JPH058158U - Thermal element - Google Patents

Abstract

(57) [Abstract] [Purpose] In a thermal element composed of a thermoelement and a heater composed of a positive temperature coefficient thermistor that abuts on the heat-sensitive portion of the thermoelement, stabilize the conduction state between the positive temperature coefficient thermistor and the current-carrying electrode. It stabilizes the characteristics and prevents dew condensation between the positive temperature coefficient thermistor and the current-carrying electrode. [Constitution] Case 3 of thermosensitive element 3b of thermoelement 3
On the bottom surface side of 0, a heater holding portion a is installed integrally or integrally with the case 30, and in the heater holding portion a, the positive temperature coefficient thermistor 40 and the pair of electrode plates 41a are provided.
Cord 43.4 for connecting the heater H combined with 41b to the pair of electrode plates 41a and 41b, respectively
4 is inserted in a state of being pulled out from the opening of the heater holding part a, an elastic material 7 such as a rubber material is brought into contact with the outer surface side of the heater H, and the heater is crimped via the elastic material 7. The heater H is enclosed in the holding portion a, and the opening of the heater holding portion a from which the cords 43 and 44 are pulled out is sealed with the filling material 8.

Description

[Detailed description of the device]

[0001]

[Industrial applications]

 The present invention relates to an improvement of a thermal element that is used by assembling an opening / closing valve of a motor-operated valve so as to open / close by energization.

[0002]

[Prior Art]

 As shown in FIG. 1, the above-described motor-operated valve A is usually provided with a thermoelement 3 in which a driving portion 3a moves in and out of a valve box 1 which stores an opening / closing valve 2 which is opened / closed by an operation of a valve shaft 20. It is constructed by assembling a thermal element B composed of a heater H which is brought into contact with and attached to the heat-sensitive portion 3b, and the drive portion 3a thereof is connected to the valve shaft 20 of the on-off valve 2. Therefore, the drive portion 3a of the thermoelement 3 is operated by controlling the on / off of the energization of the heater H of the thermal element B, and the opening / closing control of the open / close valve 2 is performed by the operation of the drive portion 3a. ..

As shown in FIG. 2, the thermal element B assembled to the motor-operated valve A is integrally formed with the case 30 on the outer surface of the thermosensitive portion 3b of the thermoelement 3 on the bottom surface side of the case 30. A cylindrical heater holding portion a that is continuous in an integrated manner is provided, and a heater H, which is a combination of the positive temperature coefficient thermistor 40 and the electrode plate 41, is inserted into the inner cavity of the heater holding portion a. The heater support plate 42 made of an insulating material and attached to the opening of the heater is held in the heater holding part a by caulking with the opening edge of the heater holding part a, and the heater H is driven by turning on / off the power. The moving part 3a is configured to be operated.

The heater H composed of the positive temperature coefficient thermistor 40 and the electrode plate 41 inserted in the heater holding portion a has a positive electrode thermistor 40 on which only one of the two front and back surfaces has a current-carrying electrode. 2, the other surface is formed of a metal material having good heat conduction, and the case 30 of the heat-sensitive portion 3b of the thermoelement 3 of the thermoelement 3 having good conductivity is shown in FIG. By directly contacting the outer surface so that the case 30 of the heat-sensitive portion 3b of the thermoelement 3 serves as the other electrode, one of the two cords 43.44 is connected to this case 30 and the other The cord 43 is connected to the electrode plate 41 so that the positive temperature coefficient thermistor 40 is energized through the cords 43 and 44.

[0005]

[Problems to be solved by the device]

 In the above-described thermal element B used in the conventional motor-operated valve, the positive temperature coefficient thermistor 40 that constitutes the heater H is in direct contact with the outer surface of the case 30 of the heat-sensitive portion 3b of the thermoelement 3 that serves as one electrode. Although the heat conduction from the PTC thermistor 40 to the heat-sensing unit 3b is improved, when the motor-operated valve is installed in a place where dew condensation with high humidity is likely to occur, one surface of the PTC thermistor 40 and the case 30 of the heat-sensing unit 3b are provided. Since the dew condensation occurs on the contact surface with the on / off valve 2, the opening / closing operation of the on-off valve 2 performed by turning on / off the power to the positive temperature coefficient thermistor 40 becomes unsuccessful, thus limiting the place to use. There is.

