KR102170245B1 - Temperature Sensor Fixing Structure Of Cooling Medium Tube - Google Patents

Abstract

The present invention relates to a fixed structure of a temperature measurement sensor of a refrigerant tube, which enables precise measurement of the temperature of the refrigerant tube by closely fixing the temperature measurement sensor for measuring the temperature of the refrigerant tube of an air conditioner. The fixed structure of the temperature measurement sensor of the refrigerant tube includes: a sensor seating part on which the temperature measurement sensor is seated and fixed; a refrigerant pipe seating part where the refrigerant pipe is seated and fixed; a refrigerant pipe insertion part to which the refrigerant pipe is inserted; and a stopper to prevent the temperature measurement sensor from being dislocated.

Description

Temperature sensor fixing structure of refrigerant tube {Temperature Sensor Fixing Structure Of Cooling Medium Tube}

The present invention relates to a fixing structure for a temperature measuring sensor of a refrigerant tube in which a temperature measuring sensor for measuring the temperature of a refrigerant tube of an air conditioner is closely fixed to a refrigerant tube to accurately measure the temperature of the refrigerant tube.

In general, an air conditioner is a cooling/heating device that cools or heats an indoor room such as an office or home, and consists of a compressor, a condenser, an expansion valve, and an evaporator to form a series of refrigeration cycles, and the air conditioner is an outdoor unit installed outdoors. Wow, the indoor units mainly installed inside the building are roughly classified. A condenser and a compressor are installed in the outdoor unit, and an evaporator is installed in the indoor unit.

In this case, a temperature sensor is attached to the indoor unit and the outdoor unit side refrigerant pipe, that is, the condenser and the evaporator side refrigerant pipe to measure the temperature of the refrigerant.

Conventionally, in order to fix the temperature sensor to the refrigerant pipe, a refrigerant pipe capable of accommodating a temperature sensor was fixed by welding on one side of the refrigerant pipe, and a temperature sensor was installed inside the refrigerant pipe. An elastic clip for pressurization and close contact was inserted on one side so that the temperature sensor was fixedly coupled to the refrigerant pipe.

However, this conventional method of fixing the temperature sensing sensor requires not only welding the refrigerant pipe to the refrigerant pipe, but also coupling a separate elastic clip to the refrigerant pipe to keep the temperature sensing sensor fixed to the refrigerant pipe. However, there is a problem that the work is very cumbersome, and there is a problem that the manufacturing cost increases due to a large number of work hours for fixing the temperature sensor.

In addition, there is a problem that the refrigerant pipe is damaged by welding if the refrigerant pipe is inadvertently welded to the refrigerant pipe, and it is difficult to accurately measure the temperature because the temperature sensor is not directly attached to the refrigerant pipe but is connected through the refrigerant pipe. I did.

In addition, there is a problem in that the refrigerant pipe is slipped due to external vibrations during use, so that the temperature sensor cannot be fixed in place, and this has a problem in that operational reliability is deteriorated due to the flow phenomenon of the temperature sensor.

Republic of Korea Patent Registration No. 10-0831312 (2008.05.15.) Korean Patent Publication No. 10-2004-0031206 (2004.04.13.) Korean Patent Publication No. 10-2000-0073044 (2000.12.05.) Republic of Korea Utility Model Registration No. 20-0247229 (2001.09.06.)

In the present invention, the temperature measurement sensor for measuring the temperature of the refrigerant tube of the air conditioner is closely and fixed to the refrigerant tube, and the temperature measurement sensor is continuously and tightly fixed in contact with the refrigerant tube to accurately and stably measure the temperature of the refrigerant tube. It is possible, of course, to provide a fixing structure for a temperature measuring sensor of a refrigerant pipe so that the temperature measuring sensor is stably fixed at an installation position without deviating from the position even by vibration of the refrigerant pipe.

