JPH04101317A - Sealed type bimetal thermostat - Google Patents

Abstract

PURPOSE:To provide a simple and sure insulation sealing by furnishing a lead in connection with one terminal of a thermostat while pressure fitted in a substantially cylindrical housing made of resin, and inserting each lead in tapered cylinders which are cut in correspondence to the lead dia. furnished in one body with the housing. CONSTITUTION:Tapered lead drawout cylinders 9, 9' are furnished at the cylindrical surface of a housing 7 made of resin. A thermostat is inserted in this housing 7, and leads 8, 8' are drawn out of the lead drawout cylinders 9, 9' which are cut in correspondence to the lead dia. in connection with the terminals of the thermostat, and the opening of the housing 7 is sealed with a molding agent 21 followed by hardening. This eliminates deformation of terminals due to external force as well as variation in the characteristic of the thermostat, and there is no more need to build large equipment, and insulation sealing can be made certainly even with different dias. of the leads 8, 8.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of Industrial Application The present invention relates to a bimetallic thermostat used in refrigerators and freezers.

BACKGROUND OF THE INVENTION In recent years, bimetal thermostats (7) for refrigerators, refrigerators, etc. are required to be small, waterproof, and easy to install. DESCRIPTION OF THE PREFERRED EMBODIMENTS A conventional bimetal thermostat for a refrigerator or freezer as described above will be described below with reference to the drawings. Fifth
The figure shows the structure of a conventional bimetallic thermostat such as refrigerator/freezer i. 1 is a thermostat with a switch section that utilizes a bimetal/I/ that moves with a snap action due to temperature changes, and the terminal section is external. A connection lead wire 2 is connected with solder or the like. 3 is a resin tube, and after housing the thermostat 1, both ends 4
A and 4b are sealed by high frequency welding or the like.

Problems to be Solved by the Invention In the bimetallic thermostat with the E configuration, not only does the outer diameter of the tube 3 become large, but also when it is installed in a refrigerator, refrigerator, etc., the characteristics of the thermostat deteriorate due to the deformation of the terminals etc. due to external force. There is a risk of change. Furthermore, when the air inside the tube 3 contracts during cooling, water is absorbed from the lead wire 2, and the water enters the tube, causing a short circuit. In addition, the welding between the tube 3 and the lead wire 2 is not complete and it is necessary to reseal with a solvent or the like, which has an adverse effect on the human body and requires a large amount of equipment. Furthermore, since the wire diameter of the lead wire 2 differs depending on the rating of the thermostat, it requires equipment adjustment and man-hours such as replacing the welding jig for the tube 3 and the lead wire 2.The present invention has been developed in view of the above drawbacks. Our first objective is to provide a bimetallic thermostat that is small in size, does not deform due to external force during installation, and is securely insulated and sealed by a tapered lead wire draw-out cylinder provided on the cylindrical surface of the housing even if the lead wire diameters are different. The purpose is to

In addition, the second purpose is to insert the lead wire and use the resin tapered tube that engages with the lead wire extraction hole of the housing to ensure that there is no gap between the lead wire and the housing even if the wire diameter of the lead wire differs depending on the rating. To provide a bimetallic thermostat which is insulated and sealed and which prevents breakage of the lead wire at the end face of the hole in the housing due to the tapered tube even if the lead wire is pulled.

Means for Solving the Problems In order to achieve the first object, the present invention provides a bimetallic thermostat for refrigerators, etc., which includes a resin housing having a substantially cylindrical cylindrical surface and a tapered lead wire drawing cylinder. The lead wire inserted into the thermostat and connected to the terminal of the thermostat is pulled out from a tapered lead wire drawing cylinder whose tip is cut to match the diameter of the lead wire provided in the housing, and the opening of the housing is sealed with Molled lead agent. The structure is such that it is hardened.

In addition, in order to achieve the second object, the present invention provides a thermostat that is inserted into a resin housing having a lead wire drawing hole provided in a substantially cylindrical surface, and a lead wire connected to a terminal of the thermostat is inserted into the resin housing. A tapered resin tube that engages with the lead wire drawing hole is inserted and pulled out from the housing, and the opening of the housing is sealed and hardened with a molding agent.

Function: The sealed bimetal thermostat of the present invention is provided with a tapered lead wire drawing cylinder on the cylindrical surface of the resin housing, the thermostat is inserted into the housing, and the taper is cut to match the diameter of the lead wire connected to the terminal of the thermostat. By drawing out the lead wires from the shaped lead wire drawing cylinder, sealing the opening of the housing with a molding agent, and hardening the thermostat, the thermostat is compact and does not deform the terminal portion due to external force and does not change the characteristics of the thermostat. Further, it is possible to reliably insulate and seal even if the lead wire diameters are different without requiring a large amount of equipment.

In addition, a thermostat is inserted into the resin housing sink, and a resin taper tube with a lead wire inserted and connected to the terminal of the thermostat is inserted into the lead wire extraction hole of the housing, and the opening of the housing is sealed with a molding agent and hardened. The sealed bimetal thermostat has a resin tapered tube that eliminates the gap between the lead wire draw-out hole of the housing sink and the lead wire, even if the wire diameter of the lead wire differs depending on the rating. There is no longer any breakage of the lead wire due to the large wire drawing end surface.

EXAMPLE Hereinafter, a bimetallic thermostat for a refrigerator-freezer or the like according to an example of the present invention will be described with reference to the drawings.

