KR100831312B1 - Air conditioner sensor holder and manufacturing method thereof - Google Patents

Abstract

A sensor holder for an air conditioner and a manufacturing method thereof are provided to couple a temperature sensor with a refrigerant pipe in the one-touch manner without any damage to the refrigerant pipe, thereby simplifying the coupling of the temperature sensor and measuring temperature of the refrigerant pipe precisely via direct contact between the temperature sensor and the refrigerant pipe. A sensor holder for an air conditioner includes a sensor fitting part(110) made with an elastic material with an opening(112) long in the axial direction at a periphery. A pair of C-shaped fixing parts(150) is extended from both ends of the periphery of the sensor fitting part outward and curved convexly in the opposite direction symmetrically. An elastic pressing part(200) is formed in the periphery of the sensor fitting part to be protruded inward for pressing a temperature sensor.

Description

Air conditioner sensor holder and manufacturing method

The present invention relates to a sensor holder for an air conditioner and a manufacturing method thereof, and more particularly, a temperature sensor can be easily and simply fixed to a refrigerant pipe, and a temperature sensor cannot be fixed in place due to vibration or the like during use. The present invention relates to a sensor holder and a manufacturing method for an air conditioner of a new structure, which can prevent and improve reliability.

In general, an air conditioner is a cooling / heating device that cools or heats an indoor room such as an office or a home, and comprises a compressor, a condenser, an expansion valve, and an evaporator, and constitutes a series of refrigeration cycles. (Also referred to as a heat dissipation side) and an indoor unit (also called an endothermic side) mainly installed inside a building, the outdoor unit is provided with a condenser (external heat exchanger) and a compressor, and the indoor unit is an evaporator (indoor). Heat exchanger) is installed.

At this time, the indoor unit and the outdoor unit side refrigerant pipe, that is, the condenser and the evaporator side refrigerant pipe is attached to the temperature sensor to measure the temperature of the refrigerant. In the related art, in order to fix the temperature sensor to the refrigerant pipe, a refrigerant pipe capable of accommodating the temperature sensor may be welded and fixed to one side circumference of the refrigerant pipe, and one side of the inner wall surface of the refrigerant pipe may be a temperature sensor in the refrigerant pipe. An elastic clip was inserted into the pressure contact to the temperature sensor so as to be fixedly coupled to the refrigerant pipe.

However, in the conventional method of fixing the temperature sensor, not only the refrigerant line must be welded to the refrigerant line, but also a separate elastic clip must be coupled to the refrigerant line in order to maintain the temperature sensor in the fixed state. The work is very cumbersome, that is, a lot of work for fixing the temperature sensor has a problem that the manufacturing cost increases.

In addition, when the refrigerant pipe is inadvertently welded to the refrigerant pipe, the refrigerant pipe is inadvertently damaged by welding, and it is difficult to accurately measure the temperature because the temperature sensor is connected directly through the refrigerant pipe rather than directly contacting the refrigerant pipe. It was.

In addition, there is a problem that the temperature sensor is not fixed in place due to the sliding phenomenon of the refrigerant pipe due to the external vibration, etc., which may lower the operational reliability due to the flow phenomenon of the temperature sensor. it means.

The present invention has been proposed to solve the fundamental problems of the prior art as described above, an object of the present invention is to easily and easily combine the temperature sensing sensor by one-touch coupling to the temperature sensor without damaging the refrigerant pipe. It is to provide a sensor holder for an air conditioner and a method of manufacturing the same so that the temperature sensor can be directly in contact with the refrigerant pipe to accurately measure the temperature.

In order to achieve the above object, according to the present invention, the loop-shaped sensor fitting portion 110 and the sensor fitting portion 110 is formed of an elastic material and formed with an opening 112 having one circumferential portion extending in the axial direction. A pair of bite fixing parts 150 having a '(' shape) formed to extend outwardly at both ends of the circumferential portion of the circumferentially and convexly curved in opposite directions to each other, and one side of the sensor fitting part 110 A sensor holder for an air conditioner and a method of manufacturing the same, which are formed to protrude inwardly into the sensor fitting part 110 and pressurize the temperature sensing sensor 20. Can be.

