CN202905336U - High-pressure and high-resistance glass glaze resistor - Google Patents

Abstract

The utility model discloses a high-pressure and high-resistance glass glaze resistor. The high-pressure and high-resistance glass glaze resistor comprises a conductive substrate; a resistor is arranged on the front surface of the conductive substrate; a first electrode is arranged at one end of the resistor, while a second electrode is arranged at the other end of the resistor; the first electrode is connected with a first lead; a first front surface branch, a second front surface branch and a first back surface branch are arranged at one end of the first lead; the conductive substrate is buckled among the first front surface branch, the second front surface branch and the first back surface branch; the first front surface branch and the second front surface branch are abutted against the first electrode; the first back surface branch is abutted against the back surface of the conductive substrate; the second electrode is connected with a second lead; a third front surface branch, a fourth front surface branch and a second back surface branch are arranged at one end of the second lead; the conductive substrate is buckled among the third front surface branch, the fourth front surface branch and the second back surface branch; the third front surface branch and the fourth front surface branch are abutted against the second electrode; and the second back surface branch is abutted against the back surface of the conductive substrate. The high-pressure and high-resistance glass resistor is high in reliability, long in service life, low in production cost, and convenient for popularization and application.

Description

The high-voltage high resistance glass glaze resistor

Technical field

The utility model relates to a kind of resistor, particularly relates to a kind of high-voltage high resistance glass glaze resistor.

Background technology

Glass glaze resistor is the resistive element that a kind of resistive element is formed via the printing-sintering technical cure by the glass glaze conductor paste.The resistor that uses in fields such as instrument and meter, industrial automations, the General Requirements volume is little, resistance is high, limiting voltage is high and reliable and stable.At present, the resistor resistance only accomplishes that limiting voltage is also very little below hundred megaohms mostly, and a kind of connected mode of welding is only arranged, and is difficult to guarantee the market demand and high reliability.

The utility model content

The purpose of this utility model is to overcome above-mentioned deficiency of the prior art, and a kind of high-voltage high resistance glass glaze resistor is provided.The reliability of this high-voltage high resistance glass glaze resistor is high, long service life, and it is simple in structure, easy to use, production cost is low, is convenient to promote the use of.

For achieving the above object, the technical solution adopted in the utility model is: the high-voltage high resistance glass glaze resistor, it is characterized in that: comprise conducting base, the front of described conducting base is provided with resistance, one end of described resistance is provided with electrode one, the other end of described resistance is provided with electrode two, described electrode one is connected with lead-in wire one, one end of described lead-in wire one is provided with positive branch one, positive branch two and back side branch one, described conducting base is connected to positive branch one, between positive branch two and the back side branch one, described positive branch one and positive branch two all are connected on the electrode one, and described back side branch one is connected to the back side of conducting base; Described electrode two is connected with lead-in wire two, one end of described lead-in wire two is provided with positive branch three, positive branch four and back side branch two, described conducting base is connected between positive branch three, positive branch four and the back side branch two, described positive branch three and positive branch four all are connected on the electrode two, and described back side branch two is connected to the back side of conducting base.

Above-mentioned high-voltage high resistance glass glaze resistor is characterized in that: described resistance is waveform.

Above-mentioned high-voltage high resistance glass glaze resistor is characterized in that: the surface of described conducting base is encapsulated with dielectric layer.

Above-mentioned high-voltage high resistance glass glaze resistor is characterized in that: described positive branch one and positive branch two all are welded on the electrode one, and described positive branch three and positive branch four are welded on the electrode two.

Above-mentioned high-voltage high resistance glass glaze resistor is characterized in that: the length of described conducting base is 22mm, and the width of described conducting base is 6mm.

The utility model compared with prior art has the following advantages:

1, of the present utility model simple in structure, rationally novel in design, be easy to install.

2, the utility model arranges positive branch one, positive branch two and back side branch one by the end at lead-in wire one, and by at a lead-in wire end of two positive branch three, positive branch four and back side branch two being set, conducting base is connected between positive branch one, positive branch two and the back side branch one, conducting base is connected between positive branch three, positive branch four and the back side branch two, thereby guarantee that conducting base is firm with contacting of lead-in wire two with lead-in wire one, the useful life of having improved this resistor.

3, realization cost of the present utility model is low, and result of use is good, is convenient to promote the use of.

In sum, the utility model is simple in structure, and is rationally novel in design, and functional reliability is high, long service life, and result of use is good, is convenient to promote the use of.

Below by drawings and Examples, the technical solution of the utility model is described in further detail.

Description of drawings

Fig. 1 is structural representation of the present utility model.

Fig. 2 is the annexation schematic diagram of the utility model resistance and electrode one and electrode two.

Fig. 3 is the structural representation of the utility model lead-in wire one (lead-in wire two).

