KR200438729Y1 - Temperature sensor assembly have a bracket - Google Patents

Abstract

The present invention relates to a temperature sensor assembly, according to one aspect of the present invention, the temperature sensor assembly for measuring the fluid temperature in the pipe is installed in the fluid flow pipe, the temperature sensor mounted therein, and is formed on the outer peripheral surface A housing having a depression and a ring groove formed at one side of the depression; One side is cut and wraps around the outer circumferential surface of the ball portion, and a ring portion is formed at the cut end, and the housing support is fixed to the ring groove, and extends while inclined upward from the housing support to be formed to extend from the bent portion and the bent portion in contact with the pipe. Provided is a temperature sensor assembly with a bracket having a pipe support having an end, the bracket comprising a bracket to secure the housing to the pipe.

According to another aspect of the present invention, in the temperature sensor assembly for measuring the fluid temperature in the pipe is installed in the flowing pipe, a temperature sensor mounted therein, and a pair formed side by side spaced apart parallel to the outer peripheral surface A housing having a sidewall of the bottom wall and a bottom wall connecting the sidewalls and having a support protrusion; A bracket having a first flat part formed at one end and having an opening through which the support protrusion passes, and a bent part contacting the pipe at the other end and a free end extending from the bent part; An upper portion is formed in an incision, and a lower portion is supported by a supporting protrusion to support a lower portion of the first flat portion, and extends in the opposite direction on the same line from the cut upper portion of the base rod, and is fixed to the side wall hole to fix the upper portion of the first flat portion. Provided is a temperature sensor assembly with a bracket, comprising a support rod having an extension rod for supporting it.

Bracket, Temperature Sensor Assembly, Housing, Support Rod, Pipe

Description

Temperature sensor assembly have a bracket}

1 is a perspective view illustrating a temperature sensor assembly having a bracket according to an embodiment of the present invention;

FIG. 2 is an exploded perspective view of the temperature sensor assembly shown in FIG. 1;

3 is a state diagram used in the temperature sensor assembly shown in FIG.

Figure 4 is a perspective view showing a temperature sensor assembly with a bracket according to another embodiment of the present invention,

5 is a perspective view showing a housing employed in the temperature sensor assembly shown in FIG. 4;

6 is a perspective view showing a bracket employed in the temperature sensor assembly shown in FIG.

FIG. 7 is a perspective view illustrating a support rod employed in the temperature sensor assembly shown in FIG. 4.

Explanation of symbols on the main parts of the drawings

1,100: temperature sensor assembly with bracket 10,110: housing

11,111: temperature sensor 12: depression

13: flat surface 20,120: bracket

30 housing support 31 ring part

32: engaging hole 33: bracket flat surface

40: pipe support portion 41: first flat portion

42: second flat portion 43: bent portion

44: free end 112: side wall

113: bottom wall 121: first flat plate

122: second flat plate 123: third flat plate

124: fourth flat plate 125: bent portion

126: free end 130: support rod

131: base rod 132: extension rod

200: pipe

The present invention relates to a temperature sensor assembly, and more particularly to a temperature having a bracket for installing a housing with a temperature sensor on the cylindrical member for measuring the temperature of a fluid flowing in the cylindrical member such as a fluid conduit such as a pipe. Relates to a sensor assembly.

Prior art Korea Patent Registration No. 10-0541473 (December 29, 2005) "Temperature sensor detachment device of heat exchanger" is to close the temperature sensor for sensing the temperature of the heat exchanger to the sensor holder to reduce the temperature deviation and to remove the clip and sensor It is to prevent, and a temperature sensor for sensing the temperature of the heat exchanger; A sensor holder attached to the heat exchanger tube of the heat exchanger and accommodating a temperature sensor; And a clip formed of an elastic wire rod coupled to the sensor holder to prevent separation of the temperature sensor, wherein the clip includes a handle piece extending over the top of the sensor holder, and a sensor support piece providing a predetermined elastic force at the center of the sensor holder. It is composed of a clip release prevention piece that is bent in the rear direction at the lower end of the sensor holder to prevent the clip from being separated from the sensor holder, and a sensor release prevention piece that protrudes upward from the lower end of the sensor holder to support the lower end of the temperature sensor. .

In general, the temperature sensor assembly installed in the pipe through which the fluid flows and used to measure the temperature of the fluid should be easily mounted on a cylindrical member such as a pipe, and should be able to maintain the adhesion between the temperature sensor and the pipe after being mounted. Prolonged use of the sensor assembly shall be resistant to crack corrosion caused by contact of pipes, brackets, clips, and other fixing means.