According to the present invention, the sensor holder for an air conditioner according to the present invention is a one-touch type coupling of the bite fixing part to the refrigerant pipe, and then only the temperature sensor is fitted to the sensor fitting part, so that the temperature sensor is fixed and the direct contact with the refrigerant pipe. In addition, it is very easy and simple to fix the temperature sensor, which reduces the assembly cost and also prevents the refrigerant line from being damaged.The temperature sensor is directly in contact with the refrigerant line, so the temperature of the refrigerant line It has the advantage of making accurate measurements.

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings. 1 is a perspective view of a sensor holder for an air conditioner according to a first embodiment of the present invention, FIG. 2 is a perspective view of a sensor holder for an air conditioner according to a first embodiment of the present invention, and FIG. 4 is a side cross-sectional view of a state of use of the sensor holder for an air conditioner according to the first embodiment of the present invention, and FIG.

As shown, the sensor holder 100 for an air conditioner according to the present invention is manufactured in a desired shape by press notching and bending using a sheet material made of carbon steel or SK4 material of carbon steel, that is, an elastic material, that is, temperature sensing The sensor fitting part 110 of the loop shape which surrounds the circumference of the sensor 10 (hereinafter, referred to as a “temperature sensor”), that is, one side circumference to which the temperature sensor 10 is fitted, is opened, and the sensor fitting part 110 of the sensor fitting part 110 is formed. Protruding outwardly formed at both ends of the circumferential portion, the bite fixing part 150 being bitten by the refrigerant pipe 10, and the notching bend at one circumference of the sensor fitting portion 110, the temperature sensor 10 to the refrigerant pipe 10 It consists of an elastic pressing unit 200 to be in close contact with the pressure.

On the other hand, in the present invention, it is mentioned that the carbon tool steel SK4 is used, in addition to all carbon steel is applicable.

The sensor fitting portion 110 is to be coupled to the temperature sensor 10, is formed long in the axial direction and the shape of the refrigerant pipe opening, one side is opened, that is, the opening 112 is formed in one side circumferentially open in the longitudinal direction It is bent to form a '∪' loop.

The biting fixing part 150 is to fix the sensor holder 100 to the refrigerant pipe 10, the end of the opening 112 side of the sensor fitting portion 110, that is, the circumference of the sensor fitting portion 110 Outwardly protruding extensions are formed at both ends, but are formed convexly outwardly symmetrically to each other. In more detail, a pair is formed to protrude outwardly at both ends of the sensor fitting part 110, but are curved in a convex '(') shape to be convex in opposite directions so as to be symmetrical with each other.

Therefore, by the bite fixing portion 150 formed in the '(') shape to be precisely bitten by the circular refrigerant pipe (10) to be fixed. That is, it is formed to be curved to correspond to the bleed fixing part 150 and the circular refrigerant pipe 10 in a circular shape so as to widen the contact area between the bleed fixing part 150 and the refrigerant pipe 10 to be firmly fixed.

At this time, the end of the bite fixing portion 150 is formed with a bite guide portion 152 protruding outwardly curved in the opposite direction to each other. Accordingly, when the refrigerant pipe 10 is pressurized between the biting fixing parts 150, the biting fixing part 150 is easily opened in opposite directions by the biting guide part 152, and the refrigerant pipe 10 and the biting fixing part are easily opened. It can be smoothly passed between the 150.

On the other hand, the bite guide portion 152 is formed to be curved, but may be formed to be inclined outward.

