KR200228692Y1 - Structure for fixing thermistor of boiler - Google Patents

Abstract

The present invention is in the thermistor fixing structure of the boiler for fixing the thermistor 20 having a base 22 on the outer surface of the middle portion of the thermistor body 21 to the pipe 8, the thermistor body 21 on the upper side A catching portion 6a to which the pedestal 22 is caught to stop the insertion of the pedestal 22, and a lower end of the tubular body 6 formed to communicate with the pipe 8; The first elastic piece 31 is elastically fitted to the outside of the thermistor body 21 corresponding to the upper side of the pedestal 22, and the second elastically fitted to the surface on the outside of the cylinder (6) A clamper 33 which interconnects the elastic piece 32, the first elastic piece 31 and the second elastic piece 32, and simultaneously clamps the engaging portion 6a of the pedestal 22 and the cylinder 6. Thermistor departure prevention device 30 made of; Characterized in that made.

The thermistor fixing structure of the boiler according to the present invention configured as described above can shorten the time required for replacement of the thermistor at the same time, and at the same time simplify the assembly structure to improve productivity.

Description

Thermistor fixing structure of boiler {STRUCTURE FOR FIXING THERMISTOR OF BOILER}

The present invention relates to the thermistor fixing structure of the boiler, and more particularly, the thermistor of the boiler to shorten the time required for the replacement of the thermistor at the same time and to improve productivity by simplifying the assembly structure. It relates to a fixed structure.

As is well known, a boiler device that provides heating of a building or a house by using fuel such as gas or diesel is being developed as well as its performance is gradually being improved.

For example, there is a tendency to gradually shift the system operation from the manual control method to the electronic control method from the operation of the boiler device to the operation to the stop.

The above-described electronic control system includes various sensors inside the boiler device, and is configured to receive information output from the sensor from a controller called an ECU so as to control various internal devices with electrical signals. For example, In order to detect the temperature of the heating water flowing through the pipe installed inside the boiler, there is a temperature sensor called thermistor on the pipe.

However, when a failure occurs such that the thermistor cannot perform the function of sensing during the use of the boiler device, the boiler device may malfunction.

Thus, the failed thermistor is replaced in order to prevent the malfunction of the boiler apparatus described above.

1 is a cross-sectional view illustrating a thermistor fixing structure of a boiler according to the prior art, and FIG. 2 is a perspective view illustrating an appearance of a thermistor fixing bracket according to the prior art.

The thermistor 1 is composed of a substantially cylindrical thermistor body 2 and an annular pedestal 3 formed on the outside corresponding to approximately the middle of the thermistor body 2.

Here, although the inside of the thermistor body 2 is equipped with various structures which detect a temperature, it abbreviate | omits from a prior description in order to make the summary of this invention clearer.

The thermistor 1 is installed on a pipe 8 through which a liquid (hereinafter referred to as heating water) passes. When this is explained, an opening hole 8a having a predetermined size is formed outside the pipe 8. The lower end of the cylinder 6 opened up and down is fixed to the opening hole 8a by spot welding, arc welding, or the like.

Therefore, it becomes a structure in which the inside of the cylinder 6 and the inside of the piping 8 mutually communicate.

A locking portion 6a bent at a right angle is formed at the upper end of the cylinder 8, and a seating portion 6b on which the O-ring 7 is seated is formed stepped inside the cylinder 8.

The thermistor body (2) is inserted into the cylinder (8), the insertion stops as it is caught on the pedestal (3), after which the thermistor body (2) is not separated from the cylinder (8) Tighten the thermistor fixing bracket (4).

Both ends of the thermistor fixing bracket 4 are provided with bolt fastening holes 4a for fastening the bolts 5, and in the middle part, the body insertion holes 4b into which the upper end 2a of the thermistor body 2 is inserted. Is formed.

After inserting the thermistor body 2 into the body insertion hole 4b of the thermistor fixing bracket 4 configured as described above, the both ends of the thermistor fixing bracket 4 and the engaging portions 6a of the cylinder 6 are mutually Screw on with bolts (5).

Here, reference numeral 6c denotes a screw hole to which the bolt 5 is screwed.

By doing so, the thermistor body 2 is not detached from the cylinder 6 because the pedestal 3 is fixed to the thermistor fixing bracket 4.

By the way, according to the thermistor fixing structure according to the prior art, when the thermistor is in a failure state such that the thermistor can no longer sense the temperature during the use of the boiler device, the user is to replace it, the two bolts during assembly and disassembly There was also a problem that the work time was delayed as the troublesome work of loosening and tightening (5) was performed.

The present invention has been devised to solve the above problems, fixing the thermistor of the boiler to shorten the time required for the replacement of the thermistor and to improve productivity by simplifying the assembly structure. The purpose is to provide a structure.

1 is a cross-sectional view showing a thermistor fixing structure of the boiler according to the prior art.

Figure 2 is a perspective view showing the appearance of the thermistor fixing bracket according to the prior art.

Figure 3 is a sectional view showing a thermistor fixing structure of the boiler according to the present invention.

Figure 4 is a perspective view showing the appearance of the thermistor departure prevention tool according to the present invention.