In the above-described prior art, there is an intermediate member between the sensor and the measuring object, so that the adhesion between the temperature sensor and the measuring object cannot be maintained, thereby reducing the accuracy of the temperature measurement, and the clip alone cannot maintain the fixability due to the impact of the fluid flowing through the pipe. There are disadvantages.

The present invention has been devised to solve the above problems, an embodiment of the present invention is a temperature with a bracket that can improve the accuracy of the temperature measurement by allowing the temperature sensor to be in direct contact with a cylindrical member such as a pipe Associated with the sensor assembly.

In addition, an embodiment of the present invention relates to a temperature sensor assembly having a bracket which can be fixed to the cylindrical member to be measured as well as being easily mounted after the temperature sensor is mounted.

In order to achieve the above object, the present invention is a temperature sensor assembly for measuring the fluid temperature in the pipe is installed in the fluid flow pipe, the temperature sensor mounted therein, a depression formed on the outer peripheral surface, one side of the depression A housing having a ring groove formed in the housing; One side is cut and wraps around the outer circumferential surface of the ball portion, and a ring portion is formed at the cut end, and the housing support is fixed to the ring groove, and extends while inclined upward from the housing support to be formed to extend from the bent portion and the bent portion in contact with the pipe. Provided with a pipe support having an end, the bracket comprises a bracket for fixing the housing to the pipe.

In addition, the present invention is a temperature sensor assembly for measuring the fluid temperature in the pipe is installed in the fluid flow pipe, the temperature sensor mounted therein, and a pair of side walls having a side wall hole formed parallel to the outer peripheral surface and A housing having a bottom wall connecting the side walls and having a support protrusion; A bracket having a first flat part formed at one end and having an opening through which the support protrusion passes, and a bent part contacting the pipe at the other end and a free end extending from the bent part; An upper portion is formed in an incision, and a lower portion is supported by a supporting protrusion to support a lower portion of the first flat portion, and extends in the opposite direction on the same line from the cut upper portion of the base rod, and is fixed to the side wall hole to fix the upper portion of the first flat portion. It provides a temperature sensor assembly with a bracket, characterized in that it comprises a support rod provided with an extension rod for supporting.

1 is a perspective view showing a temperature sensor assembly with a bracket according to an embodiment of the present invention, Figure 2 is an exploded perspective view of the temperature sensor assembly shown in Figure 1, Figure 3 is a temperature sensor shown in Figure 1 This is a state diagram of an assembly.

The temperature sensor assembly 1 provided with the bracket according to the preferred embodiment of the present invention includes a housing 10 and a bracket 20.

The housing 10 is preferably a temperature sensor 11 mounted to the central portion of the cylindrical body, as shown in Figure 2, a flat surface 13 formed on the side of the body by the height of the body, and the flat surface It has a recessed portion 12 extending from one side to the other side of (13).

The temperature sensor 11 is known and serves to sense the temperature. The temperature sensor 11 is preferably fitted to a groove (not shown) formed in the housing 10. Specifically, an electric lead 11a is formed below the temperature sensor 11, which is connected to a controller (not shown).

The flat surface 13 is preferably formed extending from the upper surface to the lower surface of the housing 10, as shown in Figure 2, which is in contact with the bracket flat surface 33 to be described later. The above-described flat surface 13 serves to prevent the distortion of the bracket 20 when the bracket 20 is to be described later to form an angled portion, that is, an edge in the cylindrical housing 10 is coupled.

The depression 12 is formed around the outer circumferential surface of the body as shown in Figure 2, it is preferable that the flat surface 13 is not formed. At one side of the recess 12, that is, at a position in line with the flat surface 13, a ring groove 12a is formed to primarily support the bracket 20 to be described later. This ring groove 12a is formed by forming a jaw spaced apart from the depression 12 as shown in FIG.

In addition, the recessed portion 12 is formed between the ring groove 12a and the flat surface 13, a pair of engaging projections (12b) having a preferably right-angled triangular cross-section is formed on the same line, which will be described later 32) serves to secondaryly support the bracket (20).

The bracket 20 is preferably a housing support part 30 which is fitted and wrapped around the outer circumferential surface of the housing 10, as shown in FIG. 2, extends from the housing support part 30, and has a temperature sensor 11. ) Is provided with a pipe support 40 for close contact with and secure the pipe 200 as shown in FIG.