The elastic pressing part 200 is integrally formed to protrude into the sensor fitting part 110 on one side circumference of the sensor fitting part 110 so that the temperature sensor 10 is in direct contact with the refrigerant pipe 10. At the same time to be fixed to the position, the bent bending is formed so that the center portion protrudes into the sensor fitting portion 110 around the sensor fitting portion 110 facing the opening 112. That is, the elastic pressing unit 200 is notched bent so that one end is integrally provided in the sensor fitting portion 110 and the other end is a free end separated from the sensor fitting portion 110, the central portion is the sensor fitting portion ( It is formed to be bent in a substantially '<' shape so as to project inward of the 110.

In other words, the elastic pressing part 200 is inclined so that the center part protrudes into the sensor fitting part 110 and at the same time, the first bending part (1) integrated with the blanking part 212 formed at the sensor fitting part 110 is provided. 214 and a second bent portion 216 that is bent obliquely in a direction symmetrical with the first bent portion 214 while being connected to the other end of the first bent portion 214. Protruding portions 210 that are in pressure contact with the surface of the temperature sensor are formed at portions of the first bent portion 214 and the second bent portion 216.

At this time, the side cross-sectional shape of the protruding portion 210 of the elastic pressing portion 200 protruding to the inner side of the sensor fitting portion 110 is formed not to be sharp and round, the flat cross-sectional shape as shown in Figure 4 It is formed to be curved in a ')' convex outwardly in the same manner as the shape of the government 150. Therefore, the protrusion 210 of the elastic pressing unit 200 is formed in a shape corresponding to the temperature sensor 10 to wrap around the circumference of the temperature sensor 10 to pressurize the temperature sensor 10 to flow laterally To prevent it.

On the other hand, in the above-described embodiment, one end of the elastic pressing unit 200 is formed integrally with the sensor fitting unit 110 and the other end is formed to be a free end.

The piercing fixing portion is provided with a piercing unit 300 and the burr 400. That is, the piercing part 300 is penetrated to the bleed fixing part by performing a processing inward from the outer surface of the bleed fixing part. At this time, when the piercing part 300 is formed to penetrate inward from the outer surface of the bite fixing part, the burr 400 protrudes to the inside surface of the biting fixing part.

According to this configuration, the sensor holder 100 for the air conditioner according to the present invention and the bite fixing portion 150 is bitten by the sensor fitting portion 110 and the refrigerant pipe 10 is fitted with the temperature sensor 10 and Since the elastic pressing part 200 which elastically pressurizes the temperature sensor 10 is integrally formed at one side circumference of the sensor fitting part 110, the bite fixing part 150 of the sensor holder 110 is connected to the refrigerant pipe ( Pressing the bite fixing part 150 to surround the circumference of the 10 in the direction of the refrigerant pipe (10) at one side of the refrigerant pipe 10, the bite fixing part 150 is opened while the one-touch type to the refrigerant pipe (10) Fixed to, and then coupled to the sensor fitting portion 110 of the sensor holder 100 by fitting the temperature sensor 10 in the axial direction to the elastic pressing portion 200 supported by the sensor fitting portion 110. The temperature sensor 10 is fixed in position by pressure contact with the refrigerant pipe 10.

Therefore, the sensor holder 100 for an air conditioner according to the present invention simply snaps the bite fixing part 150 to the refrigerant pipe 10 in a one-touch manner, and then simply inserts only the temperature sensor 10 into the sensor fitting part 110. When combined, the elastic pressing unit 200 is fixed to the sensor fitting unit 110 and at the same time directly presses and adheres directly to the refrigerant pipe 10. Thus, as in the prior art, the sensor holder is welded to the refrigerant pipe and welded separately. Compared to fixing the temperature sensor with the elastic clip, the fixing operation of the temperature sensor is very easy and simple, thereby reducing the assembly cost and preventing damage to the refrigerant pipe.

In addition, since the temperature sensor 10 can be in direct contact with the refrigerant pipe 10, there is an advantage that can accurately measure the temperature of the refrigerant pipe.

