KR100528127B1 - pressure switch - Google Patents

Abstract

When abnormal high pressure or abnormal low pressure is generated in the refrigeration system, it is detected by the set pressure value and turned off electrically.If medium pressure is generated in the condenser, it is detected by the set temperature value to control the operation of the refrigeration system. A base which is separated into a housing in communication with the refrigeration system, into which the pressure of the refrigerant flows, and an upper cavity for accommodating the parts of the switch by the partition and a lower cavity for accommodating the terminal penetrating the partition. A diaphragm mounted on the top of the base to transfer the refrigerant pressure to the base, a plate-shaped bimetal disposed under the diaphragm having a displacement corresponding to a temperature change of the refrigerant flowing into the housing, and a predetermined pressure of the refrigerant flowing into the housing. Low and high pressure snap-in Low and high pressure detection switch that is electrically on / off by the movement of the second operating rod to detect the set low and high pressure of the refrigerant, and the first installed on the inner bottom of the upper cavity and moved according to the elastic deformation of the bimetal And a medium pressure detection switch electrically on / off by the operating rod to detect the set intermediate pressure of the refrigerant as a temperature, and a protective cap installed between the diaphragm and the bimetal to protect the bimetal from external pressure.

Description

Three-acting pressure switch

According to the present invention, when abnormal high pressure or abnormal low pressure is generated in the condenser constituting the refrigerating system, it is detected by the set pressure value to be electrically turned off, and a medium pressure is generated in the condenser. If so, it relates to a three-actuated pressure switch that can detect this by the set temperature value to control the operation of the refrigeration system.

As shown in FIG. 1, the three-operation type pressure switch according to the related art has a housing 10 having an inlet 1 formed at an upper end thereof in communication with a refrigeration system and having a pressure of a refrigerant flowing therein, and a partition 11. The housing is separated by an elastic gasket 15 which is separated into an upper cavity 12 for receiving functional parts of the switch and a lower cavity 14 for receiving terminals 13 and 28 penetrating the partition 11. An insulating base 20 that is hermetically coupled to 10;

The inlet 1 and the upper cavity 12 are separated from each other, and the refrigerant gas is formed of a thin film such as polyimide resin to prevent the refrigerant gas from flowing into the base 20 and to transfer the refrigerant pressure into the base 20. The first diaphragms 16, the first, second and third snap disks 31, 32 and 33, which are stacked in the base 20 and have a corresponding displacement according to a set pressure change of the refrigerant,

A first sliding member 21 installed in the upper cavity 12 so as to be slidably movable in the vertical direction, accommodating the first snap disk 31, and pressing the inclined surface of the second snap disk 32; A second sliding member 22 accommodating the disk 32 and in close contact with an upper surface of the third snap disk 33, an upper end of the second sliding member 21 contacting a bottom surface of the first snap disk 31, and a first sliding member 21. A first operating rod 26 pressurizing the third switch lever 25 when descending through the second snap disk 32 and the second sliding member 22;

An upper end of the second snap disk 32 contacts the bottom surface of the second sliding member 22 and includes a second operating rod 27 for elastically displacing the third snap disk 33.

In the drawing, reference numeral 23 denotes a first switch lever 24 having one end of the fixed end 23a electrically connected to the terminal 28 accommodated in the lower cavity 14 and the movable contact 23b having the other end. A negative switch end 24a is a second switch lever electrically connected to the terminal 28 and a movable contact 24b attached to and detached from the movable contact 23b is formed at the other end.

The first snap disk 31 has a plurality of inverted plates are stacked and the upper surface is in contact with the bottom surface of the diaphragm 16 to have a corresponding displacement according to the set intermediate pressure change of the refrigerant, the second snap disk 32 is The annular protrusion 21a of the first sliding member 21 is in contact with the inclined portion of the upper surface, and a plurality of inverted plates are stacked, and are used to elastically displace and electrically turn off when an abnormal high pressure of the refrigerant occurs. 33 receives the pressure of the refrigerant via the diaphragm 16, the first sliding member 21 and the second sliding member 22, and is used to elastically displace and electrically turn off the abnormal low pressure of the refrigerant.

Referring to the operation of the three-operation type pressure switch as follows.

When the pressure of the refrigerant flowing through the inlet 1 at the upper end of the housing 1 communicating with the refrigerator is applied to the diaphragm 16, the first snap disk 31, the first sliding member 21, and the second The load via the snap disk 32 and the second sliding member 22 acts on the third snap disk 33. As a result, the protrusion 22a of the second sliding member 22 presses the first switch lever 23 to bring the movable contact 23b into contact with the movable contact 24b of the second switch lever 24. Turn ON.

When the pressure of the coolant rises a little further, the first operating rod 26 pushes down the third switch lever 25 due to the elastic deformation of the first snap disk 31 to move the movable contact 25a to the fixed contact ( Contact 13a).

