heating register of FIG. 1, any PTC element as the first inserted PTC element 3 a can be picked out from an entire set of manufactured PTC elements. If this comes from the mean single tolerance range B _M of FIG. 2, there is practically complete freedom of choice for the second PTC element 3 b to be used. However, if the first PTC element 3 a originates from one of the regions B _L and B _R with a greater tolerance deviation, the second PTC element 3 b is preferably selected from the other of these two regions B _L , B _R. Depending on the overall tolerance that results from the two already selected PTC elements 3 a, 3 b, the third PTC element 3 c then becomes suitable either from the middle area B _{M with a} small tolerance or from one of the two areas B _L , B _R selected higher tolerance, so that overall the tolerance of the three selected and electrically interconnected PTC elements 3 a, 3 b, 3 c is within the predetermined overall tolerance.

By ensuring that each of multiple PTC Heating registers of a heating block built with it the desired tole compliance with the electrical resistance or conductance also ensures that the electrical resistance or conductance of the Total heating blocks is within a predeterminable tolerance.  

It goes without saying that heating registers with a be any other number of PTC elements. If necessary can fit with each for easier selection of the PTC elements the tolerance value a pre-grouping of all manufactured and functi capable PTC elements in predefinable groups with different Tolerance intervals may be provided. If a manufacturing system Number of such groups and the associated tolerance intervals as well as the Number of PTC elements to be inserted in the heating register known this is able to select and insert the Make PTC elements largely automated.

Since at least for the first PTC element of a heating register to be used there is complete freedom of choice from the entire set of manufactured PTC elements, it can be seen that all manufactured PTC elements can be used for the production of corresponding heating registers, even those with a high tolerance value, ie high deviation the electrical characteristic of the setpoint. Although such strongly deviating PTC elements cannot be used in the heating registers for the majority, this corrects without problems with the fact that only a few such PTC elements are produced in percentage terms, see the frequency distribution of FIG. 2.

The use according to the invention of practically all functional PTC elements from a series production can be recognized from the PTC heating registers produced by the fact that all the spaces for PTC elements are always occupied and PTC elements are also used, the individual tolerance of which outside the specified group tolerance Individual tolerance range B _M is.

Claims (2)

1. Heating register with
a plurality of individual PTC elements (3 a, 3 b, 3 c) electrically to a PTC element group interconnected and are such selected from a fabrication of PTC elements, that the PTC element group with respect to an electrical parameter complies with a predetermined group tolerance .
characterized in that
a predefinable fixed number of several PTC elements ( 3 a, 3 b, 3 c) is provided for the PTC element group, which results from the production of PTC elements with individual tolerances which are in a range (B _L , B _M , B _R ), which goes beyond the individual tolerance range (B _M ) corresponding to the specified group tolerance, are selected such that they comply with the group tolerance as an interconnected PTC element group. 2. Heating register according to claim 1, further characterized in that as the electrical parameter, the electrical resistance or conductance ge is selected and the specified group tolerance is at most ± 15%.