In addition, a piercing part 300 is formed in the biting fixing part 150, and a burr 400 is formed to protrude inward in a circumferential part of the piercing part 300, and is inserted into and supported by the biting fixing part 150. The burr 400 is pressurized in contact with the surface of the conduit 10 so that the sensor holder 100 may be more firmly supported and fixed to the refrigerant conduit 10. That is, the burr 400 protruding inward to the circumference of the piercing part 300 is in pressure contact with the surface of the coolant pipe line 10, thereby preventing the sensor holder 100 from slipping in the coolant pipe line 10 due to vibration or the like. This means that the temperature sensor 20 installed in the refrigerant pipe 10 during use can function to be fixed (flow prevented) in place, and furthermore, it can be expected to improve operational reliability. .

In other words, as shown in FIG. 4, the burr 400 around the piercing part 300 is pressed and adhered to the surface of the refrigerant pipe path 10 that is made of copper, between the bite fixing part 150 and the refrigerant pipe path 10. Since the contact resistance of the electrode is further increased, the phenomenon in which the sensor holder 100 slips in the refrigerant pipe 10 during use can be prevented more efficiently, and thus, the temperature sensor 20 is fixed in place. It becomes possible to perform the function more efficiently. For example, in the present invention, since the burr 400 around the piercing part 300 further increases the contact resistance (contact friction force) between the refrigerant pipe 10 and the sensor holder 100, the sensor holder in the refrigerant pipe 10 is further improved. The effect of more reliably preventing the phenomenon that 100 slips can be expected.

6 and 7 illustrate a sensor holder according to a second embodiment of the present invention. According to the second embodiment of the present invention shown in FIG. 6, the width of the bite fixing part 150 is a sensor. It is configured to be smaller than the width of the fixing part 110, as shown in Figure 7, by fitting the bleed fixing part 150 around the curved portion of the refrigerant pipe 10, to the sensor fixing part 110 The temperature sensor 20 inserted and supported can be installed in the curved pipe portion of the refrigerant pipe 10.

On the other hand, the manufacturing method of the sensor holder 100 for an air conditioner according to the present invention will be described. The sensor holder manufacturing method according to the present invention is roughly divided into raw material cutting step, sheet metal step, piercing step, heat treatment step and surface treatment step.

The raw material cutting step is a process of cutting the raw material in the form of a coil or plate into a material having a desired width size for press molding the sensor holder according to the present invention. It is cut with a slitting or sharing machine to form.

In the sheet metal step, the strip-shaped material cut in the raw material cutting step is press-notched and bent using a progressive mold (sequential transfer mold) to form the sensor holder 100 according to the present invention. Therefore, the sensor holder 100 according to the present invention is formed every stroke of the press so that mass production can be performed.

On the other hand, the sheet metal step is referred to as a press molding in the sequential transfer mold, it can be formed of a multi-forming machine, of course.

At this time, in the sheet metal step, the process of forming the piercing part 300 and the burr 400 in the bite fixing part 150 is performed at the same time. That is, by pressing notching and bending the strip-shaped material cut and formed in the raw material cutting step by using a progressive mold (sequential transfer mold), and simultaneously fixing and fixing the sensor holder 100 according to the present invention. ) To form a plurality of hole-shaped piercing portion 300 by punching the surface of the punch. In this sheet metal step, the piercing part 300 is formed on the biting fixing part 150 and the burr 400 protruding to the inner side of the biting fixing part 150 may be formed.

The heat treatment step is a step of heat-treating the sensor holder 100 according to the present invention formed in the sheet metal step to improve the mechanical properties, the first heating the sheet metal molded sensor holder 100 to approximately 800 ~ 900 ℃ 8 to 12 minutes Then, the second heating to about 325 ~ 375 ℃ 5-10 minutes and then air cooled. At this time, the primary heating is heated to 850 ℃ for 10 minutes, the secondary heating is preferably 355 ℃ salt bath for 8 minutes.