FIGS. 1 and 2 show a sealed bimetallic thermostat 5 for refrigerators and cold storages according to an embodiment of the present invention. Reference numeral 6 denotes a swing section using a bimetal that is displaced by nunanopu action due to temperature changes. The thermo stand 7 has a generally cylindrical resin housing with tapered cylinders 9, 9' from which external connection lead wires 8 and 8' are drawn out on the cylindrical surface.
are integrally provided, and the tips are cut off at positions that match the wire diameters of the lead wires 8, 8'. The heat-sensitive member 1o of the thermostat 6 and the housing 7 are press-fitted and fixed, and the external connection lead wires 8, 8' are connected to the thermostat 6.
A tapered cylinder 9, which is connected to the terminals 11, 11' by welding or the like, and is cut to match the wire diameter of the lead wires 8, 8'.
9' is inserted.

The opening of the housing 7 is sealed and hardened with a molding agent 12.

In this embodiment, the ends of the lead wires 8, 8' connected to the terminals 11, 11' of the thermostat 6 are cut at a position that matches the wire diameter of the lead wires 8, 8' that are integrally provided in the housing 7. Since it is inserted through the tapered cylinders 9 and 9', a reliable insulation seal can be achieved.

Furthermore, by sealing and hardening the opening of the housing with the molding agent 12, it is possible to obtain effects such as being compact, not deformed by external force during installation, and having a simple structure that allows for assembly of large-scale equipment.

Next, another embodiment of the sealed bimetal thermostat will be described with reference to FIGS. 3 and 4.

A heat-sensitive member 10 of a thermostat 1-6, which has a switch portion using a bimetal that moves due to a change in temperature, is press-fitted into a substantially cylindrical resin housing. The lead wires 8, 8' for external connection are connected to the terminals 11, 11' of the thermostat 6, and are connected to the lead wire extraction holes 13, 13' provided in the cylindrical surface of the housing sink 7.
It is inserted into the tapered tubes 14 and 14' which pass through the housing 7, and is pulled out from the housing 7.

The opening of the housing 7 is sealed with a molding agent 12 and hardened.

As described above, in this embodiment, the terminal 11 of the thermostat 6
, 11' are connected to the housing sink 7.
The lead wires 8, 8' and the housing 7 are inserted into the resin taper tubes 14, 14' which are inserted into the lead wire exit holes 13, 13' and pulled out from the housing 7, so that the lead wires 8, 8' and the housing 7 are connected to the wire exit holes 13, 14'. A reliable insulation seal is possible without the gap 13'. The lead wires 8, 8' are also advantageous in that they do not break due to bending at the end faces of the housing holes 13, 13'.

Effects of the Invention As described above, the sealed bimetal thermostat of claim 1 provides the following effects.

(1) A thermostat with a switch part that utilizes a bimetal/I/ that is displaced by snap action due to temperature changes is press-fitted into a roughly cylindrical resin housing, and the lead wire connected to the terminal of the thermostand is integrated into the housing. By inserting the lead wire into a tapered cylinder cut to match the lead wire diameter, a simple and reliable insulation seal can be achieved.

(2) By sealing and hardening the opening of the housing with a molding agent, it is compact and does not deform terminals etc. due to external force during installation, and has a simple structure and can be assembled without the need for large-scale equipment.

-! In the sealed bimetal thermostat of claim 2, the lead wire connected to the terminal of the thermostat is inserted into the resin taber tube and pulled out from the lead wire draw-out hole provided in the housing sink, so the wire diameter of the lead wire varies depending on the rating of the thermostat. The gap between the lead wire and the hole in the housing can be eliminated by the resin taper tube, and a reliable insulation seal can be achieved.Also, since the lead wire has a resin taper tube, the end mi of the lead wire exit hole provided in the housing can be used for the lead wire. The effects are great, such as eliminating wire breakage due to bends in Q.

[Brief explanation of the drawing]

FIG. 1 is a perspective view of a sealed bimetal thermostat according to an embodiment of the present invention, FIG. 2 is a sectional view of a sealed bimetal thermostat according to an embodiment of the present invention, and FIG. 3 is a perspective view of a sealed bimetal thermostat according to another embodiment of the present invention. FIG. 4 is a sectional view of a sealed bimetallic thermostat, and FIG. 5 is an exploded perspective view of a sealed bimetallic thermostat in another embodiment of the present invention.
The figure is a sectional view showing the structure of a conventional bimetallic thermostat for a refrigerator or the like. 6...Thermostat, 7...Housing, 8゜8'...Bow wire, 9,9'...
Tapered cylinder, 10... Heat sensitive member, 11.11
'...°...terminal, 12...pymolding agent, 13,
13'... Lead wire extraction hole, 14, 14'
...Taper tube. Name of agent: Patent attorney Shigetaka Awano, etc.] Name 8
．． 8°77, H. 13.13 14,74 Lee Moztat Housing Reed Chimo Town? Member Itako lead wire draw-out hole taper coop diagram

Claims (2)

[Claims] (1) A thermostat having a switch part using a bimetal that is displaced by a snap action due to temperature changes, a resin housing having a substantially cylindrical surface integrated with a tapered lead wire drawing cylinder, and the thermostat. 1. A sealed bimetallic thermostat comprising an external connection lead wire attached to a terminal, wherein after the thermostat is inserted into the housing, an opening of the housing is sealed with a molding agent and hardened. (2) A thermostat with a switch part using a bimetal that moves with a snap action due to temperature changes, a resin housing with a lead wire hole in the approximately cylindrical surface, and an external connection that can be attached to the terminal of the thermostat. and a tapered resin tube into which the lead wire is inserted and which engages with the lead wire extraction hole of the housing, and after the thermostat is inserted into the housing, the opening of the housing is molded with a molding agent. A sealed bimetallic thermostat characterized by being sealed and hardened.