Further, in order to ensure the electrical conduction state due to the contact between the positive temperature coefficient thermistor 40 and the outer surface of the case 30 of the thermosensitive portion 3b of the thermoelement 3, the heater H held by the heater holding portion a is ensured. The positive temperature coefficient thermistor 40 is crimped to the heater holding part a via the heater support plate 42. However, the positive temperature coefficient thermistor 40 has a temperature rise caused by energization and a cooling time caused by deenergization. Repeated expansion and contraction by the temperature cycle and repeated expansion and contraction of the heater support plate 42 cause deterioration of the caulking of the caulking portion, and the positive temperature coefficient thermistor 40 and the heat-sensitive portion 3a of the thermoelement body 3 are separated. There is a problem in that the electrical continuity due to the contact with the case 30 is deteriorated.

The present invention has been made in order to solve these problems occurring in the conventional means, and even if the expansion and contraction due to the temperature cycle of heating and cooling is repeated by use, It is an object of the present invention to provide a new means for maintaining stable characteristics without causing a change in the electrical conduction state even when used in a place where dew condensation is likely to occur.

[0008]

[Means for Solving the Problems]

 In the present invention, as a means for achieving the above-mentioned object, a heater holding portion is installed on the bottom surface side of the case of the thermosensitive portion of the thermoelement integrally with or integrally with the case. In the heater holder, insert a heater that combines a positive temperature coefficient thermistor and a pair of electrode plates into a state in which the cords that connect to the pair of electrode plates are pulled out from the opening of the heater holder. Then, an elastic material such as rubber is brought into contact with the outer surface of the heater, and the heater is wrapped in the heater holding portion by caulking through the elastic material, and the heater holding portion from which the cord is pulled out. The present invention proposes a thermal element characterized in that the opening is sealed with a filling material.

[0009]

【Example】

 Next, embodiments will be described in detail with reference to the drawings. The same reference numerals are used for the constituent members having the same effects as those of the conventional means.

FIG. 3 is a vertical sectional view of a thermal element B in an electric valve embodying the present invention. In FIG. 3, 3 is a thermoelement, 3a is a drive part, 3b is a heat sensitive part, and 30 is a heat sensitive part 3b. A case, a is a heater holding portion provided on the bottom side of the case 30, and H is a heater.

The thermoelement 3 has a case 30 formed of a metal material having good thermal conductivity, and a thermosensitive substance 31 whose volume changes in accordance with temperature changes of waxes and the like, and the open mouth of the case 30. Is sealed with a diaphragm 32, and the expanded diameter portion of the base end of the guide cylinder 33 is fitted on the outer side of the diaphragm 32 and caulked integrally with the rim of the opening of the case 30 to fit in the inner cavity of the guide cylinder 33. Is filled with a fluid 34 in a diameter-expanded portion on the base end side thereof, a rubber piston 35 and a Teflon plate 36 are laminated and fitted on the outer side thereof in that order, and a piston 37 is placed on the outer side of the Teflon plate 36. The lower half side of the case 30 is slidably inserted, whereby the outer peripheral surface of the case 30 is used as the heat-sensitive portion 3b to sense the external temperature and to detect the temperature-sensitive substance in the case 30. 31 due to temperature change The fact that the drive portion 3a formed on the upper end side of the piston 37 moves in and out according to the change in volume is the same as the conventional so-called wax thermoelement.

On the bottom surface side of the case 30 serving as the heat-sensitive portion 3b of the thermoelement 3, a cylindrical heater holding portion a is integrally formed with the case 30 by the metal material forming the case 30. The heater H, which is formed in a continuous manner, is assembled by assembling the naked positive temperature coefficient thermistor 40 and the electrode plate by joining them into the inner cavity of the heater holding portion a, and the heater H is connected. The heating operation is performed by energization performed through the cords 43 and 44, and the heat amount of the heater H thermally expands the temperature-sensitive substance in the case 30 of the heat-sensitive section 3b, thereby pushing out the piston 37 serving as the drive section 3a and energizing. The fact that the thermal element B is configured such that the piston 37, which is the drive unit 3a, is retracted by shrinking the temperature-sensitive substance by cooling by the off of It is no different from the element.