The surface treatment step is to prevent the rust from occurring in the sensor holder 100 after the heat treatment step, the whole of the sensor holder 100 by zinc plating or zinc dark plating (DZn Cr-2A) is completed.

On the other hand, Figure 6 is a perspective view of a sensor holder for an air conditioner according to a second embodiment of the present invention, Figure 7 is a perspective view showing a state of use of Figure 6, to manufacture the sensor holder 100 shown in Figures 6 and 7 In the method, the width of the bite fixing portion 150 of the sensor holder 100 is configured to be relatively smaller than the width of the sensor fixing portion 110.

The present invention described above is not limited to the above-described embodiment and the accompanying drawings, and various permutations, modifications, and changes can be made without departing from the spirit of the present invention. It will be apparent to those who have it.

1 is a perspective view of a sensor holder for an air conditioner according to a first embodiment of the present invention

2 is a partially cutaway perspective view of FIG. 1.

3 is a perspective view showing a state of use of a sensor holder for an air conditioner according to a first embodiment of the present invention;

4 is a side cross-sectional view of a state of use of a sensor holder for an air conditioner according to a first embodiment of the present invention;

5 is a cross-sectional view taken along the line A-A of FIG.

6 is a perspective view of a sensor holder for an air conditioner according to a second embodiment of the present invention.

7 is a perspective view showing a state of use of FIG.

8 is a block diagram of a sensor holder manufacturing method according to the present invention.

Claims (10)