When the pressure of the coolant rises to an abnormal high pressure higher than the set pressure, the annular projection 21a of the first sliding member 21 presses the second snap disk 32, and the second operating rod 27 2, the switch lever 24 is pushed down, thereby moving the movable contact 24b of the second switch lever 24 away from the movable contact 23b of the first switch lever 23, thereby turning off the electrical circuit. )

At this time, when the pressure of the coolant drops a little more, the second snap disk 32 is returned, and the pushing force of the second operating rod 27 decreases, so that the second switch lever 24 is driven by the self restoring force. In the drawing, since the movable contact 24b contacts the movable contact 23b as it moves upward, the electrical circuit is turned on.

When the pressure of the coolant drops further than the set pressure, the pressing force of the central protrusion 22a of the second sliding member 22 is released by the third snap disk 33, thereby restoring the restoring force of the first switch lever 23. Since the movable contact 23b is separated from the movable contact 24b, the electrical circuit is turned off.

Therefore, when the pressure of the refrigerant circulating in the refrigeration system is a high pressure exceeding the set pressure value or a low pressure lower than the set pressure, the three-operation type pressure switch is detected by a plurality of snap disks having a corresponding elastic displacement. It is formed to turn off the electrical circuit of the component.

However, in the three-operation type pressure switch structure, when the pipe circulating the refrigerant is damaged due to the high pressure of the refrigerant and the pressure drops, or the amount of the refrigerant gas circulating in the refrigeration system is insufficient, the pressure switch is a low pressure switch. There is a lack of safety because it does not operate normally, the overload occurs in the compressor shortens the service life of the product, there is a problem that the reliability of the product falls.

Due to the increase in the number of corresponding parts constituting the three-operation type pressure switch, the cost of the work is increased due to an increase in the number of labor for manufacturing and assembling the three-operation type pressure switch.

Therefore, an object of the present invention, if the pressure of the refrigerant circulating the refrigeration system is abnormal high pressure or abnormal low pressure detected by the set pressure value and electrically off to ensure safety, if the pressure of the refrigerant is set to this It is to provide a three-actuated pressure switch that can be prevented from overloading the compressor by detecting the temperature value and controlling the refrigeration system.

Another object of the present invention is to provide a three-operation type pressure switch that can reduce the number of parts, reduce the cost, and significantly improve the reliability of the product by smooth operation of the refrigeration system.

The above object of the present invention is to provide a three-actuated pressure switch installed in a conduit between a condenser and an expansion valve of a refrigeration system. A base which is separated into an upper cavity for receiving and a lower cavity for receiving a terminal passing through the partition wall and is hermetically coupled to the housing, a diaphragm mounted on an upper end of the base to transmit refrigerant pressure to the base, and disposed below the diaphragm; By the movement of the second working rod by the plate-shaped bimetal having a displacement corresponding to the temperature change of the refrigerant flowing into the housing, and the low pressure and high pressure detection snap disks that are elastically deformed in response to the set pressure of the refrigerant flowing into the housing. Low and high pressure detection switch electrically on / off to detect the set low and high pressure of the refrigerant A position switch, a switch for detecting the medium pressure, which is installed on the inner bottom of the upper cavity and electrically turned on / off by a first operating rod moved according to the elastic deformation of the bimetal to detect the set intermediate pressure of the refrigerant as a temperature; It is characterized by having a protective cap installed between the bimetal to protect the bimetal from external pressure.

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DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings, which are intended to explain in detail enough to enable those skilled in the art to easily practice the present invention. This does not mean that the technical spirit and scope of the present invention is limited.

As shown in Figure 2, the present invention is applied to a three-actuated pressure switch is installed in the conduit between the condenser and the expansion valve of the refrigeration system, the inlet (1) is in communication with the refrigeration system inlet pressure 1 is introduced A lower cavity 14 in which a housing 10 formed in the center, an upper cavity 12 for receiving functional parts of the switch by the partition 11 and terminals 13 and 28 penetrating the partition 11 are accommodated; Insulating base 20 is separated into a) and is coupled to the airtight to the housing 10 by a gasket 15 having an elastic force,

The diaphragm 16 is formed in a thin film to separate the inlet 1 and the upper cavity 12 and to transfer the refrigerant pressure of the inlet 1 into the base 20, which are shown in FIG. 1. Detailed descriptions of these configurations and operations are omitted since they are applied in substantially the same manner, and the same reference numerals are used to refer to the same reference numerals.

Accordingly, the tri-operation type pressure switch according to the present invention is disposed below the diaphragm 16 formed of polyimide resin and has a dish-shaped bimetal 50 having a displacement corresponding to the temperature change of the refrigerant flowing into the housing 10. ), A protective cap 16 'installed between the diaphragm 16 and the bimetal 50 and formed of a polyimide resin to protect the bimetal 50 from external pressure,

The refrigerant is electrically turned on and off by the movement of the second operating rod 43 by the low pressure and high pressure detection snap disks 51 and 52 that are elastically deformed in response to the set pressure of the refrigerant flowing into the housing 10. Low and high pressure detection switch (A) for detecting low and high pressure,

Medium pressure detection installed on the inner bottom of the upper cavity 12 and electrically on / off by the first operating rod 42 moved according to the elastic deformation of the bimetal 50 to detect the set intermediate pressure of the refrigerant as the temperature. A switch B is further provided.