The housing support part 30 is seated on the depression 12 in a shape corresponding to the housing 10, that is, a thin plate shape having an empty inside. One side of the housing support portion 30, that is, the portion coupled to the portion where the ring groove 12a is formed, is cut at one side, and the cut end is formed with a ring portion 31 as shown in FIG. It is coupled to the groove 12a.

In addition, the housing support part 30 is preferably formed with a rectangular locking hole 32 at a position corresponding to the locking protrusion 12b, and the locking protrusion 12b is inserted and supported therein. Further, the housing support 30 is formed with a bracket flat surface 33 extending from the top to the bottom thereof and in contact with the flat surface 13.

The pipe support 40 may include a first flat portion 41 extending perpendicularly from the housing support 30 to the outside, and a second flat portion 42 extending perpendicularly from the first flat portion 41 upwardly. And a third flat portion 43a and a third flat portion 43a having a longer length than the first and second flat portions and extending downwardly from the second flat portion 42. A bent portion 43 formed of a fourth flat portion 43b formed at right angles and having a relief portion 43aa on the third flat portion 43a or the fourth flat plate contacting the pipe 200; and the fourth flat portion 43a. It consists of a free end 44 extending at right angles from the portion 43b.

The relief 43aa minimizes the contact surface between the pipe 200 and the pipe support 40, thereby reducing heat transfer through the pipe support 40 as well as inhibiting crack corrosion. In addition, the pipe support 40 in contact with the pipe 200 may include a pad, a coating, or a plating material to suppress corrosion or relative movement of the pipe support 40.

4 is a perspective view illustrating a temperature sensor assembly with a bracket according to another embodiment of the present invention, FIG. 5 is a perspective view illustrating a housing employed in the temperature sensor assembly shown in FIG. 4, and FIG. 6 is FIG. 4. 7 is a perspective view illustrating a bracket employed in the temperature sensor assembly illustrated in FIG. 7, and FIG. 7 is a perspective view illustrating a support rod employed in the temperature sensor assembly illustrated in FIG. 4.

The temperature sensor assembly 100 provided with a bracket according to another preferred embodiment of the present invention includes a housing 110, a bracket 120, and a support rod 130.

The housing 110 is preferably a temperature sensor 111 mounted inside the cylindrical body as shown in FIG. 5, and a pair of sidewalls having a side wall hole 112a and spaced apart from the outer circumferential surface of the body. 112 and the side wall 112 is provided with a bottom wall 113 having a support protrusion 113a.

The temperature sensor 111 is known and serves to sense the temperature. The temperature sensor 111 is preferably fitted to the groove (not shown) formed in the housing 110. In detail, an electric lead 111a is formed below the temperature sensor 111, and is connected to a controller (not shown).

As shown in FIG. 5, the sidewalls 112 extend outwardly in parallel with each other in the circumferential direction, and preferably extend to the entire height of the housing 110. In addition, the side wall 112 is preferably formed to be inclined top and bottom.

Furthermore, the side wall holes 112a may be formed in two to three in order to have fluidity according to the size of the cylindrical member such as the pipe 200. Specifically, by adjusting the size of the opening 121a to be described later through which the support protrusion 113a is allowed to have fluidity in the support protrusion 113a, the support rod 130 to be described later according to the size of the pipe 200 is provided. It is possible to select the side wall hole 112a coupling position.

The support protrusion 113a is preferably formed in a "b" shape having a width slightly larger than the diameter of the base rod 131 to accommodate the lower portion of the base rod 131 to be described later, as shown in FIG. It is desirable to be.

The bracket 120 is formed at a lower end to contact the bottom wall 113 as shown in FIG. 6, and has a first flat portion 121 having an opening 121a and an outer side from the first flat portion 121. A second flat portion 122 extending vertically by the bending, a third flat portion 123 vertically extending extending from the second flat portion 122, and an upper portion from the third flat portion 123. The fourth flat portion 124 which is formed to be acutely bent extending into a lower portion from the fifth flat portion 125a and the fifth flat portion 125a which is acutely bent to extend upwardly from the fourth flat portion 124. A sixth flat portion 125b having an acute bent extension and a seventh flat portion 125c having an acute bent extension extending downward from the sixth flat portion 125b, and an embossed portion 125aa having at least one flat portion The bent portion 125 is formed, and the free end portion 126 is formed to be extended extending perpendicular to the outside from the seventh plate portion (125c).

Since the relief portion 125aa performs the same function as described above, it will be omitted here.