Problem solving means configuration of the refrigerant tube temperature measuring sensor fixing structure according to the present invention for achieving the above object,
A sensor seating portion 10 is formed in which the temperature measuring sensor S is seated and fixed inside by bending an elastic piece having elastic force, and a refrigerant tube T is in contact with the temperature measuring sensor at one side of the sensor seating portion. A refrigerant pipe seating portion 20 is formed that is arranged and seated side by side, and the refrigerant pipe insertion portion 30 protrudes outward in the 90° direction of the row in which the temperature measuring sensor and the refrigerant pipe are arranged and seated in parallel on the same line. And a clip (C) having a stopper 40 formed thereon to prevent the temperature measurement sensor from being displaced from the sensor seating portion at an end of the sensor seating portion,
The sensor seating portion 10, the refrigerant pipe seating portion 20, the refrigerant pipe inserting portion 30, and the stopper 40 are integrally formed in one body, and the stopper 40 is a sensor seating portion. Formed to be bent 90° from both ends of (10) toward the temperature measuring sensor (S),
The clip (C) is formed in a rectangular shape in which the refrigerant pipe insertion portion 30 is open when viewed from the side, and the outermost side surface 21 of the clip on which the refrigerant pipe insertion portion of the rectangular shape is formed is, the refrigerant The pipe is formed to be constricted from the rear end toward the front end where the refrigerant pipe insert is formed to increase the contact force between the refrigerant pipe and the temperature measuring sensor by pushing the pipe toward the temperature measuring sensor.
The refrigerant pipe insertion part 30 protruding to the outside has refrigerant pipe guide pieces 31 and 32 protruding to the outside on both sides thereof to face each other, and the refrigerant pipe guide pieces on both sides of the refrigerant pipe guide pieces are formed to be spread from the inside to the outside. Is formed so that the width (W) between the two refrigerant pipe guide pieces is formed to have a width gradually narrowing as it enters from the inlet to the inside, and the width inlet between the two refrigerant pipe guide pieces is formed smaller than the outer diameter (D) of the refrigerant pipe Become,

On either side of the refrigerant pipe (T) or the temperature measuring sensor (S), a refrigerant pipe receiving unit (S-1) or a temperature measuring sensor receiving unit (T-1) for increasing the contact area between the refrigerant pipe and the temperature measuring sensor. ).

The refrigerant tube temperature measurement sensor fixing structure of the present invention having the above configuration is, as described in the above object, in closely fixing the temperature measurement sensor for measuring the temperature of the refrigerant tube of the air conditioner to the refrigerant tube. Refrigerant tube temperature can be accurately and stably measured as the over temperature measurement sensor is continuously in close contact and fixed, as well as the temperature measurement sensor is stably fixed at the installation position without being displaced by the vibration of the refrigerant tube. It has a unique effect that can further increase the reliability of the temperature measurement.

1 is a perspective view showing a conventional refrigerant tube temperature measuring sensor fixing structure,
2A and 2B are a perspective view and a side view of a first embodiment of a fixing structure for a refrigerant tube temperature measuring sensor of the present invention,
3A and 3B are a perspective view and a side view of a second embodiment of a fixing structure for a refrigerant tube temperature measuring sensor of the present invention,
Figure 4 is a perspective view of a use state of the first embodiment for explaining the fixing structure of the refrigerant tube temperature measuring sensor of the present invention,
Figure 5 is a perspective view of a second embodiment in use for explaining the fixing structure of the refrigerant tube temperature measuring sensor of the present invention,
Figure 6 is an exploded perspective view for explaining the contact state of the refrigerant tube and the odometry sensor in the refrigerant tube temperature measuring sensor fixing structure of the present invention.

The present invention relates to a fixed structure of a temperature measuring sensor of a refrigerant tube, which enables precise measurement of the temperature of a refrigerant tube by closely fixing a temperature measurement sensor for measuring the temperature of a refrigerant tube of an air conditioner. An example is described below with reference to the accompanying drawings.

