KR200285966Y1 - Temperature sensor housing - Google Patents

Abstract

The temperature sensor housing of the present invention is a general temperature sensor incorporating a temperature sensor assembly in which an electrical signal generated by a temperature sensor acting thermoelectrically in response to a temperature of a sensing object in a pipe is sent to the outside through a lead wire through a lead terminal. A housing, comprising: a cap (2) having a rotating shaft (27) formed at one end thereof and a cap fastening protrusion (28) having an undercut (29) formed at the other end thereof; A lead wire access groove 32 in which a terminal block fastening protrusion 38 having a locking jaw 39 is protruded is located at one end of the cap 2 so that opening and closing of the cap 2 is possible, and at the other end of the cap rotation shaft 27. A terminal block (3) having a hook (37) for supporting rotation, and on which ordinary terminals (33a, 33b) are located; A sensor head (4) having a packing inserting portion (43) and a female screw portion (44) into which the elastic packing (45) is inserted stepwise while being fixed by the terminal block (3) and the fastening means; An outer circumference of one side of the male screw portion 51 is formed to be fastened to the female screw portion 44 of the sensor head, and an inner surface of the other well mounting groove 52 has a nipple 5 machined to be capable of sliding insertion and detachment; And a conventional well 30 having an O-shaped ring mounting portion 35 in which an upper portion is slidably inserted into and detached from the mounting groove 52 of the nipple while the O-shaped ring 31 is mounted on an outer circumference thereof.

Description

Temperature sensor housing {TEMPERATURE SENSOR HOUSING}

The present invention relates to a temperature sensor housing incorporating a temperature sensor assembly in which an electrical signal generated by a temperature sensor acting thermoelectrically in response to a temperature of a sensing object in a pipe is sent to the outside through a lead terminal. The present invention relates to a temperature sensor housing that significantly improves work efficiency and sensor sensitivity by improving the structure of a conventional temperature sensor housing to be suitable for field work conditions.

1 shows a state diagram of use of a conventional temperature sensor housing.

As shown in FIG. 1, the conventional temperature sensor housing 11 has a structure in which the sensor head 14 and the cap 12 are fastened or separated by screwing, and a short of the terminal block and the lead wire embedded in the sensor head 14. Alternatively, in order to check for poor contact or the like, the cap 12 is rotated in a structure in which the screw coupling between the male threaded portion 17 of the sensor head and the female threaded portion (not shown) of the cap is rotated (A). It is a structure that needs to be checked after removing the head 14.

In general, in consideration of the dark and harsh environment around the pipe, it is cumbersome to release the screw coupling for inspection, and the cap 12 and the sensor head 14 are separated during the inspection. In addition to the risk of loss, in order to prevent the loss of the cap 12 when the work is added to the structure of another cumbersome component called the cap loss prevention line 15 connecting the cap 12 and the sensor head 14 The cap is prevented from hanging by the sensor head 14 by the loss prevention line 15, which is a factor that hinders work efficiency and the work environment.

On the other hand, when the lead wire 20 is to be drawn out of the sensor head 14 to check or replace the terminal or the lead wire 20, the conventional sensor head 14 is formed of a rigid body such as cast iron or carbon steel. The lead wire entrance 16 protrudes long, and the nipple 18 is screwed into the female threaded portion of the lead wire entrance 16 so that the nipple may be pulled out to lead the lead wire 20 for replacement of the lead wire. As shown in the figure, the lead wire 20 must be drawn out through the tunnel of the lead wire entrance 16 having a relatively long length. As a result, the loss of the nipple 18 and the inconvenience of the lead wire 20 withdrawal work under a poor working environment. The problem of implications frequently occurred.

In addition, when the well 40 (well, protective tube) in which the temperature sensor is built and the sensor head 14 is coupled, the male thread part 41 and the sensor head female thread part 19 of the well 40 are screwed without any special sealing means. In addition to the structure of the sensor or the humidity of the sensor (sensitivity) of the temperature (sensitivity) decreases due to the inflow of the sensing object or moisture, as well as the problem of the temperature sensor built in the well 40 in the field work In order to separate the well 40 for replacement or inspection, there was an inconvenience of dismantling the screw (B).