Description of reference numerals:

1-conducting base; 1-1-electrode one; 1-2-electrode two;

1-3-dielectric layer; 1-4-resistance; 2-lead-in wire one;

2-1-positive branch one; 2-2-positive branch two; 2-3-back side branch one;

3-lead-in wire two; 3-1-positive branch three; 3-2-positive branch four;

3-3-back side branch two.

Embodiment

Such as Fig. 1, Fig. 2 and a kind of high-voltage high resistance glass glaze resistor shown in Figure 3, comprise conducting base 1, the front of described conducting base 1 is provided with resistance 1-4, the end of described resistance 1-4 is provided with electrode one 1-1, the other end of described resistance 1-4 is provided with electrode two 1-2, described electrode one 1-1 is connected with lead-in wire 1, one end of described lead-in wire 1 is provided with positive one 2-1 of branch, positive two 2-2 of branch and one 2-3 of back side branch, described conducting base 1 is connected to positive one 2-1 of branch, between positive two 2-2 of branch and one 2-3 of back side branch, described one 2-1 of positive branch and two 2-2 of positive branch all are connected on electrode one 1-1, and the described back side one 2-3 of branch is connected to the back side of conducting base 1; Described electrode two 1-2 are connected with lead-in wire 23, one end of described lead-in wire 23 is provided with positive three 3-1 of branch, four 3-2 of positive branch and two 3-3 of back side branch, described conducting base 1 is connected between positive three 3-1 of branch, four 3-2 of positive branch and two 3-3 of back side branch, described three 3-1 of positive branch and four 3-2 of positive branch all are connected on electrode two 1-2, and the described back side two 3-3 of branch are connected to the back side of conducting base 1.Described one 2-1 of positive branch and two 2-2 of positive branch all are welded on electrode one 1-1, and described positive three 3-1 of branch and four 3-2 of positive branch are welded on electrode two 1-2.The length of described conducting base 1 is 22mm, and the width of described conducting base 1 is 6mm.

In the present embodiment, by the end at lead-in wire 1 positive one 2-1 of branch is set, positive two 2-2 of branch and one 2-3 of back side branch, and by at a lead-in wire end of 23 positive three 3-1 of branch being set, positive four 3-2 of branch and two 3-3 of back side branch, conducting base 1 is connected to positive one 2-1 of branch, between positive two 2-2 of branch and one 2-3 of back side branch, conducting base 1 is connected to positive three 3-1 of branch, between positive four 3-2 of branch and two 3-3 of back side branch, thereby guarantee that conducting base 1 is firm with contacting of lead-in wire 23 with lead-in wire 1, it is little to have satisfied high-voltage high resistance glass glaze resistor volume, resistance is high, high and the reliable and stable requirement of limiting voltage, its result of use is good, long service life.

As depicted in figs. 1 and 2, described resistance 1-4 is waveform, and is made by glass glaze.The surface of described conducting base 1 is encapsulated with dielectric layer 1-3.

The above; it only is preferred embodiment of the present utility model; be not that the utility model is imposed any restrictions; every according to the utility model technical spirit to any simple modification, change and equivalent structure transformation that above embodiment does, all still belong in the protection range of technical solutions of the utility model.

Claims (5)

1. high-voltage high resistance glass glaze resistor, it is characterized in that: comprise conducting base (1), the front of described conducting base (1) is provided with resistance (1-4), one end of described resistance (1-4) is provided with electrode one (1-1), the other end of described resistance (1-4) is provided with electrode two (1-2), described electrode one (1-1) is connected with lead-in wire one (2), one end of described lead-in wire one (2) is provided with positive branch one (2-1), positive branch two (2-2) and back side branch one (2-3), described conducting base (1) is connected to positive branch one (2-1), between positive branch two (2-2) and the back side branch one (2-3), described positive branch one (2-1) and positive branch two (2-2) all are connected on the electrode one (1-1), and the described back side one (2-3) of branch is connected to the back side of conducting base (1); Described electrode two (1-2) is connected with lead-in wire two (3), one end of described lead-in wire two (3) is provided with positive branch three (3-1), positive branch four (3-2) and back side branch two (3-3), described conducting base (1) is connected between positive branch three (3-1), positive branch four (3-2) and the back side branch two (3-3), described positive branch three (3-1) and positive branch four (3-2) all are connected on the electrode two (1-2), and the described back side two (3-3) of branch are connected to the back side of conducting base (1).

2. high-voltage high resistance glass glaze resistor according to claim 1 is characterized in that: described resistance (1-4) is waveform.

3. high-voltage high resistance glass glaze resistor according to claim 1, it is characterized in that: the surface of described conducting base (1) is encapsulated with dielectric layer (1-3).

4. high-voltage high resistance glass glaze resistor according to claim 1, it is characterized in that: described positive branch one (2-1) and positive branch two (2-2) all are welded on the electrode one (1-1), and described positive branch three (3-1) and positive branch four (3-2) are welded on the electrode two (1-2).

5. high-voltage high resistance glass glaze resistor according to claim 1, it is characterized in that: the length of described conducting base (1) is 22mm, the width of described conducting base (1) is 6mm.

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