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Refrigerant tube temperature measurement sensor fixing structure of the present invention, as shown in Figs. 2a to 6, the problem solving means configuration of the refrigerant tube temperature measurement sensor fixing structure according to the present invention for achieving the above object,

A sensor seating part 10 is formed on one side of the inside by bending the elastic piece of a plate shape having elasticity, and a refrigerant tube (T) on one side of the sensor seating part measures the temperature. A refrigerant pipe seating portion 20 that is in contact with the sensor and arranged and seated in parallel is formed, and the refrigerant pipe insertion portion 30 protrudes outward in the 90° direction of the row in which the temperature measuring sensor and the refrigerant pipe are arranged and seated in parallel. And a stopper 40 is formed at the end of the sensor seat to prevent the temperature sensor from being dislodged from the sensor seat, and a clip C is provided.

In addition, the temperature measuring sensor S and the refrigerant pipe T are arranged and seated in parallel on the same line as shown in FIGS. 4 and 5.

In addition, the refrigerant pipe insertion part 30 is formed to protrude to the outside in the 90° direction of the row in which the temperature measuring sensor S and the refrigerant pipe T are arranged side by side, thereby facilitating the refrigerant pipe T In addition to being able to be fitted into the tube seating part 20, the temperature measuring sensor S and the refrigerant tube T continue to be in close contact after the refrigerant tube T is fitted and coupled.

As described above, the reason why the temperature measurement sensor (S) and the refrigerant pipe (T) are in close contact continuously is that the refrigerant pipe insertion unit 30 is arranged in parallel with the temperature measurement sensor (S) and the refrigerant pipe (T). Since it is formed to protrude to the outside in the 90° direction of the seated heat, the temperature measurement sensor (S) and the refrigerant tube (T) are not pushed out and are stable inside the clip (C) formed by bending the elastic piece of a plate-shaped elastic piece having elasticity. Because it is located as.

However, when the clip (C) is fitted to the refrigerant pipe (T) installed in the air conditioner, it is preferable to connect the temperature measuring sensor (S) to the sensor seating part (10), and then to the refrigerant pipe insertion part ( The reason 30) is formed to protrude to the outside is to simplify the joining operation when the clip C is inserted into the refrigerant tube T and coupled.

In addition, the reason that the refrigerant pipe insertion part 30 is formed in the 90° direction of the row in which the temperature measuring sensor S and the refrigerant pipe T are arranged and seated in parallel is that the refrigerant pipe T is inside the clip C. To ensure that the refrigerant pipe is not pushed out of the clip (C) by vibration of the refrigerant pipe (T) in the seated and fixed state, but is located inside the clip (C) so that close contact with the temperature measuring sensor (S) is made continuously. to be.

And at the end of the sensor seating portion 10, a stopper 40 is installed to prevent the temperature measurement sensor S from being displaced from the sensor seating portion 10, and the stopper 40 is installed. The reason is to prevent the temperature measurement sensor S from being pushed out of the sensor seat 10 due to vibrations of the refrigerant pipe T while seated in the sensor seat 10.

However, the stopper 40 may be formed only at the front end of the sensor mounting part 10 or installed at both ends of the sensor mounting part 10, and the length (L) of the sensor mounting part 10 is, It has a length equal to the length of the temperature measurement sensor (S) or is formed longer than the length of the temperature measurement sensor (S) to stably support the temperature measurement sensor (S) as well as protect the temperature measurement sensor (S). do.

Further, the stopper 40 is bent 90° from the end of the sensor seating portion 10 toward the temperature measuring sensor S, and the bent stopper 40 is integrally formed with the clip C.

In the fixing structure of the refrigerant tube temperature measuring sensor of the present invention as described above, the clip (C) is formed in a rectangular shape in which the refrigerant tube insertion part 30 is opened when viewed from the side as shown in FIGS. 2A and 2B, The outermost side surface 21 of one side of the clip C on which the refrigerant pipe insertion portion 30 of the rectangular shape is formed is pushed toward the temperature measuring sensor S and the refrigerant pipe T and In order to increase the contact force of the temperature measuring sensor S, the refrigerant pipe insertion part 30 was formed constricted toward the front end of the rear end.