The present invention aims to provide a temperature sensor housing that significantly improves the ease of inspection, work efficiency and the sensitivity of the sensor by improving the structure of a conventional temperature sensor housing to be suitable for field working conditions. It is done.

1 is a use state diagram of a conventional temperature sensor housing

2 is a perspective view of a state in which one embodiment of the temperature sensor housing of the present invention is applied

3 is a side view of one embodiment of a temperature sensor housing of the present invention;

4 is a partially enlarged view of the cap and the terminal block fastening protrusion and the cap rotation shaft and the terminal block hook of FIG.

5 is an exploded view of the temperature sensor housing of the present invention

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is a perspective view showing a state of use of an embodiment of the temperature sensor housing of the present invention, Figure 3 is a side view of an embodiment of the temperature sensor housing of the present invention, Figure 4 is a cap and terminal block fastening protrusion and cap rotation shaft of FIG. A partial enlarged view of the terminal block hook, Figure 5 is an exploded view of the temperature sensor housing of the present invention.

The temperature sensor housing of the present invention is a general temperature sensor incorporating a temperature sensor assembly in which an electrical signal generated by a temperature sensor acting thermoelectrically in response to a temperature of a sensing object in a pipe is sent to the outside through a lead wire through a lead terminal. In the housing,

A cap 2 having a rotating shaft 27 formed at one end thereof and a cap fastening protrusion 28 having an undercut 29 formed at the other end thereof, while an O-shaped ring 60 is inserted therein;

A lead wire access groove 32 in which a terminal block fastening protrusion 38 having a locking jaw 39 is protruded is located at one end of the cap 2 so that opening and closing of the cap 2 is possible, and at the other end of the cap rotation shaft 27. A terminal block (3) having a hook (37) for supporting rotation, and on which ordinary terminals (33a, 33b) are located;

A sensor head 4 which is fixed by the terminal block 3 and the fastening means, and the packing inserting portion 43 and the female threaded portion 44 in which the elastic packing 45 is inserted into the through groove are stepped;

An outer circumference of one side of the male screw portion 51 is formed to be fastened to the female screw portion 44 of the sensor head, and an inner surface of the other well mounting groove 52 has a nipple 5 machined to be capable of sliding insertion and detachment;

And a conventional well 30 having an O-shaped ring mounting portion 35 in which an upper portion is slidably inserted into and detached from the mounting groove 52 of the nipple while the O-shaped ring 31 is mounted on an outer circumference thereof. It is done.

3 and 4, the present invention will be described in more detail, the temperature sensor housing 1 of the present invention has a structure in which the rotation axis 27 of the cap is located in the sensor head hook 37, the opening and closing of the cap (2) According to (Fig. 2; C), the cap 2 is rotated about the rotation axis (27). On the other hand, the cap 2, the terminal block 3 and the sensor head 4 is preferably formed of an elastic material such as synthetic resin, so, as shown in Figure 4 when closing the cap 2 as shown in Figure 4 The tapered portion of the undercut 29 of the formed cap fastening protrusion 28 is deformed while pushing the terminal block fastening protrusion 38 outwardly and moves downward, and then the locking jaw 39 and the undercut of the cap fastening protrusion 38 are formed. 29) is engaged with the stepped part. To open the cap 2, a slight external force is applied upwardly to the opening protrusion 26 (see FIG. 2) protruding from the cap 2 to release the engagement between the undercut 29 and the locking jaw 39. ) Is opened. Therefore, the undercut 29 is manufactured in an appropriate shape and size in consideration of the elastic modulus of the elastic material of the cap 2 and the terminal block 3, the ease of opening and closing the cap, and the factors of the working environment.

On the other hand, the shape and size of the lead wire access groove 32 (refer to FIG. 2) located at the end of the terminal block 3 is also preferably designed in consideration of the ease of access of the lead wire 7 and the working environment.

Referring to FIG. 5, when assembling the sensor housing 1, the terminal block 3 is fixedly coupled to the sensor head 4 by a fastening means such as screw coupling with the sensor head 4, and a packing shovel of the sensor head 4. A packing rubber 45 made of an elastic material such as silicon is inserted into the fitting portion 43, and the male screw portion 51 of the nipple and the female screw portion 44 of the sensor head are screwed together. Since the front end portion of the male screw portion 51 of the nipple compresses and deforms the elastic packing 45 when the screw is fastened, the elastic packing 45 is in close contact with the inner circumference of the packing insert 43. Generate. On the other hand, the O-shaped ring 31 of the elastic material is fitted to the O-ring ring mounting portion 35 located at one outer periphery of the well 30.