The support rod 130 is preferably a triangular shape, as shown in Figure 7, the upper portion is formed incision and the lower portion is supported by the support protrusion 113a to support the lower portion of the first flat plate 121 The rod 131 and the upper part of the first plate portion 121 are formed to extend in the opposite direction on the same line from the cut-out portion of the base rod 131 and are fixed to the side wall hole 112a. It consists of an extension rod 132 for supporting the lower portion of the portion (122).

The present invention can be variously modified by those skilled in the art without departing from the scope of the claims claimed in the utility model registration claims, the technical protection scope of the present invention is the specific preferred embodiment described above It is not limited to the example.

According to the temperature sensor assembly with a bracket which is an embodiment of the present invention as described above, the temperature sensor assembly with a bracket that can improve the accuracy of the temperature measurement by allowing the temperature sensor to directly contact the cylindrical member such as a pipe There is an effect that can be provided.

In addition, an embodiment of the present invention has the effect that it is possible to provide a temperature sensor assembly with a bracket that can maintain the fixedness after the temperature sensor is easily mounted to the cylindrical member to be measured.

Claims (9)

A temperature sensor assembly for measuring a fluid temperature in a pipe installed in a flowing pipe, A housing having a temperature sensor mounted therein, a depression formed on an outer circumferential surface, and a ring groove formed on one side of the depression; And One side is cut to surround the outer circumferential surface of the depression, and a ring portion is formed at the cut end, and the housing support is fixed to the ring groove, and the bent portion and the bent portion extending in an inclined upward direction from the housing support to contact the pipe. And a bracket for securing said housing to said pipe, said pipe support having a free end extending from said bracket. The method of claim 1, The housing is formed with a flat surface that is not formed with a recess in a straight line with the ring groove, the bracket is a temperature sensor assembly with a bracket, characterized in that the bracket flat surface is formed in a position corresponding to the flat surface. The method of claim 2, The recessed portion is spaced from the ring groove to the left and right to form a pair of locking projections on the same line, the housing support portion is formed with a locking hole corresponding to the locking projections, characterized in that the bracket is supported on the housing Temperature sensor assembly with bracket. The method according to any one of claims 1 to 3, The bent portion in contact with the pipe is a temperature sensor assembly having a bracket, characterized in that the embossed portion is formed. The method of claim 4, wherein The pipe support may include a first flat portion extending perpendicularly from the housing support to the outside, a second flat portion extending perpendicularly from the first flat portion upwardly, and acutely extending upwardly from the second flat portion. And a bent portion having a relief portion formed of a third flat portion and a fourth flat portion extending perpendicularly downward from the third flat portion, and a free end extending perpendicularly upwardly from the fourth flat portion. Temperature sensor assembly with bracket. A temperature sensor assembly for measuring a fluid temperature in a pipe installed in a flowing pipe, A housing having a temperature sensor mounted therein, a pair of sidewalls formed parallel to the outer circumferential surface and having a sidewall hole, and a bottom wall connecting the sidewalls and having a support protrusion; A bracket having a first flat portion formed at one end thereof and having an opening through which the support protrusion penetrates, and a second end having a bent portion in contact with the pipe and a free end extending from the bent portion; And An upper portion is formed in an incision and a lower portion is supported by the support protrusion to support a lower portion of the first flat portion, and extends in the opposite direction on the same line from the cut upper portion of the base rod and is fixed to the side wall hole; The temperature sensor assembly with a bracket, characterized in that it comprises a support rod having an extension rod for supporting the upper portion of the first flat plate. The method of claim 6, The bent portion in contact with the pipe is a temperature sensor assembly having a bracket, characterized in that the embossed portion is formed. The method of claim 7, wherein The support protrusion is a temperature sensor assembly having a bracket, characterized in that bent to receive a lower portion of the base rod. The method according to any one of claims 6 to 8, The bracket is formed at a lower end to contact the bottom wall and has a first flat portion having an opening, a second flat portion extending vertically bent outwardly from the first flat portion, and vertically upward from the second flat portion. A third flat portion that is extended to be bent, a fourth flat portion that is formed to be bent upwardly from the third flat portion, a fifth flat portion that is extended to be acutely bent upwards from the fourth flat portion, and the fifth A bent portion having a sixth flat portion extending from an acute angle downwardly from the flat plate portion and a seventh flat portion extending an acute angled downward from the sixth flat portion and having an embossed portion on at least one flat plate portion; A temperature sensor assembly with a bracket, characterized in that consisting of a free end extending extending perpendicularly outward from the portion.

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