In the drawings, reference numeral 40 denotes a first sliding member which supports the bimetal 50 and is slidably coupled to the upper end of the base 20 and has a through hole 40a through which the first operating rod 42 passes. 41 is a second sliding member whose top surface is in contact with the bottom surface of the high pressure detection snap disk 51 and the bottom surface is in contact with the top surface of the low pressure detection snap disk 52.

Hereinafter, the operation of the three-operation type pressure switch according to the present invention will be described in detail with reference to FIGS. 2 and 3.

When the pressure of the refrigerant flowing through the inlet 1 at the upper end of the housing 1 communicating with the refrigerator is applied to the diaphragm 16 (when the pressure of the refrigerant is low pressure), the first sliding member 40, a high pressure The load passing through the detection snap disk 51 and the second sliding member 41 acts on the low pressure detection snap disk 52. As a result, the second operating rod 43 presses the switch lever 53 to bring the movable contact 53a into contact with the fixed contact 54a opposite thereto, thereby turning on the electrical circuit.

When the pressure of the refrigerant rises a little further (when the pressure of the refrigerant is medium pressure), the bimetal 50 is elastically deformed downward in the drawing to pressurize the upper surface of the first operating rod 42, thereby detecting the medium pressure of the refrigerant. The electrical circuit is turned on by bringing the movable contact 60a of the switch lever 60 into contact with the fixed contact 13a of the terminal 13.

At this time, when the pressure of the coolant rises to an abnormal high pressure higher than the set pressure (when the pressure of the coolant is high pressure), the annular protrusion 40a of the first sliding member 40 opens the snap disk 51 for detecting the high pressure. As the pressure is reversed, the switch lever 53 is returned to the initial position, and the movable contact 53a of the switch lever 53 is separated from the fixed contact 54a opposite thereto, thereby turning off the electrical circuit. .

At this time, as shown in Figure 3, when the pressure of the refrigerant is slightly lowered (at this time, when the refrigerant moves from the condenser to the expansion valve temperature of the refrigerant falls from the medium temperature to low temperature), the high-pressure detection snap disk 51 is The movable contact 53a of the switch lever 53 is brought into contact with the fixed contact 54a by the second operating rod 43, thereby turning on the electrical circuit.

At this time, when the pressure of the coolant drops a little further (when the pressure of the coolant is low), the pressing force of the low pressure detecting snap disk 52 on the second operating rod 43 is released, Since the movable contact 53a is separated from the fixed contact 54a by the restoring force, the electrical circuit is turned off.

As described above, the three-operation type pressure switch according to the present invention has the following advantages.

If the refrigerant pressure in the refrigeration system is abnormal high pressure or abnormal low pressure, it is detected by the set pressure and turned off electrically to ensure safety.If the refrigerant pressure is medium pressure, it is detected by the set temperature to control the refrigeration system. As a result, the service life can be extended by preventing the compressor from being overloaded.

In addition, the cost reduction by reducing the number of parts, and the smooth operation of the refrigeration system can significantly improve the reliability of the product.

1 is a schematic diagram of a three-operation type pressure switch according to the prior art,

2 is a schematic diagram of a three-operation type pressure switch according to the present invention;

3 is a graph showing the relationship between temperature and pressure in the refrigeration cycle.

* Explanation of symbols used in the main part of the drawing

One; Inlet

10; housing

11; septum

12; Upper cavity

13; terminal

14; Lower cavity

16; Diaphragm

16 '; Protective cap

20; Base

40; First sliding member

41; Second sliding member

50; Bimetal

A; Low and high pressure switch

B; Medium pressure switch

Claims (2)

In the three-acting pressure switch installed in the conduit between the condenser and the expansion valve of the refrigeration system, A housing in communication with the refrigeration system, into which the pressure of the refrigerant flows; A base separated by a partition into an upper cavity for accommodating a part of the switch and a lower cavity for accommodating a terminal passing through the partition and being hermetically coupled to the housing; A diaphragm mounted on an upper end of the base to transfer refrigerant pressure into the base; A dish-shaped bimetal disposed below the diaphragm and having a displacement corresponding to a temperature change of the refrigerant flowing into the housing; Low and high pressure detection to electrically turn on / off by the movement of the second operating rod by the low pressure and high pressure detection snap disk elastically deformed in response to the set pressure of the refrigerant flowing into the housing to detect the set low and high pressure of the refrigerant Switch for; A medium pressure detection switch installed at an inner bottom of the upper cavity and electrically on / off by a first operating rod moved according to the elastic deformation of the bimetal to detect a predetermined intermediate pressure of the refrigerant as a temperature; And And a protective cap installed between the diaphragm and the bimetal to protect the bimetal from external pressure. delete