The reason is that, when the refrigerant pipe T is seated in the refrigerant pipe seating unit 20 through the refrigerant pipe insertion unit 30, the outermost side surface 21 connects the refrigerant pipe T to the temperature measuring sensor (S). To increase the reliability of temperature measurement of the refrigerant pipe (T) in the temperature measuring sensor (S) by continuously pushing it to the side to prevent separation between the refrigerant pipe (T) and the temperature measuring sensor (S) due to vibration of the refrigerant pipe (T). It is to do.

On the other hand, the size of the sensor seating portion 10 is formed smaller than the size of the refrigerant pipe seating portion 20 as shown in FIGS. 2A and 2B, and in order to form the sensor seating portion 10 having a smaller size, The elastic piece on the side where the refrigerant pipe insertion part 30 is formed is bent toward the sensor seating part 10 to form the primary bent part 12, and the front end of the first bent part is inclined upwardly. ) Is formed to form a secondary bent portion 13, and the tip of the secondary bent portion is bent to protrude to the outside to form a coolant pipe insertion portion 30.

The reason that the size of the sensor seating portion 10 is formed smaller than the size of the refrigerant pipe seating portion 20 with the configuration as described above is because the outer diameter of the temperature measuring sensor S is smaller than the outer diameter of the refrigerant pipe T. , The end of the second bent part 13 is pressed to prevent the flow of the temperature measuring sensor S, and the inclined surface 14 having an upward slope is in contact with one side of the refrigerant pipe T to support the refrigerant pipe. Plays a role.

In addition, in the refrigerant tube temperature measurement sensor fixing structure of the present invention, the clip (C) is formed in an oval shape in which the refrigerant tube insertion part 30 is opened as shown in FIGS. 3A and 3B, and has an elliptical shape. A sensor seating portion 10 is formed inside the clip C, and a refrigerant pipe seating portion 20 is formed in the other side.

The outermost side surface 11 of one side of the clip C as described above is formed in a shape corresponding to the outer side surface of the temperature measurement sensor S so as to closely surround the outer side of the temperature measurement sensor S, and the The outermost side surface 21 of the other side on which the refrigerant pipe seating portion 20 is formed is formed in a shape corresponding to the outer side surface of the refrigerant pipe T so as to closely surround the outer side surface of the refrigerant pipe T.

The reason is that the refrigerant pipe (T) and the temperature measuring sensor (S) are closely wrapped around the outer side of the temperature measuring sensor (S) and securely fixed to ensure continuous contact between the refrigerant pipe (T) and the temperature measuring sensor (S). It is to increase the reliability of temperature measurement of the refrigerant pipe (T) in the temperature measurement sensor (S) by protecting (T) and the temperature measurement sensor (S).

On the other hand, a refrigerant pipe for increasing the contact area between the refrigerant pipe T and the temperature measuring sensor S as shown in FIGS. 6 and 7 on either side of the refrigerant pipe (T) or the temperature measuring sensor (S) The temperature of the refrigerant pipe (T) is increased by increasing the contact area between the refrigerant pipe (T) and the temperature measuring sensor (S) by forming either the receiving part (S-1) or the temperature measuring sensor receiving part (T-1). In addition to being able to measure more accurately, contact between the refrigerant tube (T) and the temperature measuring sensor (S) is made more tightly and firmly.