<Explanation of symbols for the main parts of the drawings>

6: cylinder 6a: locking portion

8: piping 20: thermistor

21: thermistor body 22: stand

30: Thermistor departure prevention tool 31: First elastic piece

32: second elastic piece 33: clamper

31a, 32a: Guide

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention in detail as follows.

Figure 3 is a cross-sectional view showing a thermistor fixing structure of the boiler according to the present invention, Figure 4 is a perspective view showing the appearance of the thermistor departure prevention tool according to the present invention.

The thermistor 20 is composed of a substantially cylindrical thermistor body 21 and an annular pedestal 22 formed on the outside corresponding to approximately the middle of the thermistor body 21.

Here, although the inside of the thermistor body 21 is equipped with various structures which detect a temperature, the description is abbreviate | omitted in order to make the summary of this invention clearer.

The thermistor 20 is installed on a pipe 8 through which a liquid (hereinafter referred to as heating water) passes. When this is explained, an opening hole 8a having a predetermined size is formed outside the pipe 8. The lower end of the cylinder 6 opened up and down is fixed to the opening 8a by spot welding, arc welding, or the like.

Therefore, it becomes a structure in which the inside of the cylinder 6 and the inside of the piping 8 mutually communicate.

A locking portion 6a bent at a right angle is formed at the upper end of the cylinder 8, and a seating portion 6b on which the O-ring 7 is seated is formed stepped inside the cylinder 8.

The thermistor body 21 is inserted into the cylinder 8, and then the insertion stops as it is caught by the pedestal 22, so that the thermistor body 21 is not separated from the cylinder 8 afterwards. Tighten the thermistor escape lock (30).

This thermistor escape prevention device 30 has a first elastic piece 31 elastically fitted to the outside of the thermistor body 21 corresponding to the upper side of the pedestal 22, and a surface on the outside of the cylinder 6. The second elastic piece 32 and the first elastic piece 31 and the second elastic piece 32, which are elastically fitted to each other, are connected to each other, and the engaging portion of the pedestal 22 and the cylinder 6 It consists of a clamper 33 which clamps 6a) simultaneously.

The first and second elastic pieces 31 and 32 are formed in an annular shape in which a section of a predetermined length is broken, and the guide pieces 31a for guiding the initial entry of the thermistor body 21 and the cylinder 6 to the broken end portion. 32a).

The clamper 33 is formed in the shape of a 'c' longitudinal section.

Referring to the assembly sequence of the subject innovation configured as described above are as follows.

First, when the thermistor body 21 is inserted into the cylinder 6, the pedestal 22 of the thermistor body 21 is caught by the engaging portion 6a of the cylinder 6, and the thermistor body 21 is no longer inserted. It doesn't work.

Subsequently, in the above state, the first elastic piece 31 and the second elastic piece 32 of the thermistor separation prevention device 30 are coupled to the cylinder 6 and the thermistor body 21.

Here, in the process of coupling the thermistor departure preventing device 30, the guide pieces 31a and 32a of the first and second elastic pieces 31 and 32 first contact the thermistor body 21 and the cylinder 6, respectively. As the first and second elastic pieces 31 and 32 are elastically opened.

Thereafter, as the first and second elastic pieces 31 and 32 are opened, the thermistor body 21 and the cylinder 6 are completely inserted into the first and second elastic pieces 31 and 32.

As a result, the coupling of the thermistor escape prevention device 30 is completed.

On the other hand, to remove the thermistor departure prevention tool 30 may proceed in the reverse order of assembly, the description thereof will be omitted.

Therefore, the thermistor is fixed in the state inserted in the inside of a cylinder, and is not detached.

As described above, according to the present invention, it is possible to shorten the time required for the replacement of the thermistor at the same time, and to improve productivity by simplifying the assembly structure.

Claims (3)

In the thermistor fixing structure of the boiler for fixedly installing the thermistor 20 provided with the base 22 in the outer surface of the middle part of the thermistor body 21 to the piping 8, An upper end portion having a catching portion 6a through which the pedestal 22 is caught so as to stop the insertion of the thermistor body 21, and a lower end portion having a tubular body 6 formed in communication with the pipe 8; The first elastic piece 31 which is elastically fitted to the outside of the thermistor body 21 corresponding to the upper side of the pedestal 22 and the elastic fitting to the surface on the outer side of the cylinder 6 The second elastic piece 32 to be connected, and the first elastic piece 31 and the second elastic piece 32 are interconnected, but simultaneously clamping the engaging portion 6a of the pedestal 22 and the cylinder 6 Thermistor separation prevention device 30 made of a clamper 33 to be; Thermistor fixing structure of the boiler, characterized in that made. The method of claim 1, The first and second elastic pieces 31 and 32 are formed in an annular shape in which a section of a predetermined length is broken, and a guide for guiding an initial entrance of the outer circumferential surface of the thermistor body 21 and the cylinder 6 to the broken end portion. Thermistor fixing structure of the boiler characterized in that the piece (31a, 32a) is provided. The method of claim 1, The clamper 33, thermistor fixing structure of the boiler, characterized in that the longitudinal section is formed in the '' 'shape.