Referring to FIGS. 2 and 5, the configuration and operation of inserting and detaching the well 30 into the nipple 5 will be described. As described above, the well 30 has an O-shaped ring mounting part 35 located at one outer circumference. The O-shaped ring 31 of the raw material is fitted, and the outer diameter of the O-shaped ring 31 in the state of being fitted in the well 30 is slightly larger than the diameter of the mounting groove 52 of the nipple.

Therefore, when the well 30 is inserted into and detached from the nipple 5, the O-shaped ring 31 of the elastic material is elastically deformed and slidably pulled out or inserted while contacting the inner wall of the mounting groove 52 of the nipple. (D). In this case, since the restoring force of the elastically deformed O-shaped ring 31 acts on the inner wall of the mounting groove 52 of the nipple, the well 30 remains fixed to the nipple 5 after insertion, and the well 30 Sealing of the fluid or moisture to be detected may be introduced into the gap between the nipple and the nipple (5). On the other hand, the O-ring 31 of the elastic material is the material, elasticity of the O-ring 31 in consideration of a variety of factors, such as the force required for withdrawal, the clamping force with the nipple (5) when inserting, the working environment, the degree of sealing required and durability Modifications such as modulus and ring thickness are possible.

Therefore, in the temperature sensor housing 1 of the present invention, the problem of a sealing function that lowers the sensitivity of the conventional temperature sensor is solved in the O-shaped ring 31 and the elastic packing 45 of the well, and the temperature sensor 6 and the like during operation. If it is necessary to check or replace the conventional, simply slide the well 30 withdraw without needing to unscrew the well and the nipple as the conventional temperature sensor 6 is pulled out through the hole 34 of the well, so the ease of operation The conventional temperature sensor is highly improved, since a nipple is added between the sensor head and the well in the conventional structure, and the well tip is processed according to the present invention, and then the O-ring 31 and the elastic packing 45 are applied. It can also be easily applied to the housing.

In addition, the temperature sensor access groove (not shown) located in the upper side of the conventional well has a relatively large inner diameter, and there is room for flow of lead wires connected between the temperature sensor and the terminal block, causing short or poor contact. The sensor housing 1 has a structure in which the lead wire on the upper part of the temperature sensor 6 passes through the elastic packing 45 and the through groove (not shown) in the nipple 5. Problems such as poor contact.

The present invention has the effect of improving the structure of the conventional temperature sensor housing to suit the field working conditions to improve the ease of inspection, work efficiency and sensitivity of the sensor.

Claims (1)

In a typical temperature sensor housing in which a temperature sensor assembly in which an electrical signal generated by a temperature sensor acting thermoelectrically in response to a temperature of a sensing object in a pipe is sent to the outside via a lead terminal through a lead terminal, A cap 2 having a rotating shaft 27 formed at one end thereof and a cap fastening protrusion 28 having an undercut 29 formed at the other end thereof, while an O-shaped ring 60 is inserted therein; A lead wire access groove 32 in which a terminal block fastening protrusion 38 having a locking jaw 39 is protruded is located at one end of the cap 2 so that opening and closing of the cap 2 is possible, and at the other end of the cap rotation shaft 27. A terminal block (3) having a hook (37) for supporting rotation, and on which ordinary terminals (33a, 33b) are located; A sensor head 4 which is fixed by the terminal block 3 and the fastening means, and in which the packing inserting portion 43 and the female screw portion 44 are stepped in the through groove, in which the elastic packing 45 is inserted; An outer circumference of one side of the male screw portion 51 is formed to be fastened to the female screw portion 44 of the sensor head, and an inner surface of the other well mounting groove 52 has a nipple 5 machined to be capable of sliding insertion and detachment; And a conventional well 30 having an O-shaped ring mounting portion 35 in which an upper portion is slidably inserted into and detached from the mounting groove 52 of the nipple while the O-shaped ring 31 is mounted on an outer circumference thereof. Temperature sensor housing.