The refrigerant pipe insertion part 30 of the present invention is formed to protrude to the outside of the clip C, as shown in FIGS. 2A to 6, and the refrigerant pipe insertion part 30 formed to protrude is externally formed on both sides. The protruding refrigerant pipe guide pieces 31 and 32 are formed, and the refrigerant pipe guide pieces 31 and 32 on both sides of the refrigerant pipe guide pieces 31 and 32 are formed to be wider from the inside to the outside so that the width between the refrigerant pipe guide pieces 31 and 32 on both sides ( W) is formed to have a width gradually narrowing as it enters from the inlet to the inside, and the inlet of the width (W) between the both refrigerant pipe guide pieces (31, 32) is smaller than the outer diameter (D) of the refrigerant pipe (T) Is formed.

The reason is that when the refrigerant pipe (T) having a large outer diameter (D) enters the refrigerant pipe seating portion 20 through the refrigerant pipe insertion portion 30, the refrigerant pipe guide pieces 31 and 32 open. When the refrigerant pipe (T) enters into the refrigerant pipe seating unit 20 while the refrigerant pipe (T) enters the refrigerant pipe seating unit 20, the refrigerant pipe that has entered the refrigerant pipe seating unit 20 while the open refrigerant pipe guide pieces 31 and 32 are originally positioned It is to fix (T) firmly.

As described above, when the temperature measuring sensor S is seated in the sensor seating part 10, and the refrigerant pipe T is seated in the refrigerant pipe seating part 20, the temperature measuring sensor S and the refrigerant pipe T ) Continuously maintains a close contact force, because the clip C itself has an elastic force by bending and forming a plate-shaped elastic piece having an elastic force.

In addition, the refrigerant pipe guide pieces 31 and 32 forming the refrigerant pipe insertion part 30 are also formed by bending an elastic piece having an elastic force integrally formed with the clip C. When the refrigerant pipe (T) is seated in the pipe seating part (20), the refrigerant pipe (T) is to maintain a safe and solid fixing force.

As for the material of the clip (C) that plays the role as described above, any of carbon steel, stainless steel, and synthetic resin may be used.

In addition, the remaining outer circumferential surface of the temperature measuring sensor (S) excluding the portion in which the refrigerant tube (T) and the temperature measuring sensor (S) of the present invention are in contact, the temperature in close contact with the inner circumferential surface of the sensor seating part (10). The measurement sensor protection member (S-2) is interposed, and the reason for interposing the temperature measurement sensor protection member (S-2) is to minimize the impact of the temperature measurement sensor (S) due to the vibration of the refrigerant tube (T). It is to protect the temperature measurement sensor (S) and extend its service life.

As described above, the refrigerant tube temperature measurement sensor fixing structure of the present invention is in close contact with the refrigerant tube and the temperature measurement sensor for measuring the temperature of the refrigerant tube of the air conditioner as described above. The temperature measurement sensor is continuously in close contact and fixed so that the temperature of the refrigerant tube can be accurately and stably measured, as well as the temperature measurement sensor is stably fixed at the installation position without being displaced by the vibration of the refrigerant tube. There is an advantage that can further increase the reliability of temperature measurement.

10: sensor seat 11: outermost side of the other side
20: refrigerant pipe seating part 21: one side outermost side
30: refrigerant pipe insertion part 31, 32: refrigerant pipe guide piece
40: stopper C: clip
D: Outer diameter of refrigerant pipe L: Length of sensor seat
S: Temperature measuring sensor S-1: Refrigerant pipe receiving part
S-2: Temperature measurement sensor protection member T: Refrigerant pipe
T-1: Temperature measurement sensor receiving part W: Width between the refrigerant pipe guide pieces on both sides

Claims (9)

