JP3335263B2 - Temperature sensor mounting device - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a temperature sensor mounting device mounted on an accumulator.

[0002]

2. Description of the Related Art Conventionally, in a refrigerator, a temperature sensor is attached to an accumulator connected to a refrigerant outlet of a cooler (evaporator) in a refrigeration cycle, and the temperature of the accumulator is measured by the temperature sensor when the cooler is defrosted. Detecting the completion of defrosting is performed by detecting. In this case, the reason why the temperature of the accumulator is detected is that the temperature of the accumulator is lower than that of the cooler at the time of defrosting, and that the completion of defrosting is reliably detected. Conventionally, however, the temperature sensor has been mounted on a substantially cylindrical accumulator by tightening it with a band.

[0003]

However, the above-described mounting method has the following disadvantages. The outer shell of the temperature sensor is made of synthetic resin, and the band presses the temperature sensor against the accumulator.If the band is tightened excessively, an excessive force acts on the temperature sensor, and the temperature sensor Could cause a failure. In addition, if the tightening force is weak, the position of the temperature sensor with respect to the accumulator is unstable, and the temperature of the accumulator cannot be reliably detected, and the defrosting of the cooler is completed due to the influence of the surrounding temperature. In spite of the fact, there is a possibility that the temperature of the completion of defrosting may be detected.

Accordingly, an object of the present invention is to provide a temperature sensor mounting device which can mount a temperature sensor satisfactorily on an accumulator without applying an excessive force to the temperature sensor and can surely detect the temperature of the accumulator. To offer.

[0005]

According to the present invention, there is provided an apparatus for mounting a temperature sensor, comprising: a holder which is mounted on an accumulator having a substantially cylindrical shape; and a metal plate having good heat conductivity and which is mounted on the holder. , The accu
A heat transfer plate having a contact piece that is bent along the outer surface of the accumulator and that contacts the outer surface of the accumulator while the holder is attached to the accumulator, and a heat transfer plate having a concave sensor holding portion; And a temperature sensor that is held and detects the temperature of the accumulator via the heat transfer plate.

[0006] In this case, Holder, it is preferable to attach fixed at upper and lower ends of the accumulator. Further, it is preferable to form a space between the outer surface of the heat transfer plate and the holder, or to integrally provide the holder with a lead wire holding portion for holding a lead wire of the temperature sensor.

[0007]

According to the above-described means, the temperature sensor is held by the sensor holding portion of the heat transfer plate and does not need to be pressed against the accumulator, so that no excessive force is applied to the temperature sensor. Further, the temperature sensor can reliably detect the temperature of the accumulator via the contact piece of the heat transfer plate and the sensor holding unit.

[0008] By the contact portions of the heat transfer plate is bent along the outer surface of the accumulator, the contact area between the contact piece and the accumulator can be secured much, the temperature of the accumulator can be more reliably detected. When the holder is mounted and fixed at both the upper and lower ends of the accumulator, the positioning of the holder with respect to the accumulator and the positioning of the temperature sensor can be performed more reliably.

When a space is formed between the outer surface of the heat transfer plate and the holder, the contact area between the heat transfer plate and the holder is reduced, and an air layer is formed between them. In addition, the heat transfer plate and the temperature sensor are less affected by the temperature of the holder and the surroundings of the holder, and the temperature of the accumulator can be detected more reliably. When the lead wire holding portion is provided integrally with the holder, the use of the lead wire portion facilitates the processing of the lead wire of the temperature sensor, and does not require a separate member for holding the lead wire.

[0010]

An embodiment of the present invention will be described below with reference to the drawings. First, in FIGS. 2 and 4, the main part of the accumulator 1 has a substantially cylindrical shape, and connection parts 2 and 2 formed smaller in diameter than other parts are integrally provided at upper and lower ends. . A pipe 3 for passing the refrigerant of the refrigeration cycle is connected to these connection parts 2 and 2.

On the other hand, the synthetic resin holder 4 is
A main body 5, a first mounting portion 6 provided at an upper end of the main body 5, and two second mounting portions 6 provided at a lower end of the main body 5.
Are integrally formed with each other, and are formed in a substantially U-shape. First mounting part 6 and second mounting parts 7, 7
Are formed with notches 6a and 7a, 7a for hooking on the connecting portion 2 of the accumulator 1.

A sensor housing 8 is provided inside the main body 5. The sensor housing 8 has a pair of engaging claws 9, 9 opposed to each other on the upper and lower sides of a side portion, and a rib 10 provided in an upper portion in an eaves-like manner. Sensor storage unit 8
A protruding ridge portion 11 (see FIGS. 1 and 5) extending in the up-down direction is provided on the inner surface of. Further, a lead wire hooking portion 12 is provided at a lower portion of the main body portion 5, and a lead wire holding portion 14 having a holding claw 13 is provided integrally with a left side portion.