However, the positive temperature coefficient thermistor 40 which is mounted on the bottom surface side of the case 30 of the thermosensitive section 3b of the thermoelement 3 in a cylindrical heater holding section a which is integrally (or integrally) mounted with the case 30. The heater H, which is a combination of the electrode plate 41 and the electrode plate 41, is mounted on the front and back surfaces of the plate-shaped positive temperature coefficient thermistor 40, as shown in FIG. The positive characteristic thermistor 40 is sandwiched between the two electrode plates 41a and 41b by abutting the electrode plates 41a and 41b, respectively, and a through hole 410 is opened in a part of one of the electrode plates 41a. The positive characteristic thermistor 40 is provided with a cord insertion hole 400 through which the through hole 410 is joined at a portion where the through hole 410 is joined, and one of the two cords 43 and 44 is connected to the through hole 410. Connected to the outer surface of the provided electrode plate 41a, the other cord 44 is inserted into the through hole 410 and the cord insertion hole 400 and connected to the inner surface of the other electrode plate 41b, whereby the heater H is assembled. The outer peripheral side of this is covered with an insulating material 5 or is coated with an insulating paint 6 on the outer peripheral surface so as to be insulated from the outside, and in this state, the heater holding portion a formed in a cylindrical shape is mounted. To enter.

Then, an elastic material 7 such as a rubber material is inserted into the peripheral portion on the lower surface side of the heater, and the peripheral portion of the opening of the heater holding portion a is inserted into the peripheral portion of the heater H via the elastic material 7. The heater H is attached to the opening of the heater holding portion a which is squeezed, and the filler 8 is loaded so as to hermetically seal around the cords 43 and 44 pulled out from the opening. It is assembled.

Next, FIG. 4 shows another embodiment. In this embodiment, a positive temperature coefficient thermistor 40 and a pair of positive temperature coefficient thermistors 40 are provided in a cylindrical heater holding part a formed integrally or integrally with the case 30 on the bottom surface side of the case 30 of the heat sensitive part 3a of the thermoelement 3. This is an example in which the configuration of the heater H assembled by combining the electrode plates 41a and 41b of 1. is changed.

This embodiment is the same as the embodiment shown in FIG. 3 in terms of the configurations of the thermoelement 3 and the heater holding portion a, and the positive temperature coefficient thermistor 40 and the pair of electrode plates 41a and 41b are used. The heater H combined with the heater H is inserted into the heater holding part a with its outer periphery electrically insulated from the outside by the insulating material 5 or the insulating paint 6, and the heater H is attached to the peripheral portion on the outer surface side. An elastic material 7 such as a rubber material is inserted, and the opening edge of the heater holding portion a is caulked through the elastic material 7 toward the peripheral edge portion of the heater H, whereby the heater holding squeezed is held. The filling material 8 is loaded into the inner cavity of the heater holding part a from the opening of the part a, and a watertight seal is provided around the opening of the heater holding part a and the two cords 43 and 44 pulled out from the opening. And The construction of the thermal element B by hermetically sealing is no different from that of the embodiment shown in FIG. 3 described above.

However, when the heater H is composed of the positive temperature coefficient thermistor 40 and the pair of electrode plates 41a and 41b joined to the positive temperature coefficient thermistor 40, one of the two front and back surfaces of the positive temperature coefficient thermistor 40 formed in a disk shape is formed. A separation groove 90 that crosses in the diametrical direction is provided on one surface, and the electrode plates 41a and 41b are respectively brought into contact with one half side and the other half side of one surface divided by the separation groove 90, By connecting the cords 43 and 44 to these, the current flowing from one cord 43 to the electrode plate 41a joined to the one half side flows through the positive temperature coefficient thermistor 40 to the electrode plate 41b joined to the other half side, and By allowing the current to flow from the electrode plate 41b to the other cord 44, electricity can be transmitted to the positive temperature coefficient thermistor 40 from one of the front and back surfaces thereof.

The heater H having the above-described structure is arranged so that the surface of the two surfaces 40 of the positive-characteristic thermistor 40 on which the electrode plates 41a and 41b are not attached is the inner side. , The insulating material 5 or the insulating paint 6, and the cords 43 and 44 which are respectively connected to the pair of electrode plates 41a and 41b and pulled out are inserted into the heater holding portion a so that the cords 43 and 44 face outward. To the heater holding part a by caulking the edge portion of the opening of the heater holding part a through the elastic material 7 formed in a ring shape with a rubber material or the like that is in contact with the peripheral edge of the side. It is sealed by loading the filler 8 into the opening.