A sensor seating portion 10 is formed in which the temperature measuring sensor S is seated and fixed inside by bending an elastic piece having elastic force, and a refrigerant tube T is in contact with the temperature measuring sensor at one side of the sensor seating portion. A refrigerant pipe seating portion 20 is formed that is arranged and seated side by side, and the refrigerant pipe insertion portion 30 protrudes outward in the 90° direction of the row in which the temperature measuring sensor and the refrigerant pipe are arranged and seated in parallel on the same line. And a clip (C) having a stopper 40 formed thereon to prevent the temperature measurement sensor from being displaced from the sensor seating portion at an end of the sensor seating portion,
The sensor seating portion 10, the refrigerant pipe seating portion 20, the refrigerant pipe inserting portion 30, and the stopper 40 are integrally formed in one body, and the stopper 40 is a sensor seating portion. Formed to be bent 90° from both ends of (10) toward the temperature measuring sensor (S),
The clip (C) is formed in a rectangular shape in which the refrigerant pipe insertion portion 30 is open when viewed from the side, and the outermost side surface 21 of the clip on which the refrigerant pipe insertion portion of the rectangular shape is formed is, the refrigerant The pipe is formed to be constricted from the rear end toward the front end where the refrigerant pipe insert is formed to increase the contact force between the refrigerant pipe and the temperature measuring sensor by pushing the pipe toward the temperature measuring sensor.
The refrigerant pipe insertion part 30 protruding to the outside has refrigerant pipe guide pieces 31 and 32 protruding to the outside on both sides thereof to face each other, and the refrigerant pipe guide pieces on both sides of the refrigerant pipe guide pieces are formed to be spread from the inside to the outside. It is formed so that the width (W) between the refrigerant pipe guide pieces on both sides is formed to have a width gradually narrowing as it enters from the inlet to the inside, and the width inlet between the refrigerant pipe guide pieces on both sides is greater than the outer diameter (D) of the refrigerant tube. Is formed small,
One side of the refrigerant pipe (T) or the temperature measuring sensor (S) has a refrigerant pipe receiving unit (S-1) or a temperature measuring sensor receiving unit (T-1) for increasing the contact area between the refrigerant pipe and the temperature measuring sensor. ) A fixed structure of a temperature measuring sensor of a refrigerant tube, characterized in that the formation of either one. delete The method of claim 1,
The clip is formed in an elliptical shape in which the refrigerant pipe insertion part is opened when viewed from the side, and the outermost side surface 11 of the other side where the sensor seating part of the elliptical shape is formed, measures the temperature so as to closely surround the outer side of the temperature measuring sensor. It is formed in a shape conforming to the outer side of the sensor, and the one side outermost side surface 21 on which the refrigerant tube seating part is formed is formed in a shape conforming to the outer side of the refrigerant tube so as to tightly surround the outer side of the coolant tube. A fixed structure for a temperature measurement sensor of a refrigerant tube characterized by delete delete The method of claim 1,
The length (L) of the sensor seat is formed to have a length equal to the length of the temperature measurement sensor or longer than the length of the temperature measurement sensor to stably fix and support the temperature measurement sensor, as well as to protect the temperature measurement sensor. A fixed structure for a temperature measuring sensor of a refrigerant tube, characterized in that configured. The method of claim 1,
The sensor seating portion 10 is formed to be smaller than the size of the refrigerant pipe seating portion 20, and in order to form the sensor seating portion of the smaller size, an elastic side on the side where the refrigerant pipe inserting portion is formed is used as the sensor seating portion. It is bent toward the side to form a primary bent portion 12, and the front end of the primary bent portion is bent second to form an inclined surface 14 having an upward inclination to form a secondary bent portion 13, and A fixing structure for a temperature measuring sensor of a coolant tube, characterized in that the tip of the bent part is bent to protrude to the outside to form a coolant tube guide piece (31) forming the coolant tube insertion part (30). The method of claim 1,
The material of the clip, a temperature measuring sensor fixing structure of a refrigerant tube, characterized in that any one of carbon steel, stainless steel, synthetic resin. The method of claim 1,
The refrigerant pipe, characterized in that the temperature measuring sensor protection member (S-2) in close contact with the inner circumferential surface of the sensor seating portion is formed on the rest of the outer circumferential surface of the temperature measuring sensor excluding the portion in which the refrigerant pipe and the temperature measuring sensor are in contact. Temperature measurement sensor fixed structure.

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