The heat transfer plate 15 is a metal plate having good heat conductivity,
For example, a sensor holding portion 16 made of phosphor bronze and having a semi-cylindrical concave shape, and a pair of contact piece portions 17 protruding from an intermediate portion of the sensor holding portion 16 in the vertical direction.
17 are integrally provided. The contact piece portion 17 is formed in an arc shape along the outer surface of the main portion of the accumulator 1. The heat transfer plate 15 made of phosphor bronze not only has elasticity but also has a property of being hardly rusted. The outer shell 19 of the temperature sensor 18 is formed of, for example, ABS resin in a cylindrical shape, and a lead wire 20 is led out from one end thereof.

Here, the procedure for attaching the temperature sensor 18 to the accumulator 1 will be described.
First, the temperature sensor 18 is connected to the sensor holder 1 of the heat transfer plate 15.
6 and hold it. At this time, the temperature sensor 18 is elastically held by the elastic force of the sensor holding unit 16, and the outer surface of the outer shell 19 of the temperature sensor 18 and the sensor holding unit 1.
6 come into close contact with each other (see FIGS. 1 and 5).

Next, the heat transfer plate 1 holding the temperature sensor 18
5 is stored in the sensor storage section 8 of the holder 4. Then, as shown in FIGS. 3 to 5, the sensor holder 16 and the sensor holder 1 of the heat transfer plate 15 are provided.
The temperature sensor 18 held at 6 is held in a retaining state by the four engagement claws 9. At this time, the ridge 11 provided on the inner surface of the sensor housing 8 is in contact with the outer surface of the sensor holder 16 and the sensor holder 1
A space 21 (see FIGS. 1 and 5) is formed on the outer surface of the holder 6 and on both sides of the ridge 11 of the holder 4. Further, the rib 10 located above the temperature sensor 18 restricts the upward movement of the temperature sensor 18 and covers the temperature sensor 18 from above.

The lead wire 20 of the temperature sensor 18
Is hooked on the lead wire hooking section 12 and held by the lead wire holding section 14 as shown in FIG.

Thereafter, the first mounting portion 6 of the holder 4
The notch 6a of the accumulator 1 is hooked on the connection 2 at the upper end of the accumulator 1, and the cuts 7a of the two second mounting portions 7 are connected to the connection 2 at the lower end of the accumulator 1.
The holder 4 to the accumulator 1
(See FIG. 4). Accordingly, the two contact pieces 17, 17 of the heat transfer plate 15 come into contact with the outer surface of the accumulator 1 in a pressure-contact state, as shown in FIG.
At this time, the outer shell 19 of the temperature sensor 18 is not in contact with the accumulator 1 and is therefore not pressed against the accumulator 1.

Thus, the attachment of the temperature sensor 18 to the accumulator 1 is completed. The accumulator 1 to which the temperature sensor 18 is attached in this way is not shown in the refrigeration cycle by connecting the connection portions 2 and 2 at the upper and lower ends to the pipes 3 and 3 constituting the refrigeration cycle in the refrigerator. It is arranged on the refrigerant outlet side of the cooler (evaporator). In this case, connection part 2
A synthetic paint is used when connecting and fixing the pipe 3 and the eaves-shaped rib 1 above the temperature sensor 18.
Since 0 exists, it is possible to prevent the synthetic paint from being applied to the temperature sensor 18. Incidentally, the outer shell 19 of the temperature sensor 18 is made of ABS resin, and there is a situation that the ABS resin is weak to the thinner contained in the synthetic paint.

During defrosting of the cooler, the cooler is heated by a defrost heater (not shown) to perform defrosting. At this time, the temperature sensor 18 detects the temperature of the accumulator 1 via the contact piece portion 17 and the sensor holding portion 16 of the heat transfer plate 15 and outputs a detection signal to a control device (not shown) of the refrigerator. When the temperature detected by the temperature sensor 18 reaches a preset defrosting completion temperature, the defrost heater is turned off to complete defrosting.

According to the above-described embodiment, the following effects can be obtained. That is, the temperature sensor 18 is held by the sensor holding portion 16 of the heat transfer plate 15 and does not need to be pressed against the accumulator 1.
No excessive force is applied to the The temperature sensor 18
Can reliably detect the temperature of the accumulator 1 via the contact piece 17 of the heat transfer plate 15 and the sensor holding section 16.

In this case, since the contact piece 17 of the heat transfer plate 15 is bent in an arc shape along the outer surface of the accumulator 1, a large contact area between the contact piece 17 and the accumulator 1 can be secured, and the accumulator 1 Can be more reliably detected. In addition, since the holder 4 is mounted and fixed at the upper and lower ends of the accumulator 1 via the first and second mounting portions 6, 7, 7.
The positioning of the holder 4 with respect to the accumulator 1 and the positioning of the temperature sensor 18 can be performed more reliably.