A loop-shaped sensor fitting 110 having an opening 112 formed of an elastic material and having an opening circumferentially extending in one axial direction, and extending from both ends of the peripheral portion of the sensor fitting 110 and being symmetric with each other. And a pair of bite fixing parts 150 which are formed convexly curved to be fitted into the refrigerant pipe 10, and protrude from the one side circumference of the sensor fitting part 110 into the sensor fitting part 110. And a piercing part 300 formed through the elastic pressing part 200 for pressing the temperature sensor 20 and the burr fixing part 150 to form a burr 400 on the inner surface of the biting fixing part 150. It is configured to include, the sensor holder for the air conditioner, characterized in that the burr (400) is pressure-contacted to the surface of the refrigerant pipe (10) is inserted and supported by the bite fixing portion (150). The first bending part of claim 1, wherein the elastic pressing part 200 is inclined such that the central part protrudes into the sensor fitting part 110 and at one end thereof is integrated into the blanking part 212 formed at the sensor fitting part. 214 and a second bent portion 216 that is bent obliquely in a direction symmetrical with the first bent portion 214 and connected to the other end of the first bent portion 214, A sensor holder for an air conditioner, characterized in that a protrusion 210 is formed in contact with the surface of the temperature sensor at a subsequent portion of the first bent portion 214 and the second bent portion 216. The method of claim 2, wherein one end of the first bent portion 214 of the elastic pressing portion 200 is integrated with a blanking portion 212 formed in the sensor fitting portion, one end of the second bent portion 216 A sensor holder for an air conditioner, characterized in that it is connected to the other end of the first bent portion (214) and the other end of the second bent portion (216) has a free end. The sensor for an air conditioner of claim 1, wherein a biting guide part 152 is formed at an end of the biting fixing part 150 to be bent outward in opposite directions to facilitate the biting of the refrigerant pipe 10. holder. The sensor holder of claim 1, wherein the elastic pressing unit (200) is formed at a position facing the opening (112). The width of the bite fixing portion 150 is configured to be relatively smaller than the width of the sensor fixing portion 110, the bleeding fixing portion 150 around the bent portion of the refrigerant pipe (10) Sensor holder for the air conditioner, characterized in that to install the sensor 20 supported by the sensor fixing portion 110 to the curved pipe portion of the refrigerant pipe (10). It is made of an elastic material and extends outwardly protruding outwardly at both end portions of the loop-shaped sensor fitting portion 110 and the sensor fitting portion 110 formed with an opening 112 having one circumferential portion extending in the axial direction. A pair of bite fixing parts 150 formed to be symmetrically curved so as to be symmetrical to each other to sandwich and support the refrigerant pipe 10 therebetween, and the sensor fitting part 110 at one circumference of the sensor fitting part 110. It is formed to protrude inward to include an elastic pressing unit 200 for pressing the temperature sensor 20, the width of the bite fixing portion 150 is configured to be smaller than the width of the sensor fixing portion 110 The fitting fixing part 150 is inserted around the curved part of the refrigerant pipe 10 so that the sensor 20 supported by the sensor fixing part 110 is installed at the curved part of the refrigerant pipe 10. A sensor holder for an air conditioner, characterized in that. Raw material cutting step of cutting the raw material of the coil form or plate form to form a strip material; A pair of bite fixing parts 150 having a '(') shape protruding outwardly from both ends of the circumferential portion of the sensor fitting portion 110 and the loop-shaped sensor fitting portion 110 by notching and bending a strip-shaped material; A sheet metal step of forming a sensor holder 100 in which an elastic pressing part 200 protruding into the sensor fitting part 110 is integrally formed at one side circumference of the sensor fitting part 110; A heat treatment step of first heating the elastic pressing unit 200 of the sensor holder 100 to 800 to 900 ° C. for 8 to 12 minutes and then second heating to 325 to 375 ° C. for 5 to 10 minutes; And Method of manufacturing a sensor holder for an air conditioner, characterized in that the surface treatment step of plating the sensor holder 100 subjected to the heat treatment step with zinc plating or zinc dark (DZn Cr-2A). Raw material cutting step of cutting the raw material of the coil form or plate form to form a strip material; A pair of bite fixing parts 150 having a '(') shape protruding outwardly from both ends of the circumferential portion of the sensor fitting portion 110 and the loop-shaped sensor fitting portion 110 by notching and bending a strip-shaped material; The sensor holder 100 is integrally formed at one side circumference of the sensor fitting unit 110 with the elastic pressing unit 200 protruding into the sensor fitting unit 110 and at the same time. Perforating the surface of the sheet forming a piercing portion 300 in the biting fixing portion 150 to form a burr (400) protruding to the inner surface of the biting fixing portion 150; A heat treatment step of first heating the elastic pressing unit 200 of the sensor holder 100 to 800 to 900 ° C. for 8 to 12 minutes and then second heating to 325 to 375 ° C. for 5 to 10 minutes; And Method of manufacturing a sensor holder for an air conditioner, characterized in that the surface treatment step of plating the sensor holder 100 subjected to the heat treatment step with zinc plating or zinc dark (DZn Cr-2A). Raw material cutting step of cutting the raw material of the coil form or plate form to form a strip material; A pair of bite fixing parts 150 having a '(') shape protruding outwardly from both ends of the circumferential portion of the sensor fitting portion 110 and the loop-shaped sensor fitting portion 110 by notching and bending a strip-shaped material; The sensor holder 100 is integrally formed at one side circumference of the sensor fitting unit 110 with the elastic pressing unit 200 protruding into the sensor fitting unit 110 and at the same time. Perforating the surface of the sheet forming a piercing portion 300 in the biting fixing portion 150 to form a burr (400) protruding to the inner surface of the biting fixing portion 150; A heat treatment step of first heating the elastic pressing unit 200 of the sensor holder 100 to 800 to 900 ° C. for 8 to 12 minutes and then second heating to 325 to 375 ° C. for 5 to 10 minutes; And It includes a surface treatment step of plating the sensor holder 100 subjected to the heat treatment step with zinc plating or zinc dark (DZn Cr-2A), The width of the bite fixing portion 150 is configured to be relatively smaller than the width of the sensor fixing portion 110, The bite fixing part 150 is inserted around the curved part of the refrigerant pipe 10 so that the sensor 20 supported by the sensor fixing part 110 can be installed in the curved part of the refrigerant pipe 10. Sensor holder manufacturing method for an air conditioner.

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