The heater holding part a provided on the bottom surface side of the case 30 of the heat-sensitive part 3a of the thermoelement 3 is formed separately from the case 30 and is integrated with the case 30 by a tightening bolt or a screw. It may be installed in a continuous state. Further, the heater H is assembled into the heater holding portion a by, for example, a ring-shaped screw lid screwed into the opening of the heater holding portion a, and a rubber inserted through screwing the screw lid. In some cases, the elastic material 7 such as a material is pressed against the outer surface of the heater H.

[0020]

[Effect of the device]

 As described above, in the thermal element according to the present invention, the heater holding part a is integrally or integrally connected to the case 30 on the bottom surface side of the case 30 of the thermosensitive part 3b of the thermoelement 3. In the heater holding part a, the cords 43 and 44 for connecting the heater H, which is a combination of the positive temperature coefficient thermistor 40 and the pair of electrode plates 41a and 41b, to the pair of electrode plates 41a and 41b, respectively. The heater H is inserted in a state of being pulled out from the opening, the elastic member 7 such as a rubber member is brought into contact with the outer surface side of the heater H, and the elastic member 7 is caulked into the heater holding part a. Since the heater H is enclosed and the opening of the heater holding portion a from which the cords 43 and 44 are pulled out is sealed by the filler 8, the characteristic thermistor 4 The heater H made of the elastic material 7 is in a state in which the pair of electrode plates 41a and 41b are in close contact with the positive temperature coefficient thermistor 40 by the elasticity of the elastic member 7 and the cords 43 and 44 connected to the electrode plates 41a and 41b, respectively. Since the connection portion of is closed and is enclosed in the heater holding portion a, the repeated expansion and contraction due to the thermal change of the positive temperature coefficient thermistor 40 is absorbed by the elasticity of the elastic material 7, and Condensation on the contact surface between the characteristic thermistor 40 and the electrode plates 41a and 41b is prevented, and the characteristic is stable, and it operates stably even when used in a place where dew condensation is likely to occur. Like

[Brief description of drawings]

FIG. 1 is a partially cutaway front view of an electric valve using a thermal element.

FIG. 2 is a partially cutaway front view of the above thermal element.

FIG. 3 is a vertical sectional front view of a thermal element according to the present invention.

FIG. 4 is a vertical sectional front view of another embodiment of the thermal element according to the present invention.

[Explanation of symbols]

A ... Motorized valve, B ... Thermal element, H ... Heater, a ...
Heater holder, 1 ... Valve box, 2 ... Open / close valve, 20 ... Valve shaft,
3 ... Thermo element, 3a ... Drive part, 3b ... Heat sensitive part,
30 ... Case, 31 ... Temperature-sensitive substance, 32 ... Diaphragm,
33 ... Guide cylinder, 34 ... Fluid, 35 ... Rubber piston,
36 ... Teflon plate, 37 ... Piston, 40 ... Positive characteristic thermistor, 400 ... Cord insertion hole, 41 ... Electrode plate, 410
... through holes, 41a and 41b ... electrode plates, 42 ... heater support plates, 43.44 ... cords, 5 ... insulating material, 6 ... insulating paint,
7 ... Elastic material, 8 ... Filler material, 90 ... Separation groove.

Claims (1)

[Claims for utility model registration] [Claim 1] A heater holding portion a is provided on the bottom surface side of the case 30 of the thermosensitive portion 3b of the thermoelement 3.
And the PTC thermistor 40 and the pair of electrode plates 4 in the heater holder a.
A cord 43 for connecting a heater H in combination with 1a and 41b to the pair of electrode plates 41a and 41b, respectively.
By inserting 44 into a state where it is pulled out from the opening of the heater holding portion a, contacting the outer surface side of the heater H with an elastic material 7 such as a rubber material, and caulking via the elastic material 7. The heater holding part a in which the heater H is enclosed in the heater holding part a and the cords 43 and 44 are pulled out.
A thermal element characterized in that the opening of the is sealed by a filler 8.