Further, since the space 21 is formed between the outer surface of the heat transfer plate 15 and the holder 4, the contact area between the heat transfer plate 15 and the holder 4 is reduced, and the space between them is reduced. Since the air layer is formed, the heat transfer plate 15 and thus the temperature sensor 18 are hardly affected by the temperature of the holder 4 and the surroundings of the holder 4, and the temperature of the accumulator 1 can be detected more reliably. In addition, since the lead wire hooking portion 12 and the lead wire holding portion 14 are integrally provided on the holder 4, the use of them allows the processing of the lead wire 20 of the temperature sensor 18 to be facilitated, and the holding of the lead wire. Therefore, there is an advantage that a separate member is not required.

The present invention is not limited to the above embodiment, but can be modified or expanded as follows. For example, the space 21 between the outer surface of the heat transfer plate 15 and the inner surface of the sensor storage unit 8 in the holder 4 does not necessarily need to be formed, and the outer surface of the heat transfer plate 15 and the inner surface of the sensor storage unit 8 in the holder 4 are not necessarily formed. May be adhered over the whole. The material of the heat transfer plate 15 may be any material other than phosphor bronze as long as it has good thermal conductivity, can be elastically deformed, and does not easily rust.

[0024]

According to the temperature sensor mounting device according to the first aspect, the temperature sensor is held by the sensor holding portion of the heat transfer plate and does not need to be pressed against the accumulator.
The temperature sensor can be mounted on the accumulator without exerting too much force on it. Further, the temperature sensor can reliably detect the temperature of the accumulator via the contact piece of the heat transfer plate and the sensor holding unit.

Moreover , since the contact piece of the heat transfer plate is bent along the outer surface of the accumulator, a large contact area between the contact piece and the accumulator can be secured, and the temperature of the accumulator can be detected more reliably. .

According to the mounting device of a temperature sensor according to claim 2, by the mounting fixed at upper and lower end portions of the holder of the accumulator, the positioning of the holder with respect to the accumulator, and thus the temperature sensor positioning is performed more reliably.

According to the temperature sensor mounting device of the third aspect , since the space is formed between the outer surface of the heat transfer plate and the holder, the contact area between the heat transfer plate and the holder is reduced. At the same time, since an air layer is formed between them, the heat transfer plate and thus the temperature sensor are less likely to be affected by the temperature of the holder and the surroundings of the holder, and the temperature of the accumulator can be detected more reliably.

According to the mounting device of a temperature sensor according to claim 4, by providing integrally the lead wire holding portion in the holder, with the processing of the leads of the temperature sensor can be easily by utilizing it, No separate member is required for holding the lead wire.

[Brief description of the drawings]

FIG. 1 shows an embodiment of the present invention.
Enlarged cross-sectional view along the line

FIG. 2 is an overall exploded perspective view.

FIG. 3 is a perspective view showing a state where a heat transfer plate and a temperature sensor are attached to a holder.

FIG. 4 is a side view showing a state where the holder is attached to the accumulator.

5 is an enlarged cross-sectional view taken along line YY in FIG.

[Explanation of symbols]

1 is an accumulator, 2 is a connection part, 4 is a holder, 6,
7 is a first and a second mounting portion, 14 is a lead wire holding portion, 15
Is a heat transfer plate, 16 is a sensor holder, 17 is a contact piece, 18
Is a temperature sensor, 20 is a lead wire, and 21 is a space.

──────────────────────────────────────────────────続 き Continuation of the front page (56) References JP-A-3-63474 (JP, A) JP-A-7-103626 (JP, A) JP-A 1-158067 (JP, U) JP-A 62-103 71532 (JP, U) (58) Fields investigated (Int. Cl. ⁷ , DB name) F25B 49/02 510 F25D 29/00 G01K 1/14

Claims (4)

(57) [Claims] 1. A holder attached to an accumulator having a substantially cylindrical shape, and a holder formed of a metal plate having good heat conductivity, attached to the holder, and arranged along an outer surface of the accumulator.
A heat transfer plate having a contact piece that contacts the outer surface of the accumulator in a state where the holder is attached to the accumulator and is attached to the accumulator, and a heat transfer plate having a concave sensor holding portion. A temperature sensor for detecting a temperature via the heat transfer plate. 2. The holder comprises upper and lower ends of an accumulator.
The mounting device for a temperature sensor according to claim 1, wherein the mounting device is mounted and fixed at a portion . 3. A space is provided between the outer surface of the heat transfer plate and the holder.
Mounting device of a temperature sensor according to claim 1 or 2, wherein the forming the. 4. A lead wire for a temperature sensor is held in a holder.
4. The temperature sensor mounting device according to claim 1, wherein a lead wire holding portion is provided integrally .